The document provides instructions for using the LipovisorTM medical device. The LipovisorTM performs 3D scans that highlight fat deposits in the body, aiding in procedures like liposuction and lipofilling. It allows surgeons to accurately determine the amount and location of fat to remove or transfer. The LipovisorTM is non-invasive and provides measurements and images to guide procedures and document results. It helps ensure liposuction reshapes the body as intended by precisely measuring fat layers.
Lipovisor™ is a unique medical device, developed and tested by a team of doctors and technicians, which highlights in an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan which visually highlights, with three-dimensional images, the amount of fat deposits present, before, during and after liposuction and liposculpture procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue in the human body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify which part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in order to reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person undergoing the procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat, with obvious discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would produce permanent depressions in the skin, which are difficult to remedy in a definitive manner. Typically, in these kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it difficult to determine with absolute precision the amount of fat to be removed and above all the amount not to be removed.
Lipovisor™ is a device that precisely scans and displays the quantity and distribution of fat deposits in the body.
It is a user-friendly and non-invasive device, which measures the distribution and quantity of fat deposits and tissue present in any part of the body and displays this information in highly precise images on a monitor.
The transmission of these particular energy signals highlight the quantity of the fat cells present under the skin without damaging any anatomical structure in a selected area.
Product Features
PAINLESSNESS: By using an ultrasensitive probe that simply comes into contact with the skin, information is sent to the computer and the layer of fat is then displayed on a monitor.
USE: It can be used in an outpatient or inpatient setting with a sterilized, single use probe.
It instantly READS the thickness of the fat tissue, which is then displayed in realistic, three-dimensional images.
EASY FOR THE DOCTOR TO USE: This device provides the doctor with the information of precise quantities of residual fat after the liposculpting procedure, which can then be removed with precision, therefore eliminating unattractive post-operative results.
COMPACT AND EASY TO HANDLE: Thanks to its small size, ergonomic handle and flexible cords, it is simple to use and easy to manoeuvre. There are two different sized probes for the removal of big and small fat deposits.
DOCUMENTED RESULTS: The results before and after the operation can be compared accurately.
NO SIDE EFFECTS: The device is a non-invasive solution that is even more effective in performing highly precise liposuction procedures.
Lipovisor™ is a unique medical device, developed and tested by a team of doctors and technicians, which highlights in
an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan which
visually highlights, with three-dimensional images, the amount of fat deposits present, before, during and after liposuction
and liposculpture procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic
treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue in the human
body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify
which part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in
order to reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause
major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person undergoing the
procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat, with obvious
discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would
produce permanent depressions in the skin, which are difficult to remedy in a definitive manner. Typically, in these kinds of
evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it difficult to determine
with absolute precision the amount of fat to be removed and above all the amount not to be removed.
Lipovisor™ is a unique system, developed and tested at the Lazzaro Spallanzani Private Medical Centre in Reggio Emilia,
which highlights in an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™
performs a scan which visually highlights, with three-dimensional images, the amount of fat before, during and after
liposuction and liposculpture procedures, by means of high-defi nition technologies. Indeed, we know that, in cosmetic or
therapeutic treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue
in the human body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in
order to identify which part should be removed. In similar operations it is actually essential to maintain a certain amount of
fat tissue in order to reshape the silhouette of the body; while, conversely, a defi ciency or an inadequate fat accumulation
could cause major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person
undergoing the procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat,
with obvious discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as
it would produce permanent depressions in the skin, which are diffi cult to remedy in a defi nitive manner. Typically, in these
kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it diffi cult to
determine with absolute precision the amount of fat to be removed and above all the amount not to be removed.
This document discusses the use of robots in surgery. It defines robots and describes different types of surgical robots including AESOP and da Vinci systems. The da Vinci system allows surgeons to perform minimally invasive procedures through small incisions using robotic arms with magnified 3D vision and improved dexterity. Robotic surgery is associated with benefits like shorter hospital stays and recovery times compared to open surgery, but also has disadvantages such as high costs and a steep learning curve.
The document discusses semi-invasive methods for fat reduction, including VASER and laser lipolysis. It provides background on social and medical trends driving demand for these procedures. VASER uses ultrasound energy to selectively fragment fat while sparing other tissues. Laser lipolysis uses laser energy to destroy fat cells via photothermal and photomechanical mechanisms. Both require tumescent anesthesia and suction but VASER is said to have greater tissue specificity and avoid disrupting fibrous tissue. Before and after photos show results from various doctors.
Robotics are used in various applications in biomedical science and healthcare. They can assist nurses by transporting supplies between wards. Medical robots help surgeons by enhancing dexterity and precision during surgical procedures. Robots are also used for rehabilitation through robotic prosthetics and orthotics. Future developments include more autonomous robot surgeons with haptic feedback and reliable remote surgical capabilities.
The document discusses the history and development of robotic surgery. It describes how the first robotic surgery device, the PUMA 560, was used in 1985 for brain biopsies. Later systems like PROBOT and ROBODOC were developed in the late 1980s and early 1990s. The da Vinci surgical system was approved by the FDA in 2000 and is now commonly used for procedures like prostatectomies and cardiac/gynecological surgeries. The da Vinci allows surgeons to operate remotely through small incisions while magnifying their hand movements. Robotic surgery provides benefits like shorter recovery times but drawbacks include the high costs of equipment and training. New innovations continue to advance the field.
Lipovisor™ is a unique medical device, developed and tested by a team of doctors and technicians, which highlights in an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan which visually highlights, with three-dimensional images, the amount of fat deposits present, before, during and after liposuction and liposculpture procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue in the human body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify which part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in order to reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person undergoing the procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat, with obvious discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would produce permanent depressions in the skin, which are difficult to remedy in a definitive manner. Typically, in these kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it difficult to determine with absolute precision the amount of fat to be removed and above all the amount not to be removed.
Lipovisor™ is a device that precisely scans and displays the quantity and distribution of fat deposits in the body.
It is a user-friendly and non-invasive device, which measures the distribution and quantity of fat deposits and tissue present in any part of the body and displays this information in highly precise images on a monitor.
The transmission of these particular energy signals highlight the quantity of the fat cells present under the skin without damaging any anatomical structure in a selected area.
Product Features
PAINLESSNESS: By using an ultrasensitive probe that simply comes into contact with the skin, information is sent to the computer and the layer of fat is then displayed on a monitor.
USE: It can be used in an outpatient or inpatient setting with a sterilized, single use probe.
It instantly READS the thickness of the fat tissue, which is then displayed in realistic, three-dimensional images.
EASY FOR THE DOCTOR TO USE: This device provides the doctor with the information of precise quantities of residual fat after the liposculpting procedure, which can then be removed with precision, therefore eliminating unattractive post-operative results.
COMPACT AND EASY TO HANDLE: Thanks to its small size, ergonomic handle and flexible cords, it is simple to use and easy to manoeuvre. There are two different sized probes for the removal of big and small fat deposits.
DOCUMENTED RESULTS: The results before and after the operation can be compared accurately.
NO SIDE EFFECTS: The device is a non-invasive solution that is even more effective in performing highly precise liposuction procedures.
Lipovisor™ is a unique medical device, developed and tested by a team of doctors and technicians, which highlights in
an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan which
visually highlights, with three-dimensional images, the amount of fat deposits present, before, during and after liposuction
and liposculpture procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic
treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue in the human
body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify
which part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in
order to reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause
major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person undergoing the
procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat, with obvious
discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would
produce permanent depressions in the skin, which are difficult to remedy in a definitive manner. Typically, in these kinds of
evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it difficult to determine
with absolute precision the amount of fat to be removed and above all the amount not to be removed.
Lipovisor™ is a unique system, developed and tested at the Lazzaro Spallanzani Private Medical Centre in Reggio Emilia,
which highlights in an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™
performs a scan which visually highlights, with three-dimensional images, the amount of fat before, during and after
liposuction and liposculpture procedures, by means of high-defi nition technologies. Indeed, we know that, in cosmetic or
therapeutic treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue
in the human body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in
order to identify which part should be removed. In similar operations it is actually essential to maintain a certain amount of
fat tissue in order to reshape the silhouette of the body; while, conversely, a defi ciency or an inadequate fat accumulation
could cause major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person
undergoing the procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat,
with obvious discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as
it would produce permanent depressions in the skin, which are diffi cult to remedy in a defi nitive manner. Typically, in these
kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it diffi cult to
determine with absolute precision the amount of fat to be removed and above all the amount not to be removed.
This document discusses the use of robots in surgery. It defines robots and describes different types of surgical robots including AESOP and da Vinci systems. The da Vinci system allows surgeons to perform minimally invasive procedures through small incisions using robotic arms with magnified 3D vision and improved dexterity. Robotic surgery is associated with benefits like shorter hospital stays and recovery times compared to open surgery, but also has disadvantages such as high costs and a steep learning curve.
The document discusses semi-invasive methods for fat reduction, including VASER and laser lipolysis. It provides background on social and medical trends driving demand for these procedures. VASER uses ultrasound energy to selectively fragment fat while sparing other tissues. Laser lipolysis uses laser energy to destroy fat cells via photothermal and photomechanical mechanisms. Both require tumescent anesthesia and suction but VASER is said to have greater tissue specificity and avoid disrupting fibrous tissue. Before and after photos show results from various doctors.
Robotics are used in various applications in biomedical science and healthcare. They can assist nurses by transporting supplies between wards. Medical robots help surgeons by enhancing dexterity and precision during surgical procedures. Robots are also used for rehabilitation through robotic prosthetics and orthotics. Future developments include more autonomous robot surgeons with haptic feedback and reliable remote surgical capabilities.
The document discusses the history and development of robotic surgery. It describes how the first robotic surgery device, the PUMA 560, was used in 1985 for brain biopsies. Later systems like PROBOT and ROBODOC were developed in the late 1980s and early 1990s. The da Vinci surgical system was approved by the FDA in 2000 and is now commonly used for procedures like prostatectomies and cardiac/gynecological surgeries. The da Vinci allows surgeons to operate remotely through small incisions while magnifying their hand movements. Robotic surgery provides benefits like shorter recovery times but drawbacks include the high costs of equipment and training. New innovations continue to advance the field.
We live in an age of a new unpreceded wonders. The wonders of the world are not seven any more. The inanimate talk to us. We are flying in the air. More than 65,000-Ton can float over the water in an iron vessel. The Robotic Doctor is already a reality. Reviewing the history of mankind's cumulative experience starting with the ancient very primitive trials and ending with the presence of Robotic and Telesurgery
Clearly show that the major and rapid advances in the whole mankind's life occur only in the last few decades especially the last 10 years ? .
This document discusses robotic surgery, providing details on its history, current systems, and advantages. Robotic surgery uses robots to assist surgeons by allowing them to view organs being operated on through cameras inserted into the body and manipulate surgical instruments remotely via a control panel. Three major robotic surgery systems are discussed - the da Vinci Surgical System, ZEUS Robotic Surgical System, and AESOP Robotic Surgical System. Robotic surgery provides benefits like enhanced views, smaller incisions, less scarring and blood loss, and faster recovery times for patients compared to open surgery. However, robotic surgery systems are still relatively expensive to purchase and implement.
*The surgeon sits at a computer station and directs the movements of a robot. Small surgical tools are attached to the robot's arms.
*The surgeon makes small cuts to insert the instruments into your body.
*A thin tube with a camera attached to the end of it (endoscope) allows the surgeon to view enlarged 3-D images of your body as the surgery is taking place.
*The robot matches the doctor's hand movements to perform the procedure using the tiny instruments.
NO PAIN, BRUISING OR SWELLING AND ABSOLUTELY NO DOWNTIME
▪ COMPLETELY SAFE AND COMPLICATION FREE
▪ EFFECTIVE AFTER JUST ONE SESSION; YOU WILL SEE THE DIFFERENCE!
▪ MEDICAL STUDIES SHOW A REDUCTION IN CHOLESTEROL AND IMPROVED LIPID PANELS AFTER TREATMENT
▪ MUCH LESS EXPENSIVE AND COMPLICATED THAN TRADITIONAL LIPOSUCTION
This document discusses the history and current state of robotic surgery for cardio-thoracic conditions. It begins with the first surgical robot used in Canada in 1983 and describes early robotic systems from 1985 onward. It then explains key parts of the current Da Vinci surgical system and compares traditional laparoscopic surgery. The document lists perceived myths about robotic surgery and advantages such as smaller incisions and faster recovery. Potential disadvantages include longer learning periods and costs. It details several types of heart surgeries now performed robotically and the role of nurses in robotic surgery education and assistance.
Robotics play an important role in the medical field. The use of robots in medicine began in the 1980s with laparoscopic surgery aided by robotic arms. Since then, robots have been used for prosthetic limbs, total hip replacements, and remote surgery through telepresence. Medical robots utilize sensors like tactile, touch, force and vision sensors and have degrees of freedom for precise positioning. Today, robots assist with surgery, rehabilitation, physiotherapy and disinfection. The global medical robotics market is expected to grow significantly in the coming years, improving patient care and potentially reducing healthcare costs.
FAT CAVITATION MACHINE TO LOSE WEIGHT AND CELLULITEMarthaWilliams1
"The use of focused ultrasound in cavitation system works using a multi-frequency approach that permits a careful, selective release of ultrasound waves combined, which induces the process of ""Cavitation"". The Slimlux V2™ is non-invasive and safe and works by targeting fat cells in the adipose tissue and effectively shakes the cell membrane till it ruptures.
"
This document discusses robotic surgery and the da Vinci surgical system. It describes how robotic surgery uses miniaturized instruments through small incisions instead of large incisions, reducing tissue trauma. The da Vinci system allows a surgeon to control robotic arms with magnified 3D imaging from a console. Some benefits of robotic surgery include smaller incisions, less blood loss, shorter hospital stays, and quicker returns to work for patients. While robotic surgery may improve outcomes, the increased expense of the technology needs to be justified by its benefits.
Computer-Assisted Robotic Surgery and TelesurgeryTy Lantz
This document provides an overview of computer-assisted robotic surgery and telesurgery. It describes the components of a robotic surgical system, including the surgeon's console, patient-side cart, and imaging equipment. The document outlines advantages such as improved dexterity and vision over traditional laparoscopic surgery. Disadvantages include high costs, long training times, and technical challenges. The first telesurgery is described where a French surgeon operated on a patient remotely from New York in 2001. Case studies demonstrate outcomes of robotic gallbladder removal procedures. Issues with telesurgery like malpractice and connectivity are discussed. The document concludes by exploring applications of robotic technology in medical education and future surgical innovations.
El Colegio Acción Comunal celebró una Asamblea General de Padres de Familia el 20 de enero de 2017. La asamblea incluyó una lista de 38 alumnos con su orden, nombre completo y firma del acudiente y número de celular.
Julian Walker-Palin - What motivates retailers to become more sustainable?Anthony Day
This document summarizes Julian Walker-Palin's experience and expertise in corporate sustainability. It outlines his leadership roles in sustainability at ASDA and Tesco over 17 years. In 2014, he started ETANTE to help businesses unlock competitive advantage and mitigate risks through sustainability. The document then discusses several trends impacting retailers, including new markets, product development needs, power shifts to producers, and new competitors. It also notes the business case for sustainability given factors like climate change impacts, resource constraints, and evolving consumer and community expectations. Overall, the document positions corporate sustainability strategy and expertise as increasingly important for business success.
La celebración del Día de San Valentín en Valverde del Camino incluirá una orquesta municipal recorriendo las calles, un discurso del alcalde sobre la festividad, la recitación de poemas de Gustavo Adolfo Bécquer, un concurso de besos para matrimonios mixtos, y un almuerzo con tartas y frutas en forma de corazón para celiacos y diabéticos.
Here are some ideas to help you strengthen your business relationships as a broker in the local area and within the property type of your specialization.
The applicant applied to register for the award of Chartered Scientist but was informed that they must first become a Member or Fellow of the Royal Society of Chemistry. Once admitted to membership, then the application to register as a Chartered Scientist can proceed. Contact details were provided for the qualifications officer who could assist further with the membership and registration processes.
Real-time embedded systems often use commercial off-the-shelf components like mass-produced peripherals and buses to reduce costs and improve performance, but these systems do not guarantee timely access and their performance can degrade with high-bandwidth I/O devices. The paper proposes a real-time I/O management system with real-time bridges that virtualize devices and a peripheral scheduler to prioritize tasks' access to shared devices in order to minimize timing unpredictability and ensure real-time deadlines are met. Experimental results demonstrate the system can successfully virtualize physical devices and prioritize I/O traffic.
La celebración del Día de San Valentín en Valverde del Camino incluirá una orquesta municipal recorriendo las calles por la mañana, un discurso del alcalde sobre la festividad, la recitación de poemas de Gustavo Adolfo Bécquer, y por la tarde un concurso de besos para matrimonios mixtos, seguido de un almuerzo con tartas y opciones sin gluten o azúcar para personas con dietas especiales.
Lipovisor™ è un apparato che consente di rilevare in maniera esatta la quantità e la distribuzione di un tessuto adiposo o di qualsiasi formazione lipidica presente nel corpo umano.
E’ un apparato di semplice ed immediato utilizzo non invasivo che consente misurazioni precise della distribuzione e della quantità del tessuto adiposo presente in una parte di un corpo umano, e che ne permette una visualizzazione sul monitor, con immagini di elevata precisione.
L’utilizzo esclusivo dell’energia del segnale trasmesso mette in evidenza in maniera selettiva la quantità delle cellule adipose presenti sotto la pelle senza danneggiare alcuna struttura anatomica.
Caratteristiche e modo d’uso
INDOLORE: grazie ad una sonda ultrasensibile che con un semplice contatto sulla pelle invia i valori al computer mettendo in evidenza lo strato adiposo.
UTILIZZO: ambulatoriale o in sala operatoria con sonde appropriate sterilizzate e monouso.
LEGGE istantaneamente ed esclusivamente le varie misurazioni di spessore del tessuto adiposo elaborate in immagini tridimensionali realistiche.
FACILE UTILIZZO PER IL MEDICO: questa tecnica consente di avere con precisione la quantità del grasso residuo dopo un intervento di liposcultura e quindi la rimozione ad alta precisione, eliminando esiti antiestetici post operatori.
COMPATTO E MANEGEVOLE: grazie alle dimensioni ridotte, alla impugnatura ergonomica e alla flessibilità dei cavi, consente un utilizzo semplice e di facile manovrabilità; sono previste due sonde di dimensioni diverse per grandi e piccole adiposità.
RISULTATI DOCUMENTATI: prima e dopo l’operazione con la possibilità di confronti precisi.
NESSUN EFFETTO COLLATERALE: L'apparecchiatura non è invasiva, e rappresenta la soluzione più efficace per una liposcultura ad alta precisione.
Global Business Strategies for the EntrepreneurMatthew Chan
This document provides an overview of Matthew Chan's background and recommendations for developing global business strategies. It outlines Matthew Chan's credentials and experience in real estate, publishing, and online businesses. It then discusses factors important for creating international relationships, including cultural, economic, and personal considerations. Finally, it recommends tools for participating in global markets and entrepreneurship, as well as suggested reading on related topics.
El documento presenta una serie de ejercicios matemáticos sobre números enteros para estudiantes de 7o grado. Los ejercicios incluyen: 1) identificar números enteros entre rangos dados, 2) hallar valores absolutos, 3) representar y ordenar números enteros en una línea numérica, 4) ordenar números de menor a mayor, 5) realizar operaciones básicas con números enteros, 6) resolver problemas matemáticos, 7) expresar números como potencias, y 8) resolver problemas contextualizados sobre temperaturas y años. El objetivo es que los estud
Taller 1.1 de conjuntos Elaborado por el profesor Alfredo Cortés.rojas4612
Este documento presenta un taller sobre conjuntos matemáticos para estudiantes de sexto grado. Incluye ejercicios para escribir conjuntos por extensión o comprensión, clasificar conjuntos en vacíos, unitarios, finitos e infinitos, y completar operaciones lógicas sobre conjuntos usando símbolos como ∈, ∉, ⊂ y ⊄. También presenta diagramas de Venn para resolver ejercicios sobre subconjuntos y complementos de conjuntos.
O documento resume o currículo e modo de trabalho de Zé Moreira, bem como casos em que atuou como planejador e gestor de conteúdo online para marcas como Bis, Arena Pernambuco e El Jimador. Ele desenvolveu estratégias de conteúdo e ações de marketing digital que aumentaram o engajamento das páginas e trouxeram reconhecimento em prêmios.
El documento presenta una serie de ejercicios matemáticos sobre números enteros para estudiantes de 7o grado. Los ejercicios incluyen: 1) identificar números enteros entre rangos dados, 2) hallar valores absolutos, 3) representar y ordenar números enteros en una línea numérica, 4) ordenar números de menor a mayor, 5) realizar operaciones básicas con números enteros, 6) resolver problemas matemáticos, 7) expresar números como potencias, y 8) resolver problemas contextualizados sobre temas como temperaturas y años de vida. El objet
We live in an age of a new unpreceded wonders. The wonders of the world are not seven any more. The inanimate talk to us. We are flying in the air. More than 65,000-Ton can float over the water in an iron vessel. The Robotic Doctor is already a reality. Reviewing the history of mankind's cumulative experience starting with the ancient very primitive trials and ending with the presence of Robotic and Telesurgery
Clearly show that the major and rapid advances in the whole mankind's life occur only in the last few decades especially the last 10 years ? .
This document discusses robotic surgery, providing details on its history, current systems, and advantages. Robotic surgery uses robots to assist surgeons by allowing them to view organs being operated on through cameras inserted into the body and manipulate surgical instruments remotely via a control panel. Three major robotic surgery systems are discussed - the da Vinci Surgical System, ZEUS Robotic Surgical System, and AESOP Robotic Surgical System. Robotic surgery provides benefits like enhanced views, smaller incisions, less scarring and blood loss, and faster recovery times for patients compared to open surgery. However, robotic surgery systems are still relatively expensive to purchase and implement.
*The surgeon sits at a computer station and directs the movements of a robot. Small surgical tools are attached to the robot's arms.
*The surgeon makes small cuts to insert the instruments into your body.
*A thin tube with a camera attached to the end of it (endoscope) allows the surgeon to view enlarged 3-D images of your body as the surgery is taking place.
*The robot matches the doctor's hand movements to perform the procedure using the tiny instruments.
NO PAIN, BRUISING OR SWELLING AND ABSOLUTELY NO DOWNTIME
▪ COMPLETELY SAFE AND COMPLICATION FREE
▪ EFFECTIVE AFTER JUST ONE SESSION; YOU WILL SEE THE DIFFERENCE!
▪ MEDICAL STUDIES SHOW A REDUCTION IN CHOLESTEROL AND IMPROVED LIPID PANELS AFTER TREATMENT
▪ MUCH LESS EXPENSIVE AND COMPLICATED THAN TRADITIONAL LIPOSUCTION
This document discusses the history and current state of robotic surgery for cardio-thoracic conditions. It begins with the first surgical robot used in Canada in 1983 and describes early robotic systems from 1985 onward. It then explains key parts of the current Da Vinci surgical system and compares traditional laparoscopic surgery. The document lists perceived myths about robotic surgery and advantages such as smaller incisions and faster recovery. Potential disadvantages include longer learning periods and costs. It details several types of heart surgeries now performed robotically and the role of nurses in robotic surgery education and assistance.
Robotics play an important role in the medical field. The use of robots in medicine began in the 1980s with laparoscopic surgery aided by robotic arms. Since then, robots have been used for prosthetic limbs, total hip replacements, and remote surgery through telepresence. Medical robots utilize sensors like tactile, touch, force and vision sensors and have degrees of freedom for precise positioning. Today, robots assist with surgery, rehabilitation, physiotherapy and disinfection. The global medical robotics market is expected to grow significantly in the coming years, improving patient care and potentially reducing healthcare costs.
FAT CAVITATION MACHINE TO LOSE WEIGHT AND CELLULITEMarthaWilliams1
"The use of focused ultrasound in cavitation system works using a multi-frequency approach that permits a careful, selective release of ultrasound waves combined, which induces the process of ""Cavitation"". The Slimlux V2™ is non-invasive and safe and works by targeting fat cells in the adipose tissue and effectively shakes the cell membrane till it ruptures.
"
This document discusses robotic surgery and the da Vinci surgical system. It describes how robotic surgery uses miniaturized instruments through small incisions instead of large incisions, reducing tissue trauma. The da Vinci system allows a surgeon to control robotic arms with magnified 3D imaging from a console. Some benefits of robotic surgery include smaller incisions, less blood loss, shorter hospital stays, and quicker returns to work for patients. While robotic surgery may improve outcomes, the increased expense of the technology needs to be justified by its benefits.
Computer-Assisted Robotic Surgery and TelesurgeryTy Lantz
This document provides an overview of computer-assisted robotic surgery and telesurgery. It describes the components of a robotic surgical system, including the surgeon's console, patient-side cart, and imaging equipment. The document outlines advantages such as improved dexterity and vision over traditional laparoscopic surgery. Disadvantages include high costs, long training times, and technical challenges. The first telesurgery is described where a French surgeon operated on a patient remotely from New York in 2001. Case studies demonstrate outcomes of robotic gallbladder removal procedures. Issues with telesurgery like malpractice and connectivity are discussed. The document concludes by exploring applications of robotic technology in medical education and future surgical innovations.
El Colegio Acción Comunal celebró una Asamblea General de Padres de Familia el 20 de enero de 2017. La asamblea incluyó una lista de 38 alumnos con su orden, nombre completo y firma del acudiente y número de celular.
Julian Walker-Palin - What motivates retailers to become more sustainable?Anthony Day
This document summarizes Julian Walker-Palin's experience and expertise in corporate sustainability. It outlines his leadership roles in sustainability at ASDA and Tesco over 17 years. In 2014, he started ETANTE to help businesses unlock competitive advantage and mitigate risks through sustainability. The document then discusses several trends impacting retailers, including new markets, product development needs, power shifts to producers, and new competitors. It also notes the business case for sustainability given factors like climate change impacts, resource constraints, and evolving consumer and community expectations. Overall, the document positions corporate sustainability strategy and expertise as increasingly important for business success.
La celebración del Día de San Valentín en Valverde del Camino incluirá una orquesta municipal recorriendo las calles, un discurso del alcalde sobre la festividad, la recitación de poemas de Gustavo Adolfo Bécquer, un concurso de besos para matrimonios mixtos, y un almuerzo con tartas y frutas en forma de corazón para celiacos y diabéticos.
Here are some ideas to help you strengthen your business relationships as a broker in the local area and within the property type of your specialization.
The applicant applied to register for the award of Chartered Scientist but was informed that they must first become a Member or Fellow of the Royal Society of Chemistry. Once admitted to membership, then the application to register as a Chartered Scientist can proceed. Contact details were provided for the qualifications officer who could assist further with the membership and registration processes.
Real-time embedded systems often use commercial off-the-shelf components like mass-produced peripherals and buses to reduce costs and improve performance, but these systems do not guarantee timely access and their performance can degrade with high-bandwidth I/O devices. The paper proposes a real-time I/O management system with real-time bridges that virtualize devices and a peripheral scheduler to prioritize tasks' access to shared devices in order to minimize timing unpredictability and ensure real-time deadlines are met. Experimental results demonstrate the system can successfully virtualize physical devices and prioritize I/O traffic.
La celebración del Día de San Valentín en Valverde del Camino incluirá una orquesta municipal recorriendo las calles por la mañana, un discurso del alcalde sobre la festividad, la recitación de poemas de Gustavo Adolfo Bécquer, y por la tarde un concurso de besos para matrimonios mixtos, seguido de un almuerzo con tartas y opciones sin gluten o azúcar para personas con dietas especiales.
Lipovisor™ è un apparato che consente di rilevare in maniera esatta la quantità e la distribuzione di un tessuto adiposo o di qualsiasi formazione lipidica presente nel corpo umano.
E’ un apparato di semplice ed immediato utilizzo non invasivo che consente misurazioni precise della distribuzione e della quantità del tessuto adiposo presente in una parte di un corpo umano, e che ne permette una visualizzazione sul monitor, con immagini di elevata precisione.
L’utilizzo esclusivo dell’energia del segnale trasmesso mette in evidenza in maniera selettiva la quantità delle cellule adipose presenti sotto la pelle senza danneggiare alcuna struttura anatomica.
Caratteristiche e modo d’uso
INDOLORE: grazie ad una sonda ultrasensibile che con un semplice contatto sulla pelle invia i valori al computer mettendo in evidenza lo strato adiposo.
UTILIZZO: ambulatoriale o in sala operatoria con sonde appropriate sterilizzate e monouso.
LEGGE istantaneamente ed esclusivamente le varie misurazioni di spessore del tessuto adiposo elaborate in immagini tridimensionali realistiche.
FACILE UTILIZZO PER IL MEDICO: questa tecnica consente di avere con precisione la quantità del grasso residuo dopo un intervento di liposcultura e quindi la rimozione ad alta precisione, eliminando esiti antiestetici post operatori.
COMPATTO E MANEGEVOLE: grazie alle dimensioni ridotte, alla impugnatura ergonomica e alla flessibilità dei cavi, consente un utilizzo semplice e di facile manovrabilità; sono previste due sonde di dimensioni diverse per grandi e piccole adiposità.
RISULTATI DOCUMENTATI: prima e dopo l’operazione con la possibilità di confronti precisi.
NESSUN EFFETTO COLLATERALE: L'apparecchiatura non è invasiva, e rappresenta la soluzione più efficace per una liposcultura ad alta precisione.
Global Business Strategies for the EntrepreneurMatthew Chan
This document provides an overview of Matthew Chan's background and recommendations for developing global business strategies. It outlines Matthew Chan's credentials and experience in real estate, publishing, and online businesses. It then discusses factors important for creating international relationships, including cultural, economic, and personal considerations. Finally, it recommends tools for participating in global markets and entrepreneurship, as well as suggested reading on related topics.
El documento presenta una serie de ejercicios matemáticos sobre números enteros para estudiantes de 7o grado. Los ejercicios incluyen: 1) identificar números enteros entre rangos dados, 2) hallar valores absolutos, 3) representar y ordenar números enteros en una línea numérica, 4) ordenar números de menor a mayor, 5) realizar operaciones básicas con números enteros, 6) resolver problemas matemáticos, 7) expresar números como potencias, y 8) resolver problemas contextualizados sobre temperaturas y años. El objetivo es que los estud
Taller 1.1 de conjuntos Elaborado por el profesor Alfredo Cortés.rojas4612
Este documento presenta un taller sobre conjuntos matemáticos para estudiantes de sexto grado. Incluye ejercicios para escribir conjuntos por extensión o comprensión, clasificar conjuntos en vacíos, unitarios, finitos e infinitos, y completar operaciones lógicas sobre conjuntos usando símbolos como ∈, ∉, ⊂ y ⊄. También presenta diagramas de Venn para resolver ejercicios sobre subconjuntos y complementos de conjuntos.
O documento resume o currículo e modo de trabalho de Zé Moreira, bem como casos em que atuou como planejador e gestor de conteúdo online para marcas como Bis, Arena Pernambuco e El Jimador. Ele desenvolveu estratégias de conteúdo e ações de marketing digital que aumentaram o engajamento das páginas e trouxeram reconhecimento em prêmios.
El documento presenta una serie de ejercicios matemáticos sobre números enteros para estudiantes de 7o grado. Los ejercicios incluyen: 1) identificar números enteros entre rangos dados, 2) hallar valores absolutos, 3) representar y ordenar números enteros en una línea numérica, 4) ordenar números de menor a mayor, 5) realizar operaciones básicas con números enteros, 6) resolver problemas matemáticos, 7) expresar números como potencias, y 8) resolver problemas contextualizados sobre temas como temperaturas y años de vida. El objet
"Ball Parade" - Laboratório de Publicidade | FreelancerPablo Siqueira
O documento descreve um evento chamado Ball Parade, que irá expor bolas decoradas por artistas e personalidades no Jockey Club do Rio de Janeiro durante a Copa do Mundo de 2014. O objetivo é aproximar as pessoas das marcas, jogadores e da arte através da exposição da visão única de cada participante na decoração de uma bola. O evento terá exposições, entretenimento e gastronomia e espera receber 300.000 visitantes durante os 32 dias.
El origen de la tradición de San Valentín se remonta al siglo III d.C. en Roma, cuando el sacerdote Valentín desafió la prohibición del emperador Claudio II de casar jóvenes y celebró matrimonios en secreto. Cuando el emperador se enteró, Valentín se negó a renunciar al cristianismo y fue encarcelado y ejecutado el 14 de febrero. Antes de morir, escribió una carta a la hija ciega de su carcelero, a quien había curado, iniciando la tra
Lipovisor™ is a device that precisely scans and displays the quantity and distribution of fat deposits in the body.
It is a user-friendly and non-invasive device, which measures the distribution and quantity of fat deposits and tissue present in any part of the body and displays this information in highly precise images on a monitor.
The transmission of these particular energy signals highlight the quantity of the fat cells present under the skin without damaging any anatomical structure in a selected area.
Product Features
PAINLESSNESS: By using an ultrasensitive probe that simply comes into contact with the skin, information is sent to the computer and the layer of fat is then displayed on a monitor.
USE: It can be used in an outpatient or inpatient setting with a sterilized, single use probe.
It instantly READS the thickness of the fat tissue, which is then displayed in realistic, three-dimensional images.
EASY FOR THE DOCTOR TO USE: This device provides the doctor with the information of precise quantities of residual fat after the liposculpting procedure, which can then be removed with precision, therefore eliminating unattractive post-operative results.
COMPACT AND EASY TO HANDLE: Thanks to its small size, ergonomic handle and flexible cords, it is simple to use and easy to manoeuvre. There are two different sized probes for the removal of big and small fat deposits.
DOCUMENTED RESULTS: The results before and after the operation can be compared accurately.
NO SIDE EFFECTS: The device is a non-invasive solution that is even more effective in performing highly precise liposuction procedures.
Lipovisor™ is a device that precisely scans and displays the quantity and distribution of fat deposits in the body.
It is a user-friendly and non-invasive device, which measures the distribution and quantity of fat deposits and tissue present in any part of the body and displays this information in highly precise images on a monitor.
The transmission of these particular energy signals highlight the quantity of the fat cells present under the skin without damaging any anatomical structure in a selected area.
Product Features
PAINLESSNESS: By using an ultrasensitive probe that simply comes into contact with the skin, information is sent to the computer and the layer of fat is then displayed on a monitor.
USE: It can be used in an outpatient or inpatient setting with a sterilized, single use probe.
It instantly READS the thickness of the fat tissue, which is then displayed in realistic, three-dimensional images.
EASY FOR THE DOCTOR TO USE: This device provides the doctor with the information of precise quantities of residual fat after the liposculpting procedure, which can then be removed with precision, therefore eliminating unattractive post-operative results.
COMPACT AND EASY TO HANDLE: Thanks to its small size, ergonomic handle and flexible cords, it is simple to use and easy to manoeuvre. There are two different sized probes for the removal of big and small fat deposits.
DOCUMENTED RESULTS: The results before and after the operation can be compared accurately.
NO SIDE EFFECTS: The device is a non-invasive solution that is even more effective in performing highly precise liposuction procedures.
Liposuction Treatments
Liposuction is a surgical procedure that aims to remove excess fat deposits from specific areas of the body to improve body contours and achieve a more proportionate shape. It is often performed on areas such as the abdomen, thighs, hips, buttocks, arms, back, and neck.
Vaser liposuction is a minimally invasive procedure that uses ultrasound energy to break up fat cells, which are then suctioned out through small incisions. It is more gentle than traditional liposuction and targets fat while protecting other tissues. The procedure involves infiltrating the area with a numbing solution, using probes to deliver ultrasound energy to loosen fat cells, and then aspirating the loosened fat. Potential benefits include treating large areas of fat, getting results in delicate areas, and achieving a toned appearance. Recovery is generally faster than traditional liposuction.
1.Adopt the leading-edge technology ultrasonic lipolysis
2.Color touch screen with clear treatment parameters, friendly operation
3.Digital frequency control system, energy output evenly,precisely and steady,make sure parameter can`t drifting
4.Suitable for all kinds of skins
5.5— 20 minutes per session treatment, no impact on your job or study
6. No pain, no cut, no scar, no any side-effect.
7. No rebound, long-lasting result
Best Liposuction in Dubai, Abu Dhabi & Sharjah is Best if you have been exercising and dieting with a goal of contouring the body but with no success? Sculpt your body with Liposuction.
Most surgeons and patients agree that minimally invasive surgery is preferable to open surgery, as it results in less post-operative pain, shorter hospital stays, and easier recovery. Both laparoscopic and robotic surgery are types of minimally invasive surgery. Laparoscopic surgery involves making several small incisions to insert small tools including a video camera, while robotic surgery uses a computer-controlled robot to manipulate instruments with greater precision via a 3D high-definition video feed. Robotic surgery allows for a greater range of motion than laparoscopic surgery and enables surgeons to access more difficult to reach areas. Both result in shorter recovery times compared to traditional open surgery.
"Best Liposuction in Dubai, Abu Dhabi & Sharjah is Best if you have been exercising and dieting with a goal of contouring the body but with no success? Sculpt your body with Liposuction."
Laser liposuction utilizes lasers to condense the fat before it is taken out, making it more straightforward to vacuum out through liposuction. Lasers may likewise animate the development of collagen and elastin, which results in firmer, more tight, and smoother skin.
Commercial information - Anti Aging Center in franchising AntiAgingCenter
This document provides information about franchising an Anti Aging Center concept from Promoitalia. Key details include:
- The Anti Aging Center offers non-invasive aesthetic and wellness treatments using cutting-edge technologies to provide customized programs.
- Franchise requirements include a 170,000 euro entrance fee, using only Promoitalia products, and having a location between 100-250 square meters.
- As a franchisee, you would receive initial and ongoing training, marketing materials, technical support, and access to Promoitalia's brand and experience in the field.
This document provides information about liposuction surgery. It discusses the history and development of liposuction, how it works to remove fat cells through small incisions using suction cannulas, and some of the key innovations in liposuction techniques like using tumescent solution to numb areas and reduce bleeding. It also outlines the surgical procedure, expected recovery, and areas of the body that can be treated with liposuction. The document aims to inform readers about what liposuction is and how it is performed.
The LipoLaser is a non-invasive laser treatment that reduces fat in targeted areas without surgery. It uses laser energy to stimulate fat cells to release their contents through temporary pores, after which the body metabolizes and eliminates the fat naturally. Treatments take 30-40 minutes and provide immediate yet gradual fat reduction and body contouring without pain, surgery, or downtime. Clinical studies show LipoLaser can reduce fat layers by up to 30% with one treatment and multiple treatments further improve results.
Tumescent Liposuction is a new method of liposuction which is less painful and also results in less bleeding. This procedure is performed by Dr. Jayashree Venkataram.
Laser Liposuction is the latest, highly effective alternative to surgical liposuction. More and more people are opting for Laser Liposuction in Dubai. more info: http://www.laserskincare.ae/treatments/laser-liposuction-in-dubai/
Robotic surgery uses robotic systems to aid surgeons during surgical procedures. It was developed to overcome limitations of minimally invasive surgery and enhance open surgery capabilities. Some key systems discussed are da Vinci, ZEUS, and AESOP. Robotic surgery provides advantages like enhanced precision, decreased fatigue and pain, and telemedicine capabilities. However, disadvantages include safety risks if errors occur in the robot and high costs. Further research is still needed to evaluate robotic surgery's efficacy, safety, and cost-effectiveness.
Surgical Fat Reduction (liposuction). Part II.pptxOsama Moawad
The document discusses various liposuction techniques:
- Syringe-assisted liposuction uses syringes of varying sizes to remove fat, with larger syringes removing deep fat and smaller ones sculpting superficial fat precisely.
- Machine-assisted liposuction uses suction machines to remove fat through cannulas of varying sizes.
- Liposculpture removes superficial fat precisely while liposuction removes deep fat. Liposculpture is used to improve skin irregularities and contours.
- High definition liposculpture precisely sculpts muscles to optimize body shape in already fit patients. Fat grafting is used to enhance convex muscles and liposuction concave areas between muscles.
Surgical Fat Reduction (liposuction). Part II.pptxOsama Moawad
Liposuction is the most performed cosmetic surgery in the world. Furthermore, it has become an essential complementary technique to enhance the aesthetic result of many other procedures, such as cervicoplasty, reduction or augmentation mammoplasty, abdominoplasty, brachioplasty, thigh lift, and postbariatric body contouring. Amenable to Liposuction are the face, neck, breast, arms, abdomen, mons pubis, back, hips, buttocks, thighs, knees, calves, and ankles. The genetic determination of lipodystrophy (a localized abnormality of body fat distribution) means it is diet and exercise-resistant. It results from adipose cell hypertrophy rather than hyperplasia. Its correction mandates surgical interventions. Surgical fat reduction or Liposuction corrects deep and superficial fat accumulations and, thus, remodels the face, neck, breast, and body contour deformities. It should be carried out in the lamellar layer if one desires long-term results.
Lipovisor™ è un apparato che consente di rilevare in maniera esatta la quantità e la distribuzione di un tessuto adiposo o di qualsiasi formazione lipidica presente nel corpo umano.
E’ un apparato di semplice ed immediato utilizzo non invasivo che consente misurazioni precise della distribuzione e della quantità del tessuto adiposo presente in una parte di un corpo umano, e che ne permette una visualizzazione sul monitor, con immagini di elevata precisione.
L’utilizzo esclusivo dell’energia del segnale trasmesso mette in evidenza in maniera selettiva la quantità delle cellule adipose presenti sotto la pelle senza danneggiare alcuna struttura anatomica.
Caratteristiche e modo d’uso
INDOLORE: grazie ad una sonda ultrasensibile che con un semplice contatto sulla pelle invia i valori al computer mettendo in evidenza lo strato adiposo.
UTILIZZO: ambulatoriale o in sala operatoria con sonde appropriate sterilizzate e monouso.
LEGGE istantaneamente ed esclusivamente le varie misurazioni di spessore del tessuto adiposo elaborate in immagini tridimensionali realistiche.
FACILE UTILIZZO PER IL MEDICO: questa tecnica consente di avere con precisione la quantità del grasso residuo dopo un intervento di liposcultura e quindi la rimozione ad alta precisione, eliminando esiti antiestetici post operatori.
COMPATTO E MANEGEVOLE: grazie alle dimensioni ridotte, alla impugnatura ergonomica e alla flessibilità dei cavi, consente un utilizzo semplice e di facile manovrabilità; sono previste due sonde di dimensioni diverse per grandi e piccole adiposità.
RISULTATI DOCUMENTATI: prima e dopo l’operazione con la possibilità di confronti precisi.
NESSUN EFFETTO COLLATERALE: L'apparecchiatura non è invasiva, e rappresenta la soluzione più efficace per una liposcultura ad alta precisione.
Lipovisor™ est un appareil qui permet de relever de manière exacte la quantité et la répartition du tissu adipeux ou de toute formation lipidique présente dans le corps humain, et ce de manière relativement précise.
C’est un appareil non invasif à usage simple et immédiat qui permet des mesurages relativement précis de la répartition et de la quantité du tissu adipeux présent dans une partie du corps humain et qui donne une visualisation de grande précision d’images sur écran.
L’utilisation exclusive de l’énergie du signal transmis met en évidence, de manière sélective, la quantité des cellules adipeuses sous-cutanées présentes, et ce sans endommager aucune structure anatomique.
Caractéristiques et mode d’emploi
INDOLORE: grâce à une sonde ultrasensible qui, par simple contact cutané, envoie les valeurs à l’ordinateur en mettant en évidence la couche adipeuse.
UTILISATION: en ambulatoire ou en salle d’opération avec sonde appropriée stérilisée et à usage unique.
LIT instantanément et exclusivement les différentes mesures d'épaisseur du tissu adipeux élaborées en images tridimensionnelles réalistes.
UTILISATION AISEE POUR LE MEDECIN: cette technique permet d'obtenir avec précision la quantité de graisse résiduelle après une intervention de liposculpture et donc l’enlèvement à haute précision, en éliminant les effets inesthétiques postopératoires.
COMPACT ET MANIABLE: les dimensions réduites, la poignée ergonomique et la flexibilité des câbles permettent une utilisation simple et une maniabilité facile ; deux sondes de dimensions différentes sont prévues pour les grandes et petites adiposités.
RESULTATS DOCUMENTES: avant et après l’opération avec la possibilité de comparaisons précises.
AUCUN EFFET COLLATERAL: L’appareil est non invasif, et représente la solution la plus efficace pour une liposculpture à haute définition.
Lipovisor™ es un aparato que permite detectar de modo exacto la cantidad y la distribución de un tejido adiposo o de cualquier formación lipídica presente en el cuerpo humano de manera relativamente precisa.
Es un aparato no invasivo de empleo simple e inmediato que permite realizar mediciones relativamente precisas de la distribución y de la cantidad del tejido adiposo presente en una parte de un cuerpo humano y que permite su visualización en el monitor, con imágenes de elevada precisión.
El uso exclusivo de la energía de la señal transmitida pone en evidencia, de modo selectivo, la cantidad de células adiposas presentes debajo de la piel sin dañar ninguna estructura anatómica.
Características y modo de uso
INDOLORO: gracias a una sonda ultrasensible que con un simple contacto con la piel envía los valores al ordenador evidenciando la capa de tejido adiposo.
USO: ambulatorio o en quirófano con sondas apropiadas esterilizadas y desechables.
LEE instantánea y exclusivamente las diferentes mediciones de grosor del tejido adiposo procesadas en imágenes tridimensionales realistas.
FÁCIL EMPLEO POR EL MÉDICO: esta técnica permite tener con precisión la cantidad de grasa residual después de una operación de lipoescultura y, por lo tanto, la extracción a alta precisión, eliminando efectos antiestéticos post-operatorios.
COMPACTO Y MALEABLE: gracias a las dimensiones reducidas, a la empuñadura ergonómica y a la flexibilidad de los cables, permite un uso simple y de fácil maniobrabilidad; dispone de dos sondas de tamaños diferentes para grandes y pequeñas adiposidades.
RESULTADOS DOCUMENTADOS: antes y después de la operación con la posibilidad de cotejos precisos.
NINGÚN EFECTO COLATERAL: El aparato no es invasivo y representa la solución más eficaz para una lipoescultura de alta precisión.
Das Gerät Lipovisor™ dient zur exakten Ermittlung der Menge und Verteilung von Fettgewebe bzw. Lipidformationen im menschlichen Körper mit einer äußerst präzisen Methode.
Es ermöglicht eine einfache, schnelle und nichtinvasive Verwendung und führt relativ genaue Messungen der Verteilung und Menge von Fettgewebe in einem bestimmten Körperteil durch. Die Ergebnisse können mit hochpräzisen Abbildungen auf einem Monitor angezeigt werden.
Da ausschließlich die Energie des ausgestrahlten Signals verwendet wird, kann die Anzahl der Fettzellen unter der Haut auf selektive Weise ermittelt werden, ohne dass dabei irgendeine Körperstruktur beschädigt wird.
Eigenschaften und Verwendungsweise
SCHMERZFREI: dank einer hochempfindlichen Sonde, die die Werte bei einfachem Hautkontakt an den Computer sendet und dabei die Fettschicht ermittelt.
ANWENDUNG: ambulant oder im Operationssaal mit entsprechenden sterilisierten Einwegsonden.
FÜHRT umgehend und gezielt die verschiedenen Dickemessungen des Fettgewebes durch und verarbeitet sie zu realistischen, dreidimensionalen Abbildungen.
EINFACHE VERWENDUNG FÜR DEN ARZT: Diese Technik ermöglicht die genaue Feststellung der verbleibenden Fettmenge nach einer Liposkulptur und damit ihre präzise Entfernung. Auf diese Weise können unästhetische, postoperative Folgen ausgeschlossen werden.
KOMPAKT UND HANDLICH: Dank der kleinen Abmessungen, des ergonomischen Griffs und der flexiblen Kabel ist das Gerät einfach und bequem zu handhaben; es verfügt über zwei Sonden unterschiedlicher Größe für große und kleine Fettdepots.
AUFZEICHNUNG DER ERGEBNISSE: Auf diese Weise ist ein präziser Vergleich vor und nach der Operation möglich.
KEINE NEBENWIRKUNGEN: Das Gerät ist nicht invasiv und bildet eine der wirksamsten Lösungen für die hochpräzise Liposkulptur dar.
O documento descreve o LipovisorTM, um dispositivo médico que permite escanear e visualizar com precisão a distribuição e quantidade de tecido adiposo no corpo humano. Isso permite que cirurgiões plásticos realizem procedimentos como lipoaspiração e lipofilling com alta definição, removendo ou infiltrando a gordura de forma precisa.
O documento descreve o LipovisorTM, um dispositivo médico que permite medir com precisão a quantidade e distribuição de tecido adiposo no corpo humano através de imagens tridimensionais, auxiliando cirurgiões em procedimentos como lipoaspiração e lipoenxertia.
O documento descreve o LipovisorTM, um dispositivo médico que permite medir com precisão a quantidade e distribuição de tecido adiposo no corpo humano através de imagens tridimensionais, auxiliando cirurgiões em procedimentos como lipoaspiração e lipoenxertia. O dispositivo é indolor, de fácil uso e fornece resultados documentados para uma alta precisão nas cirurgias.
Lipovisor™ è un apparato unico, sviluppato e testato presso il Centro Medico Privato “Lazzaro Spallanzani” di Reggio
Emilia, che mette in evidenza in maniera immediata e realistica lo stato del tessuto adiposo del corpo umano. Lipovisor™
effettua una scansione che permette di evidenziare visivamente, con immagini tridimensionali, la quantità di lipidi prima,
durante e dopo l’operazione di liposuzione e liposcultura, con utilizzo di tecnologie ad alta definizione E’ noto infatti che,
in trattamenti cosmetici o terapeutici quali la liposcultura, il lipodrenaggio e trattamenti similari di riduzione e/o
modellamento del tessuto adiposo nel corpo umano, il tecnico specializzato ha la necessità di conoscere nella maniera più
esatta possibile la quantità e la distribuzione di tale tessuto per definire quale parte asportare. Infatti, in simili operazioni
è indispensabile mantenere, comunque, una determinata quantità di tessuto adiposo per poter rimodellare la silhouette
del corpo, mentre, al contrario, una carenza o un inadeguato accumulo di grasso sfuggito all’operatore causerebbe
notevoli ondulazioni della pelle con gravi inestetismi sgradevoli per la persona. In quest’ultimo caso si renderebbe
necessario procedere ad un secondo intervento di rimozione dell’eccesso adiposo, con evidenti disagi per il paziente.
Anche un’asportazione eccessiva di tessuto adiposo procurerebbe notevoli disagi, in quanto si causerebbero avvallamenti
permanenti nella pelle difficili da compensare in maniera definitiva. Tipicamente, in questo genere di valutazioni il tecnico,
o chirurgo, si affida esclusivamente alla propria sensibilità manuale, risultando quindi evidenti le difficoltà di determinare
con assoluta precisione la quantità di grasso da asportare e soprattutto quella da non asportare.
O documento descreve o dispositivo médico LipovisorTM, que permite escanear e visualizar a distribuição e quantidade de tecido adiposo no corpo humano. Isso permite procedimentos como lipoaspiração e lipofilling serem realizados com alta precisão, melhorando os resultados e reduzindo a necessidade de cirurgias adicionais. O dispositivo é indolor, fácil de usar e fornece imagens tridimensionais em tempo real para guiar os procedimentos.
Lipovisor™ è un apparato unico, sviluppato e testato presso il Centro Medico Privato “Lazzaro Spallanzani” di Reggio
Emilia, che mette in evidenza in maniera immediata e realistica lo stato del tessuto adiposo del corpo umano. Lipovisor™
effettua una scansione che permette di evidenziare visivamente, con immagini tridimensionali, la quantità di lipidi prima,
durante e dopo l’operazione di liposuzione e liposcultura, con utilizzo di tecnologie ad alta definizione E’ noto infatti che,
in trattamenti cosmetici o terapeutici quali la liposcultura, il lipodrenaggio e trattamenti similari di riduzione e/o
modellamento del tessuto adiposo nel corpo umano, il tecnico specializzato ha la necessità di conoscere nella maniera più
esatta possibile la quantità e la distribuzione di tale tessuto per definire quale parte asportare. Infatti, in simili operazioni
è indispensabile mantenere, comunque, una determinata quantità di tessuto adiposo per poter rimodellare la silhouette
del corpo, mentre, al contrario, una carenza o un inadeguato accumulo di grasso sfuggito all’operatore causerebbe
notevoli ondulazioni della pelle con gravi inestetismi sgradevoli per la persona. In quest’ultimo caso si renderebbe
necessario procedere ad un secondo intervento di rimozione dell’eccesso adiposo, con evidenti disagi per il paziente.
Anche un’asportazione eccessiva di tessuto adiposo procurerebbe notevoli disagi, in quanto si causerebbero avvallamenti
permanenti nella pelle difficili da compensare in maniera definitiva. Tipicamente, in questo genere di valutazioni il tecnico,
o chirurgo, si affida esclusivamente alla propria sensibilità manuale, risultando quindi evidenti le difficoltà di determinare
con assoluta precisione la quantità di grasso da asportare e soprattutto quella da non asportare.
6
8 Surprising Reasons To Meditate 40 Minutes A Day That Can Change Your Life.pptxHolistified Wellness
We’re talking about Vedic Meditation, a form of meditation that has been around for at least 5,000 years. Back then, the people who lived in the Indus Valley, now known as India and Pakistan, practised meditation as a fundamental part of daily life. This knowledge that has given us yoga and Ayurveda, was known as Veda, hence the name Vedic. And though there are some written records, the practice has been passed down verbally from generation to generation.
The skin is the largest organ and its health plays a vital role among the other sense organs. The skin concerns like acne breakout, psoriasis, or anything similar along the lines, finding a qualified and experienced dermatologist becomes paramount.
5-hydroxytryptamine or 5-HT or Serotonin is a neurotransmitter that serves a range of roles in the human body. It is sometimes referred to as the happy chemical since it promotes overall well-being and happiness.
It is mostly found in the brain, intestines, and blood platelets.
5-HT is utilised to transport messages between nerve cells, is known to be involved in smooth muscle contraction, and adds to overall well-being and pleasure, among other benefits. 5-HT regulates the body's sleep-wake cycles and internal clock by acting as a precursor to melatonin.
It is hypothesised to regulate hunger, emotions, motor, cognitive, and autonomic processes.
Adhd Medication Shortage Uk - trinexpharmacy.comreignlana06
The UK is currently facing a Adhd Medication Shortage Uk, which has left many patients and their families grappling with uncertainty and frustration. ADHD, or Attention Deficit Hyperactivity Disorder, is a chronic condition that requires consistent medication to manage effectively. This shortage has highlighted the critical role these medications play in the daily lives of those affected by ADHD. Contact : +1 (747) 209 – 3649 E-mail : sales@trinexpharmacy.com
Cell Therapy Expansion and Challenges in Autoimmune DiseaseHealth Advances
There is increasing confidence that cell therapies will soon play a role in the treatment of autoimmune disorders, but the extent of this impact remains to be seen. Early readouts on autologous CAR-Ts in lupus are encouraging, but manufacturing and cost limitations are likely to restrict access to highly refractory patients. Allogeneic CAR-Ts have the potential to broaden access to earlier lines of treatment due to their inherent cost benefits, however they will need to demonstrate comparable or improved efficacy to established modalities.
In addition to infrastructure and capacity constraints, CAR-Ts face a very different risk-benefit dynamic in autoimmune compared to oncology, highlighting the need for tolerable therapies with low adverse event risk. CAR-NK and Treg-based therapies are also being developed in certain autoimmune disorders and may demonstrate favorable safety profiles. Several novel non-cell therapies such as bispecific antibodies, nanobodies, and RNAi drugs, may also offer future alternative competitive solutions with variable value propositions.
Widespread adoption of cell therapies will not only require strong efficacy and safety data, but also adapted pricing and access strategies. At oncology-based price points, CAR-Ts are unlikely to achieve broad market access in autoimmune disorders, with eligible patient populations that are potentially orders of magnitude greater than the number of currently addressable cancer patients. Developers have made strides towards reducing cell therapy COGS while improving manufacturing efficiency, but payors will inevitably restrict access until more sustainable pricing is achieved.
Despite these headwinds, industry leaders and investors remain confident that cell therapies are poised to address significant unmet need in patients suffering from autoimmune disorders. However, the extent of this impact on the treatment landscape remains to be seen, as the industry rapidly approaches an inflection point.
DECLARATION OF HELSINKI - History and principlesanaghabharat01
This SlideShare presentation provides a comprehensive overview of the Declaration of Helsinki, a foundational document outlining ethical guidelines for conducting medical research involving human subjects.
Does Over-Masturbation Contribute to Chronic Prostatitis.pptxwalterHu5
In some case, your chronic prostatitis may be related to over-masturbation. Generally, natural medicine Diuretic and Anti-inflammatory Pill can help mee get a cure.
These lecture slides, by Dr Sidra Arshad, offer a simplified look into the mechanisms involved in the regulation of respiration:
Learning objectives:
1. Describe the organisation of respiratory center
2. Describe the nervous control of inspiration and respiratory rhythm
3. Describe the functions of the dorsal and respiratory groups of neurons
4. Describe the influences of the Pneumotaxic and Apneustic centers
5. Explain the role of Hering-Breur inflation reflex in regulation of inspiration
6. Explain the role of central chemoreceptors in regulation of respiration
7. Explain the role of peripheral chemoreceptors in regulation of respiration
8. Explain the regulation of respiration during exercise
9. Integrate the respiratory regulatory mechanisms
10. Describe the Cheyne-Stokes breathing
Study Resources:
1. Chapter 42, Guyton and Hall Textbook of Medical Physiology, 14th edition
2. Chapter 36, Ganong’s Review of Medical Physiology, 26th edition
3. Chapter 13, Human Physiology by Lauralee Sherwood, 9th edition
10 Benefits an EPCR Software should Bring to EMS Organizations Traumasoft LLC
The benefits of an ePCR solution should extend to the whole EMS organization, not just certain groups of people or certain departments. It should provide more than just a form for entering and a database for storing information. It should also include a workflow of how information is communicated, used and stored across the entire organization.
5. Legenda della Simbologia Utilizzata
SIMBOLI
PERICOLO DI MORTE, PRESTARE LA MASSIMA ATTENZIONE
PERICOLO DI SCARICA ELETTRICA, PRESTARE LA MASSIMA ATTENZIONE
PERICOLO, PRESTARE ATTENZIONE ALLE PRESCRIZIONI RIPORTATE
NECESSARIA LA DOTAZIONE DI UN DEFIBRILLATORE
NECESSARIA LA DOTAZIONE DI UN PACEMAKER ESTERNO
azioni o eventi periodici
da inserire tra pag.2 e pag. 3,
LETHAL HAZARD. BE CAREFUL
ELECTRICAL HAZARD. BE CAREFUL
CAUTION! FOLLOW THE INSTRUCTIONS
EQUIPMENT REQUIRED: A DEFIBRILLATOR
EQUIPMENT REQUIRED: EXTERNAL PACEMAKER
PERIODIC ACTIONS OR EVENTS
Key to symbols
4
6. Introduction
The instructions for use of the Lipovisor™ are provided so that the user is in possession of all the information necessary
for the safe use of the device and all its accessories; for any queries regarding the use of the instrument, safety issues, or
about this or any other Lipovisor™ documents, you can always contact the Lipovisor™ dealer in your area or visit our
website www.lipovisor.com.
The information provided in this manual refers exclusively to the device to which it is attached.
It is advisable to follow carefully all instructions in the documentation supplied with the Lipovisor™ device. Failure to
understand or follow the instructions may cause:
- death or injury to the patient
- wounding of the operator
- wounding of a third party
- damage to the device or the instrumentation
This document contains useful and specific instructions for the safe and effective use of the Lipovisor™ device
Please keep the operating instructions together with the device.
The use of the Lipovisor™ medical device is dependent on a complete knowledge and awareness of the contents
of this manual; nevertheless, this manual may be PERIODICALLY UPDATED WITHOUT NOTICE. As a result it is the re-
sponsibility of the user to verify any updates of the user manual PRIOR TO USE, by logging on to the following website
http://www.lipovisor.com/last-issue
5
7. What is Lipovisor™
Lipovisor™ is a unique medical device, developed and tested by a team of doctors and technicians, which highlights in
an immediate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan which
visually highlights, with three-dimensional images, the amount of fat deposits present, before, during and after liposuction
and liposculpture procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic
treatments such as liposculpture, lipodrainage and similar treatments for reducing and/or shaping fat tissue in the human
body, the technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify
which part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in
order to reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause
major undulations of the skin resulting in severe imperfections, which would be unpleasant for the person undergoing the
procedure. In the latter case it would be necessary to proceed to a second operation to remove excess fat, with obvious
discomfort for the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would
produce permanent depressions in the skin, which are difficult to remedy in a definitive manner.Typically, in these kinds of
evaluations, the technician or surgeon will rely solely on their own manual perception, which makes it difficult to determine
with absolute precision the amount of fat to be removed and above all the amount not to be removed.
6
8. What is Lipovisor™
The Lipovisor™ can overcome these drawbacks, making the detection of fat tissue in the human body accurate and reli-
able, allowing you to carry out computerized, high precision liposuction or liposculpture (HDL - High-Definition Liposuction).
Computerized high-definition liposuction
Lipovisor™ is a device that makes it possible to determine exactly the amount and distribution of fat tissue or any fat
formation in the human body.The device is non-invasive, and its use is simple and immediate. It allows the precise measure-
ment of the distribution and amount of fat tissue
present in a given part of the human body, with
high-precision images shown on the monitor.
The exclusive use of the energy signals transmit-
ted selectively highlights the quantity of fat cells
present under the skin without damaging any
anatomical structure.
7
9. Characteristics and directions for use
NON-INVASIVE: thanks to a non-invasive probe, when the 3L 3D-HD Lipovisor™ sensor comes into contact with the
skin it takes measurements, showing the surgeon the colour variations in real time, depending on the adipose tissue layer
present in the patients’ fat on a HD monitor.
USES: outpatient setting, in the operating room or post-operatively, using appropriate probes and sterilized covers. It
instantly and exclusively reads the various measurements of the thickness of fat tissue, which are then displayed as realistic
three-dimensional images.
EASE OF USE FOR THE DOCTOR: the completely intuitive, simplified icon-based interface featuring software created
with guided paths, as well as acoustic and visual signals that are immediately intuitive, allowing precious time to be saved,
and avoiding misinterpretations during the surgical operation.
DOCUMENTED RESULTS: before, during, and post-operation, with the option of precise comparisons.
NO SIDE EFFECTS: the device is non-invasive, and is the most effective solution for a high-precision liposculpture
procedure (HDL – High- Definition Liposuction).
ELECTRONIC MEDICAL RECORDS: at the end of the post-operative appointment, ask your surgeon to give you the
medical records processed by Lipovisor™ on a USB stick or a CD. It will contain all the three-dimensional scans performed
on the patient.
8
10. Benefits and application of Lipovisor™
The main advantage of Lipovisor™ is that it can perform a real-time scan
of the adipose layer (fat).
The Lipovisor™ is extremely easy to use, and allows you to visualize with
great precision, on the incorporated colour monitor, the thickness of the layer
of fat, type of fat present and the precise location of the fat to be removed.
In other words with the Lipovisor™ you can perfectly control the layer of
fat tissue that is being removed before, during and after the liposuction or
liposculpture procedure, allowing the surgeon to perform the procedure with
much more precision and to carry out HDL (High-Definition Liposuction).
The Lipovisor™ can be used successfully by plastic and cosmetic surgeons
to perform all liposuction and liposculpture procedures to a high level of
accuracy.
Indeed, liposuction should not be used just for the removal of fat, but to re-
shape the body according to the different directions and planes.
9
11. Benefits and application of Lipovisor™
This is very important if you consider that the fat cells, once removed, will not form again. It is fundamental to perform a
thorough pre-operative examination of each patient.The distribution of excess fat tissue will change depending on whether
the patient is in a standing or lying position.This is when the surgeon’s abilities and observation skills become a determin-
ing factor during the operation.
In similar operations it is actually essential to maintain a certain amount of fat tissue in order to reshape the silhouette
of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause major undulations of the skin
resulting in severe and unpleasant imperfections.
In the latter case it would be necessary to proceed to a second operation to remove excess fat, which is undesirable for both
the surgeon and the patient. The removal of excessive fat tissue would also cause considerable inconvenience, as it would
produce permanent depressions in the skin which are difficult to remedy in a definitive manner.
Typically, in these kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which
makes it difficult to determine with absolute precision the amount of fat to be removed and above all the amount not to
be removed.
10
12. Benefits and application of Lipovisor™
The purpose of computerized high-definition liposculpture (HDL - High-definition liposuction) is to avoid the
above-mentioned drawbacks, by detecting the fat tissue before, during and after surgery.
The Lipovisor™ makes it possible to determine exactly the amount and distribution of fat tissue or any fat formation in
the human body.
Computerized high-definition liposculpting with the use of Lipovisor™ is simple and immediate. It allows accurate mea-
surement of the distribution of the amount of the tissue present in a given part of the body, as it provides a graphical
representation of the fat tissue that is as close to reality as possible.
11
13. What is Lipovisor™
Lipofiling
Lipovisor™ is a unique system, developed and tested by a team of doctors and technicians, which highlights in an imme-
diate and realistic manner the condition of the fat tissue of the human body. Lipovisor™ performs a scan, which visually
highlights, with three-dimensional images, the amount of fat tissue before, during and after liposuction and liposculpture
procedures, by means of high-definition technologies. Indeed, we know that, in cosmetic or therapeutic treatments such as
liposculpture, lipodrainage, lipofilling and similar treatments for reducing and/or shaping fat tissue in the human body, the
technician needs to know as accurately as possible the amount and distribution of such tissue, in order to identify which
part should be removed. In similar operations it is actually essential to maintain a certain amount of fat tissue in order to
reshape the silhouette of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause major un-
dulations of the skin resulting in severe and unpleasant imperfections. In the latter case it would be necessary to proceed to
a second operation to remove excess fat, with obvious discomfort for the patient.The removal of excessive fat tissue would
also cause considerable inconvenience, as it would produce permanent depressions in the skin which are difficult to remedy
in a definitive manner.Typically, in these kinds of evaluations, the technician or surgeon will rely solely on their own manual
perception, which makes it difficult to determine with absolute precision the amount of fat to be transferred to the patient.
12
14. Computerized high-definition lipofilling
Lipovisor™ is a device that can be used to determine exactly the amount and distribution of any fat
tissue or fat formation in the human body.The device is non-invasive, and its use is simple and immediate.
It allows the precise measurement of the distribution and amount of fat tissue present in a given part
of the human body, with high-precision images
shown on the monitor.
The exclusive use of the energy signals transmitted
selectively highlights the amount of fat cells
present under the skin without damaging any
anatomical structure.
What is Lipovisor™
Lipofiling
With Lipovisor™ it is possible to overcome these drawbacks, making the detection of fat tissue in the human body accu-
rate and reliable, allowing you to carry out computerized, high-precision lipofilling or liposculpture (HDL - High-definition
liposuction).
13
15. Characteristics and directions for use
PAINLESS: thanks to an ultra-sensitive probe that simply comes into contact with the skin and sends the values to the
computer, thereby highlighting the fat layer.
USE: Can be used in an outpatient setting or in the operating room, with sterilized, disposable probes. It instantly and
exclusively reads the various measurements of the thickness of fat tissue, which are then displayed as realistic three-di-
mensional images.
EASY TO USE FOR THE DOCTOR: This technique allows you to accurately read the amount of fat to be transferred during
the lipofilling procedure, eliminating unsightly postoperative outcomes.
COMPACT AND EASY TO HANDLE: thanks to its small size, ergonomic handle and flexible cables, it is simple to use and
easy to manoeuvre.There are two different sized probes for large and small fat deposits.
DOCUMENTED RESULTS: before and after the operation, the results can be compared accurately.
NO SIDE EFFECTS: the device is non-invasive, and is the most effective solution for a high-precision liposculpture
procedure.
14
16. Benefits and application of Lipovisor™
The main advantage of Lipovisor™ is that it can perform a real-time scan
of the adipose layer (fat).
The Lipovisor™ is extremely easy to use, and allows you to visualize with
great precision, on your own colour monitor, the thickness of the layer of
fat, the type of fat present and the precise location of the fat to be removed
during the lipofilling procedure.
In other words with Lipovisor™ you can control perfectly the layer of fat tis-
sue that is being transferred before, during and after the lipofilling procedure,
allowing the surgeon to perform the procedure with much more precision
and to carry out HDL lipofilling (High-definition liposuction).
The Lipovisor™ can be used successfully by plastic and cosmetic surgeons
to perform all lipofilling, liposuction and liposculpture procedures to a high
level of accuracy.
Indeed, liposuction should not be used just for the removal of fat, but to re-
shape the body according to the different directions and planes.
15
17. Benefits and application of Lipovisor™
This is very important if you consider that the fat cells, once removed, will not form again. It is fundamental to perform a
thorough pre-operative exam of each patient. The distribution of excess fat tissue will change depending on whether the
patient is in a standing or lying position. This is when the surgeon’s abilities and observation skills become a determining
factor during the operation.
In similar operations it is actually essential to maintain a certain amount of fat tissue in order to reshape the silhouette
of the body; while, conversely, a deficiency or an inadequate fat accumulation could cause major undulations of the skin
resulting in severe and unpleasant imperfections.
In the latter case it would be necessary to proceed to a second operation to remove excess fat or transfer it, which is
undesirable for both the surgeon and the patient. The addition of excessive fat tissue would also cause considerable in-
convenience, as it would produce permanent depressions in the skin which are difficult to remedy in a definitive manner.
Typically, in these kinds of evaluations, the technician or surgeon will rely solely on their own manual perception, which
makes it difficult to determine with absolute precision the amount of fat to be transferred to the patient.
16
18. Benefits and application of Lipovisor™
The purpose of computerized high-definition liposculpture (HDL - High-definition liposuction) is to overcome the
above-mentioned drawbacks, by detecting the fat tissue before, during and after surgery.
The Lipovisor™ makes it possible to determine exactly the amount and distribution of fat tissue or any fat formation in
the human body.
Computerized high-definition lipofilling with the use of Lipovisor™ is simple and immediate. It allows the distribution
and quantity of the fat tissue to be transferred to a given part of the body to be measured accurately, and then provides a
graphical representation, accompanied by images, of the fat tissue that is as close to reality as possible.
17
19. Benefits of Lipofilling and application of Lipovisor™
There are numerous known advantages in using lipofilling compared to the use of other materials for increasing and
re-shaping body volumes:
• Body re-shaping: a single intervention combines liposuction and an increase in volume.
• More natural than implants or artificial fillers
• Minor invasiveness: the only incisions necessary are those used to introduce the suction and re-injection tubes.
• No rejection: the fat is autologous, i.e. it comes from the same patient.
• Less re-absorption over time compared to artificial fillers (hyaluronic acid)
A system for processing fat tissue to obtain regenerative cells and stem cells is feasible in the sterile environment of the
operating room and during the procedure itself in a day-hospital. Fat removed from the patient is then enriched with stem
cells extracted from the fat.
Several studies have confirmed that the higher concentration of regenerative stem cells aids in fat tissue grafting.
Reduced volume, asymmetry and tube-shaped breasts are the classic reasons for using this technique associated with
Lipovisor™.
18
20. Benefits of Lipofilling and application of Lipovisor™
Breast augmentation using regenerative cells derived from fat tissue involves the removal of the fat tissue on a medium to
large scale depending on the case. So there are in fact two combined procedures, and generally, liposuction involves the hip,
abdomen, trochanter, thigh and knee areas.The patient, then, will benefit from a re-shaping of both the breast and body.
With Lipovisor™, once the fat has been removed, it is treated to remove excess fluid and loaded into 1cc syringes, then
injected bilaterally using very fine needles, above and below the mammary gland.
This process can be repeated until the desired correction has been achieved. In this way the dual effect is a reduction of
excess fat in certain areas, and an increase in the volume of the breast at the same time.
There will be no scarring to the breast as the needles used do not leave any marks.
The fat tissue is a potential reserve supply of adult stem cells similar to those derived from bone marrow. However, fat tissue
has several advantages over bone marrow.
19
21.
22. Introduction to Lipovisor™
Lipovisor™ is fully motorized; the monitor is opened by placing the hands on the sides of the Lipovisor™ device.
In the operating room the plastic surgeon uses the appropriate buttons on the handle of the sensor to move the monitor
around the patient as necessary, in order to carry out the procedure.
Using the motorized Lipovisor™ the surgeon can position the medical device monitor so that it is best visible to him,
without the need for another operator.
The technologies used in the Lipovisor™ are the most advanced, and are the result of over 10 years of study. Indeed, in
order to help the operator and reduce the time spent in the clinic and in the operating room, we have created a completely
intuitive medical device.The selection sequence is guided step by step; at every section only the permitted function is seen
as active.
The Lipovisor™ is the superb result of tests carried out by a team of doctors and technicians.
21
24. Lipovisor™ Clinic
Installed in the operating room, Lipovisor™ is an innovative device, the result of over 10 years of studies, tests and trials
carried out by a team of doctors and technicians.
In the operating room, the fixed Lipovisor™ is integrated with the operating room lighting system.The motorised mecha-
nisms and the sensors allow the operator to safely move the arm of the Lipovisor™ monitor into the best visible position
for the operator, in order to perform surgery on the patient.
The infrared lights on the arm of the fixed Lipovisor™ automatically identify the area on the patient where the work is
taking place. With this innovative solution, the surgeon, using the appropriate left and right buttons on the handle of the
area scanning sensor, moves the lighting arm, and the Lipovisor™ monitor is automatically placed in the best visible
position for the surgeon.The monitor, unlike the one installed on the surgeon’s personal Lipovisor™, measures 16-9 and
32 inches.
The fixed in-clinic Lipovisor™ is equipped with a touch-screen console which controls all operating functions.
23
25. Button - an actionable area of the screen (typically a marked icon so as to appear “clickable” or “actionable” by the user
in some way).
Symbol - a pictogram that recalls a concept or a specific object.
Clickable symbol - a symbol that can be “enabled” by the video. It actually acts as a button, the difference being in that it
is rarely used in the common workflow. For example to go to the edit page of the surgeon data or if you are in the ‘women
patients’ section and you want to remove the filter “women” to return to the patients register.
Pdf, Portable Document Format - the portable document format, commonly known as PDF, is a file format suitable for
representing documents in a manner independent of the hardware and software used to generate or view them. To view
and print PDF documents, a suitable programme, such as Adobe Reader installed on your computer, must be used.
Transponder - an electronic device that contains data and information.The data transmission technology used can be either
RFID or NFC.
Home page - a screen of the Lipovisor™ that is shown after the user authentication procedures (fingerprint and pass-
word).The home page in the Lipovisor Master is the patient register while in Lipovisor Surgery it is the “transponder page”.
Wi-Fi or Wi-Fi network - indicates a technology and related devices that allow the Lipovisor™ (and other devices that
use such technology) to connect to the corporate network, which in turn can be connected to the Internet.With the system’s
Wi-Fi, Lipovisor™ can use the services provided by the in-house internal network as well as the Internet.
Terminology
24
26. Key to symbols and buttons
POWER OFF
To turn off the Lipovisor or go back to the home page as required
START LIPOVISOR
To start up the device
SAVE
To save the current data and return to the previous level
REGISTER
Personal data input - name, surname, social security number, patient’s contact details, date and place of birth, address,
weight, height and gender.
Any other email communications.
25
27. BLUE INDICATOR
The area of the display at the centre of video screen, which shows different information relating to the context of use,
such as a 3D model of the patient, area to be scanned, free measurement and surgery measurement.
GREEN INDICATOR
like the blue indicator, the colour green indicates a positive situation
RED INDICATOR
like the blue indicator, the colour red indicates a negative situation or a situation requiring attention
CIRCULAR INDICATOR
fat thickness indicator using coloured sectors and a central number
Key to symbols and buttons
26
28. GREEN FINGERPRINT
icon indicating that the fingerprint scan has been successful
RED FINGERPRINT
icon indicating that the fingerprint scan has not been successful
PARTIAL BODY 3L
3D image of the patient, with detail of the area to be scanned.
Key to symbols and buttons
27
29. PARTIAL BODY SELECT
3D image of the patient, with detail of the area that has been scanned, which shows different colour shades identifying
different thicknesses of fat.
PARTIAL BODY 3L
3D image of the patient with a zoom function that can capture the whole length of the patient,
down to the specific area to be scanned.
WI-FI
A screen for the Wi-Fi connection, e.g. when choosing Wi-Fi, entering the password or when the system communicates
messages about the connection.
Key to symbols and buttons
28
30. NFC, NEAR FIELD COMMUNICATION
this indicates the data transfer to and from the NFC transponder
3L
button to activate lipo-scanning of the patient
PATIENTS REGISTER
button to access the patient register, where you can select which patient to operate on.
3S BUTTON
enables 3S scanning of the patient.
Key to symbols and buttons
29
31. NEW BUTTON
to enter details of a new patient
MAN ICON
tells the Lipovisor display to show only the male patients.This is the first step in finding the patient on which the surgeon
will operate.
WOMAN ICON
indicates that patients selected are filtered by female gender in the patient register; this is displayed when the Lipovisor is
in the register mode of an individual patient
It can be used to activate the “free measurement” function
FREE MEASUREMENT
can be used to activate the “free measurement” function
Key to symbols and buttons
3L
m
3L
m
m
m
30
32. PRINT
this button can be pressed to produce the document corresponding to the current operation.
Although a printer is shown on the button, there is no printer connected to the Lipovisor and the document is produced in
the form of a PDF document that is sent via email or transferred by the transponder.
CONFIRM
this button can be used to confirm the current operation. When the Confirm butt is pressed, the Lipovisor continues with
the current operation.
ACCEPT
this button can be pressed when the Lipovisor communicates an informational message to the user, and the surgeon press-
es the button to notify the Lipovisor that he has read and accepted the message
SELECT
this button can be pressed when there are several choices (for example the list of areas to be operated on), and the surgeon
has selected the one on which he intends to operate; he then presses the select button to continue.
Key to symbols and buttons
m
3L
m
m
31
33. TRANSFER
this button can be pressed to activate the data transfer function to the transponder. In general, this button activates a
subsequent screen in which you are asked to move the transponder near to the
Lipovisor, where the transponder reader is located.
TRY AGAIN GREEN
this button can be pressed to repeat the last operation, or in any case the current operation. Green indicates that the
operation has been successful, and although there are no errors in the workflow that prevent the current sequence from
being executed, the surgeon may repeat it if he so wishes. For example, this button can be pressed after the surgeon has
performed a 3D scan which was successful
but he intends to repeat it with better or different lighting conditions.
TRY AGAIN RED
this button can be pressed to repeat the last operation or the current operation. Red indicates that there is one or more
errors in the workflow that do not allow the current sequence to continue being executed; the operation has not been
successful and it is necessary for the surgeon to repeat it. For example:The surgeon has performed a lipo-scan but for
some reason it is not successful.The surgeon has entered an incorrect password and the operation must be repeated.
Key to symbols and buttons
32
34. SCANNER START POINTER
on the 3D model of the patient, this indicates the point at which the surgeon positions the Lipovisor sensor and begins
lipo-scanning.
CONTROL BALL
a ball-type button, which can be dragged in order to rotate the model or models that are displayed. The surgeon operates
the control ball by sliding his finger on it in different directions.
SURGERY ICON
this indicates that we are operating in surgery mode. In some special conditions this may be pressed to return to the pre-
vious level.
“SURGEON” ICON/BUTTON
indicates that the operation displayed relates to the surgeon; for example, surgeon’s data are being entered or one of the
surgeon’s parameters are being configured.
Key to symbols and buttons
3L
m
33
35.
36. It is well known that liposuction, the re-shaping of a patient’s body, is an extremely complex surgical procedure due to the
absence of references on how much fat tissue is to be removed from the patient.
With the Lipovisor™ we give the plastic surgeon an extremely precise tool for checking the thickness of the fat tissue.
This innovative technique for measuring fat tissue prevents the plastic surgeon from creating dips, depressions and unsight-
ly blemishes that are visible only after surgery.
The aim of computerized high-definition liposculpture (HDL - High-definition liposuction) has the sole objective of safe-
guarding the surgeon’s work and giving patients the best that cosmetic surgery technology can offer.
Indeed, the functions of the Lipovisor™ include a series of printing sequences of documents for each process of acquisi-
tion of the areas and for all meetings with the patient.
The purpose of printing documents is merely to safeguard the surgeon, and for this reason, at the end of every stage, the
Lipovisor™ processes a PDF form to be attached to the patient’s medical records.
Safeguarding the plastic surgeon
35
37.
38. Surgery
It is well known that liposuction, the re-shaping of a patient’s body, is an extremely complex surgical procedure due to the
absence of references on how much fat tissue is to be removed from the patient.
With the Lipovisor™ we give the plastic surgeon an extremely precise tool for checking the thickness of the fat tissue.
This innovative technique for measuring fat tissue prevents the plastic surgeon from creating dips, depressions and unsight-
ly blemishes that are visible only after surgery.
Computerized high-definition liposculpture (HDL - High-definition liposuction) has the sole objective of safeguarding the
surgeon’s work and giving patients the best that cosmetic surgery technology can offer.
Note: At the end of the procedure in the operating room, with the transfer folder of the patient, the surgeon presses the
Print button to activate the built-in Lipovisor™ Wi.fi and send an email to the email client of the surgeon, and the clinic.
Note: After the email has been sent to the patient’s email client either the clinic or the doctor can print the attachment
from the folder, which shows all the data relating to the visit to the clinic, the pre-operation appointment and the surgery
itself. The document contains sensitive data relating to the patient, the privacy form, the surgeon’s data, patient demo-
graphics, and the list of pathologies.
Note: The printed PDF is marked Lipovisor™ with a machine code provided by the manufacturer when the licence is
activated.
Safeguarding the clinic
37
39. WI-FI connection
When powered on and after the surgeon has been identified, the device will display all available Wi-Fi networks. The sur-
geon chooses a network and enters the password.
After connecting to the Wi-Fi, the password is stored and will not be requested again in the future.
• Choose one of the active networks
• Type in your password in the box
Note: Each time the Lipovisor™ is switched
on, all active Wi-Fi networks are displayed. The
device will use the network that is present in
the database.
38
40. After selecting the Wi-fi connection, enter the Wi-Fi access key.
Entering the Wi-Fi key
Enter the Hospital
Network Wi-Fi password
39
41. Lipovisor™ is equipped with an integrated Wi-Fi system.
This indicates a technology and related devices that allow the Lipovisor™ (and other devices using this technology) to
connect to the corporate network, which in turn can be connected to the Internet.
With the system’s Wi-Fi connection, this can use the services provided by the company’s internal network as well as the
Internet.
Description ot the WI-FI
40
43. Remote support for Lipovisor™
For any problems you may experience with Lipovisor™, we have set up a Call Centre which is at your disposal 24 hours
a day to resolve any faults that the Lipovisor™ medical device may encounter. Thanks to the innovative technologies
installed in the Lipovisor™, we can remotely perform a complete check of the medical device and sensors.
In case of failure, the operator should contact the Call Centre and provide the serial number of the medical device. Our
technician remotely checks the Lipovisor™ technical page for any problems, and provides the surgeon with the support
necessary to resolve the issue. There is also a phone number in international format (e.g. 0039 0971 650474) to enable
communication in case the freephone number cannot be reached by the telephone server.The technician may ask for addi-
tional information in order to provide full assistance.
800 090 383
Toll-free call
42
45. Lipovisor™ assistance check
The Lipovisor™ is equipped with an integrated complete checking system.
With this innovative system we offer our customers an excellent service. Our medical equipment is timed. At the end of
the period set by the manufacturer, the Lipovisor™ requires the operator to connect the medical device to an Ethernet
connection to ensure continued operation.
The manufacturer can check the device and inform the customer of any anomalies in the functioning of the Lipovisor™.
44
49. Description of Lipovisor™
1 Power on / off button
2 Socket 220V
3 Ethernet socket
4 USB Transponder socket
5 Blue flashing LED
12
5
34
48
50. Sequences for switching on the Lipovisor™
• Plug the power cord into the 220V, 230V or 110V power connector, depending on the country of use.
• Turn on the Lipovisor™ with the Lipovisor™ Power On/Off button 1, then wait a few seconds.
• Place hands on both sides of the medical device for 30-40 seconds.
• The Lipovisor™ monitor will open automatically.
• The LED light in the Lipovisor™ logo indicates the opening of the motorized monitor.
49
51. 5 Lipovisor illuminated logo to the left
6 Lipovisor illuminated logo to the right
7 17’’ HD Monitor
8 Motorisation
Description of Lipovisor™
5
7
6
8
50
52. Description of the Lipovisor™
9 Motorized connector
J Capacitive glass keyboard
9
J
51
53. Description of the Lipovisor™
With the fingerprint reader, the surgeon has access to the patients’ folder. When entering his data in the Lipovisor™
medical device, the surgeon is required to enter his fingerprints.
K
L
K Inserting the electrical connector
L Fingerprint reader
52
54. With the opening of the engine monitor Lipovisor™ automatically opens the connector cable port where to insert the
female connector on the detector adipose tissues.
The plastic surgeon with this sequence can begin to use the medical equipment.
Note: All connectors are Fischer, CE Certified to ISO13485 – for medical use.
The coupling of the connectors is labelled with a red dot that identifies the correct position to insert the connector. Incorrect
insertion may result in breakage of contacts.
Sensor cable male connnector
Operating sequences of the Lipovisor™
M Female connector on the machine
N Male connector on the sensor cable
O Motorized slot on the machine
M N
O
53
55. Description of Lipovisor™ sensor
P 90° Sensor
Q 45° Sensor
R Sensor on/off button
S Motorization command key, right side
T Button command engine, left side
P
R
R
Q
S T
S T
54
56. The Lipovisor™ is equipped with two sensors which are automatically recognized by the medical device depending on
the selected area to be suctioned during surgery.
90° sensor.The 90° sensor is used for the following areas of surgery:
Upper abdomen, lower abdomen, lower back, neck, right arm, left arm, right ankle, left ankle, right outer thigh, left outer
thigh, right saddle bag, left saddle bag, right hip, left hip, back of right knee, back of left knee, right calf, left calf, right inner
thigh, left inner thigh, inner right knee, inner left knee, breast and other areas identified by the surgeon.
45° sensor.The 90° sensor is used for the following areas of surgery:
upper right breast, upper left breast, neck, inner right arm and inner left arm.
Note: The sensor can be enabled at any time.
Note: The sensor carries out an automatic check when it is initialized by holding the sensor start button down. After the
beep the sensor will be enabled.
Note: During the surgical procedure involving lipofilling of fat into the breasts, the surgeon can make use of both of the
sensors supplied with the Lipovisor™ without any limitation to the predefined area.
Using the Lipovisor™ sensor
55
57. Sterile covers on LipovisorTM
• Place the appropriate sterile covers on Lipovisor™ monitors
17’’ Monitor 17‘’ Monitor sterile cover
Base of Lipovisor ™ Sterile cover for Lipovisor™ base
56
58. • Place the appropriate sterile covers on the monitor of the Lipovisor™
Sterile covers for the LipovisorTM
sensor
90° sensor 45° sensor Lipovisor™ Sensor Connector
57
59. The Lipovisor™ can be shut down in the following operating situations:
• Configuration error
• Password or fingerprint error
• Register menu
• Lipovisor™ Master Home page
• Lipovisor™ Clinic Home page
SHUTDOWN SEQUENCE
• Press the shutdown button on the Lipovisor monitor.
• Wait for the software to shut down.
• Place both hands on the sides of the device for 30-40 seconds.
Lipovisor™ shutdown
58
60. Lipovisor™ shutdown
1 Power on/off button
2 Blue flashing light
• At the end of the automatic shutdown of the monitor, pull out the power cord.
Important notice: the lid of the Lipovisor™ must not be forced: please wait for it to close automatically.
1
2
59
61. • Plug the power cord into the appropriate slot on the Lipovisor™.
• The left and right buttons activate the motor to rotate the Lipovisor™.
• Press the start button on the sensor and hold down for a few seconds.
• Wait for the sound signalling that the sensor has been initialised.
• The sensor automatically carries out a check.
Note: At each outpatient session for pre-surgery, surgery and post-surgery, the sensor check activates when the sensor
connector is connected to the Lipovisor™ and the initialization button is pressed.
The purpose of the sensor check is to ascertain that the sensor itself is operating properly, and that the correct sensor is
being used for the part which will be operated on.
The system also determines certain parameters associated with the skin and fat of the patient, which are briefly identified as
High-Resolution mode, Medium-Resolution mode and Low-Resolution mode.
In the event of a malfunction of the sensor, the Error 01 message is displayed and the surgeon can either press the button
Please try again, which allows him to perform a further check of the sensor, or the SOS mode button, which allows him
to use the other sensor in place of the faulty one.
Installing Lipovisor™
sensor in outpatient Pre-Surgery,
Surgery and Post-Surgery
60
62. 1 90° sensor
2 45° sensor
3 Sensor ON/OFF button
4 Motorization command key, right side
5 Motorization command key, left side
Note: When scanning the breast during the preoperative consultation, the surgeon can use all available sensors supplied
with the Lipovisor™ with no limitation on the predefined area.
Description of Lipovisor™
Sensor
1
2
34 5
34 5
61
63. The sensor check is carried out in each session in which it is necessary to perform Lipo measurement.
At each outpatient pre-surgery, surgery and post-surgery consultation, the sensor is checked when the connector is linked up
to the Lipovisor and the initialization button is pressed.
The purpose of the sensor check is to ascertain
that the sensor itself is operating properly, and
that the correct sensor is being used for the part
which will be operated on.
The system also determines certain parameters
associated with the skin and fat of the patient,
defined briefly as high-resolution mode, me-
dium-resolution mode and low-resolution
mode.
In the event of a malfunction of the sensor, the
Error 01 message is displayed and the surgeon
can either press the button Please try again,
which allows him to perform a further check of
the sensor, or the SOS mode button, which al-
lows him to use the other sensor in place of the
faulty one.
If the problem persists, call the Lipovisor™
technical service.
Lipovisor™ asks the surgeon to move the
sensor near to the fat tissue.
Check SOS mode - Bring the sensor in contact with the skin
62
64. Check SOS mode - Do not move the sensor
Lipovisor™ asks the surgeon not to move the sensor during calibration.
63
65. Lipovisor™ can use the High-Resolution parameter.
Check SOS mode - High resolution
64
66. Lipovisor™ can use the Medium-Resolution parameter.
Check SOS mode - Medium resolution
65
67. Lipovisor™ can use the Low-Resolution parameter.
Check SOS mode - Low Resolution
66
69. Description of Lipovisor™ sing the 3D body scanner
1 Power On/Off
2 3D scanner capture camera
3 Marker supplied
3
1
2 2
2
2
68
70. The Lipovisor™ features a 3D body scanner, which can be operated as follows:
• Turn on the 3D body scanner.
• Press the capture button on the 3D scanner.
• Scan the patient with the 3D scanner.
• Upon completion of the capture, press the button on the Lipovisor™. Capture from 3D Body Scanner.
• After about 30 seconds the patient 3D image will be displayed on the Lipovisor monitor.
• Press the Save Data button on the Lipovisor™ monitor to confirm.
• Remove capture from the Lipovisor™.
Note: During the pre-op, the plastic surgeon will draw on the patient the areas to be aspirated or remodelled in the oper-
ating room, using the special marker supplied with the Lipovisor™.
Important. Draw only the outer contour of the area on the patient with the special marker supplied with the Lipovisor™.
All marks other than the outer contour of the area should be shown using a different marker.
Using the 3D Boby scanner
69
71.
72. The licence is pre-installed by the manufacturer using the data provided when the purchase contract for the Lipovisor™
medical device was signed.
• The surgeon places his hands on the sides of the Lipovisor™.
• Wait until you see the flashing blue lights on the cover of the Lipovisor™.
• Remove hands from the Lipovisor™.
• Wait for the motorized opening of the Lipovisor™ monitor.
• Wait for the software to load.
• Fill in the license activation form.
Installing the Lipovisor™ licence
71
73. When the device is switched on, the software is loaded and the boot screen appears (i.e. the Lipovisor™ logo), operated
in “pulse” mode, that graphically displays the progress of the start-up process.The pulse animation ends when the start-up
process is complete. During start-up the Lipovisor™ performs the main system auto-tests, and when these are completed,
it is ready to work.
If the system experiences a fault that potentially
prevents operations from continuing, this will be
indicated by the device, and in some situations,
will prevent the equipment from operating, mak-
ing it necessary to contact the customer service
centre (see Customer Service page).
In general, when the Lipovisor™ has success-
fully completed the start-up sequence, i.e. the
error reporting step, it will be able to operate
properly and continuously.
Lipovisor™ Power On / Boot Screen
72
74. After the system start-up, the surgeon can perform the initial configuration, completing the fingerprint procedure and
entering the password and personal data. After completing this procedure, the Lipovisor™ will be ready for use by the
registered surgeon. The first configuration is performed only once at the first start-up, immediately after the purchase of
Lipovisor™. After the system has been configured, it will no longer be necessary to enter the surgeon’s data when the
device starts up; the system will be ready to operate straight away.
The first Lipovisor™ configuration consists of three steps:
• Entering fingerprint
• Entering password
• Entering personal data
When the surgeon has correctly completed all three of these steps, the Lipovisor™ will be ready to operate. If even one of
these three operations is halted or generates an error, the Lipovisor™ will remain in “first configuration” mode, meaning
that it will not save any of the data entered, and the first configuration will need to be repeated at the next start-up.
Note. The Lipovisor™ will not work if the first configuration is not carried out correctly. In case of any problems, contact
the manufacturer or the customer service centre.
Note. The surgeon is required to enter the data relating to him correctly. If any of the information is incorrect, you will need
to contact the manufacturer and/or the customer service centre.
First configuration (initialization)
73
75. On the first configuration, the surgeon is required to acquire his fingerprint for future identification and authorisation of
access to his patients’ personal details.
The system requests the surgeon to place his thumb on the sensor (the right thumb is the the surgeon is right-handed or
the left thumb if he is left-handed).
The surgeon places his thumb on the sensor
and the system takes an initial capture of the
fingerprint, immediately followed by a second
for comparison. If the two captures, carried out
in rapid succession, prove to be a match, the
fingerprint is stored in the Lipovisor™ and
will be used to grant access to the system.
Where the fingerprint capture is not successful
(no match) the error message fingerprint set-
ting error will be displayed, and the operation
must be repeated.
First configuration /Entering the surgeon's fingerprint
74
76. The Fingerprint Error page is shown when, on the first configuration of the Lipovisor™, the fingerprint has not been
captured correctly.
The capture of the fingerprint may fail due to any of the following reasons:
• The user moves his finger during the capture.
• The finger is not in contact with the sensor
surface.
• The user is wearing gloves during the capture
• The sensor surface is not perfectly clean.
• There is an object on the sensor that is
positioned in between the sensor and the finger
(e.g. a layer of plastic, albeit transparent, or a sheet
of paper).
When the fingerprint capture fails and the Fin-
gerprint Error page is displayed, the user has
two possible choices:
• Turn off the device
• Contact the customer service centre (espe-
cially if the problem persists).
Fingerprint error
75
77. On the first configuration, after the surgeon’s fingerprint has been successfully captured, the surgeon is required to enter
a password.
The password must have certain strength characteristics, which the Lipovisor™ itself will indicate as the password is
typed in.
For example, a strong password must:
• contain both upper and lower case letters
• contain digits
• contain signs of punctuation
• not contain commonly used words
• contain at least 8 characters
Note that, for security reasons, only dots or as-
terisks appear instead of the characters while
the password is being entered. Great care must
be taken when entering the password.
First configuration / Entering the surgeon's password
76
79. If the password is entered incorrectly on 5 failed attempts, the Lipovisor™ displays the password setting error mes-
sage and prompts the user to contact the Lipovisor™ customer service centre.
Password error
78
80. Entering the surgeon's details
A ‘surgeon’ icon is displayed in the bottom right-hand corner of the screen to indicate that the entry of surgeon’s details
is in progress.
Another icon will be displayed to indicate when patient’s details are being entered.
The personal information entered by the sur-
geon must match the information given when
the Lipovisor™ was purchased. Please note
that the Lipovisor™ is configured to take into
account the specificities of the country of use as
well as those of the surgeon operating the de-
vice, which means that the Lipovisor™ must
be used exclusively by the buyer.
By way of an example, just think of the possibil-
ity that the surgeon can be left or right-handed,
or the different voltage rating depending on the
country in which the device is used.
Compliance with these requirements is
mandatory.
NAME SURNAME
TAXPAYER'S CODE
WEIGHT
ADDRESS
BUSINESS ADDRESS
E-MAIL LANDLINE PHONE NUMBER
MOBILE PHONE NUMBER
EIGHT GENDER
DATE OF BIRTH PLACE OF BIRTH
79
82. The system is ready to use - there is no need to log in again.The Home Page will be displayed.
Activating the system
81
83. Daily use of the Lipovisor™
Each time the Lipovisor™ is switched on after the first configuration, the user’s fingerprint and password will be requested.
Fingerprint recognition
When the fingerprint request is displayed, the
surgeon shall place his finger on the appropri-
ate sensor. The fingerprint is compared with
the print set on the first configuration, and if
the two fingerprints match, the surgeon will be
prompted to enter his password.
In the event that the surgeon’s fingerprint does
not match the one set on the first configuration,
contact the manufacturer and/or the customer
service centre.
82
84. After the fingerprint has successfully been recognised, the surgeon is required to enter his password.Asterisks are displayed
when the password is typed in, to prevent anyone who may be nearby from reading it.
If the password is entered incorrectly, an error message will be displayed and the system allows the user to try again up to a
limit of 10 failed logging attempts, after which
the system must be switched off.
Note: If the surgeon forgets his password,
contact the manufacturer and/or the customer
service centre.
Password request
83
85. When the surgeon has been properly identified by his fingerprint and correct password, the system will be ready for use.
OK - Access to system allowed
84
86. Password and fingerprint not verified
The fingerprint error message is displayed whenever there is an error in the capture of the fingerprint. If you enter a
password that does not match that entered, the password error page is displayed.
If you enter an incorrect password, you can
press the try again button and type in the
password again.
After 5 consecutive errors the only option will
be to press the power button to turn off the
system.
85
87. Lipovisor™ Master Home page
In Lipovisor™ Master the Lipovisor™ Home Page appears after completion of the authentication process by the
surgeon (fingerprint and password).
On the Master Home Page the surgeon can perform a series of operations:
• turn off the Lipovisor™ by pressing the
power button;
• carry out a Free Measurement by pressing
the appropriate button;
• Access the Surgery mode by pressing the
Surgery button.
• Access the patients register by pressing the
Patients Register button.
The buttons can be activated by dragging them
onto the large symbol that corresponds
to the initial letter of the word “activation” in
almost every language in the world (activation
in English and French, etc.), as well as being
the logo of the Lipovisor™ manufacturer.
The process of dragging, rather than simply
pressing the button, prevents accidental ac-
tivation, and is a guarantee that the surgeon
wishes to willingly carry out the operation.
86
88. The Patients Register page can be accessed from the Lipovisor™ Master Home Page, by pressing the appropriate button.
The Patient Register page allows the following operations:
• Return to the Home Page using the Home button marked with the letter
• Add a new patient (new button)
• Search for a female patient (woman button)
• Search for a male patient (man button)
Adding a new patient
The surgeon
• accesses the page after pressing the New
button from the Patient Register page and
• enters all the data of the patient concerned
and presses the Print button.
Patient register
87
89. Access the page after pressing the New button from the Patient Register page.
Enter all of the following patient data:
• name
• surname
• address
• tax code
• postcode/ZIP code
• city
• country
• landline phone number
• mobile phone number
• email address
Adding a new patient
NAME SURNAME
TAXPAYER'S CODE
WEIGHT
ADDRESS
BUSINESS ADDRESS
E-MAIL LANDLINE PHONE NUMBER
MOBILE PHONE NUMBER
EIGHT GENDER
DATE OF BIRTH PLACE OF BIRTH
88
90. After entering the patient’s personal details, the clinical data can be entered. Lipovisor™ shows a list of pathologies, and
the surgeon selects those relating to the patient, and confirms them by pressing the Confirm button.
Entering patient pathologies
Smoker
Pregnancies
Abortions
Obesity
Alcoholism
Dental implants
Personal anaesthesia problems
Family anaesthesia problems
Respiratory diseases
Breathing
Vascular diseases
Chronic diseases
89
91. The surgeon can either select the clinic where the patient will be operated on, by choosing it from the list of clinics that he
has created, or enter a new clinic.
Entering clinical data
New York General Hospital
Monaco Private Clinic
Milan Private Clinic
London General Hospital
Paris Private Clinic
90
92. The Print button can be used to produce the document containing patient data, privacy data and the release form.The pdf
file containing the data can be emailed or placed on the Lipovisor™ key to be printed at a later time from a computer
connected to the printer. The computer must be equipped with software that can read pdf documents, such as Adobe
Reader.
Regardless of the manner in which they were sent and printed, these documents must be signed by the patient. This is a
mandatory step in order to continue. The Lipovisor™ is very much geared towards safeguarding the surgeon and the
clinic, and prevents the user from continuing if there is the risk that even a small formality may be overlooked, such as the
patient’s signature.
To ensure that the surgeon has printed the document, there is a key phrase next to the space reserved for the patient’s sig-
nature, which must be typed into the Lipovisor in order to continue the operation flow for the that patient.The Lipovisor™
will not continue with the operations of those patients who have not signed the documents, or where the verification
key phrase has not been entered.
Printing of patient documents
91
93. During the outpatient appointment, the operator presses the Print button to produce the documents to be signed by the
patient. To inform the Lipovisor™ that the patient has signed the documentation, the surgeon enters a key-phrase on-
screen, which appears at the bottom of the printed document.
N.B. Although the documents are in pdf for-
mat, and are visible on any computer equipped
with a pdf reader, the key phrase becomes vis-
ible only on the printed document and not on
screen.
If the surgeon notices a mistake in the patient’s
data, he will not ask the patient to sign the
document. He must press the Lipovisor™
button, which takes him back to the previous
step, i.e. the patient data screen, where he can
make corrections and then proceed to print the
document.
Note. Patient data is not saved until the pro-
cedure has been completed correctly, with the
inclusion of the key phrase that indicates that
the privacy document has been signed. After
the key phrase has been entered correctly, cor-
responding to the patient’s privacy documents,
the Lipovisor goes to the Free Measurement
Pre-consultation page.
Signing of documents / key-phrase page
92
94. When the surgeon accesses the patient page in Outpatient mode, the patient’s personal and clinical data have already been
entered and the surgeon should proceed to perform the free measurement. However the Lipovisor™ must first ensure
that the documents have been duly signed by the patient.
When the key-phrase page is displayed, the surgeon is required to enter the key-phrase displayed on the printed documents.
Once this has been verified, the surgeon can carry out one of the following actions:
• Take a free measurement of the patient’s fat tissue.
• Press the Patient data button (stethoscope symbol) if any changes need to be made.
• Return to the home page by pressing the Lipovisor™ symbol.
• Turn off the Lipovisor™ by pressing the off button.
Patient in Outpatient mode
93
95. After entering the patient’s data, the Lipovisor shows the Free Measurement page which allows the operator to freely
measure the patient’s fat.
Since at this stage the surgeon will make a simple measurement without any surgical intervention, the Lipovisor™
provides only the measurement of fat thickness.
Patient in Outpatient mode
94
96. The free measurement indicator shows the thickness of the fat in centimetres, measured with the probe at the exact point
where the fat is located. In addition to the numeric indicator, there is also a graphical indicator, consisting of a proportional
number of lit-up sectors that are coloured in correspondence with the different levels of fat thickness.
The colour relating to the maximum value of the fat is dark green, while the colour for the minimum value (zero) of fat
is dark red. In general, the red, indicating that there is little or no fat, conveniently alerts the surgeon, while the green,
indicating a lot of fat, indicates a more comfortable situation for the intervention. Between these two extremes there are
different colours in different gradations corresponding to the different values measured.
The surgeon is required to ensure that the sensor is always in contact with the skin until the scanning of the area is com-
pleted.
If the surgeon moves the sensor away from the patient’s skin, the measurement shown on the screen is invalid. Under cer-
tain conditions the Lipovisor™ is likely to detect this situation, but this is not guaranteed. It is up to the surgeon to verify
that the sensor remains in contact with the skin and also that does not come into contact with other materials extraneous
to the patient’s body.
Outpatient examination - Free measurement
95
97. The Lipovisor provides a workflow designed to prevent any manual operations that could lead to errors and omissions.
This flow is also highly optimized to avoid unnecessary operations that cause delays and inefficiencies. This is why the
search option was created. When the surgeon wishes to see a patient whose personal data have already been entered
into the Lipovisor™, he begins the search by
pressing either the woman button or the man
button, which displays the list of patients under-
going treatment, already classified by gender. If
the name of the patient the surgeon is searching
for does not appear on the screen, the surgeon
can scroll up and down through the list until he
finds it.
If the number of patients is very high, the sur-
geon can press the initial letter of the name or
surname and the Lipovisor™ will display only
the list of patients whose name or surname con-
tains the letter selected.
Searching for patients
96
98. Searching for patients
With this simple search mechanism: man/woman plus a letter, the name of the patient should already be visible in the first
screen of search results, otherwise the surgeon can scroll up and down through the list.
Searching for patients begins with the patient register page, by pressing the Man or Woman button on the Patient
Register page already seen above (the page here is displayed for your convenience only).
97
99. On the patient register page, the surgeon presses the Women button to display the Search Female Patients page.
Pressing a letter button will display the list of patients with that letter.
The surgeon can then scroll up and down
through the list.
When the relevant patient has been identified,
the surgeon clicks on the name and the patient
page opens, in the mode relating to the status
(outpatient, pre-surgery, surgery, post-surgery)
Press the Woman button to return to the pa-
tient register (this user path is very rare in the
daily flow of work, so an actionable symbol is
used rather than a button).
Searching for female patients
98
100. This screen is shown if you pressed the Man button in the patient register page.
If the surgeon presses the Man button on the patient register page, the Search Male patients page is displayed.
Pressing a letter button will display the list of patients with that letter.
The surgeon can then scroll up and down
through the list.
When the relevant patient has been identified,
the surgeon clicks on the name and the patient
page opens, in the mode relating to the status
(outpatient, pre-surgery, surgery, post-surgery)
Press the Man button to return to the patient
register (this user path is very rare in the daily
flow of work, so an actionable symbol is used
rather than a button).
Search for male patient
99
101. This screen is displayed when you search for Male patients or Female patients in the Search page.
If the surgeon has pressed the Surgery button on the search page, the Search Surgery patients page is displayed,
where only the patients who will undergo surgery are displayed.
Pressing a letter button will display the list of
patients with that letter.
The surgeon can then scroll up and down
through the list.
When the relevant patient has been identified,
the surgeon clicks on the name and the patient
page opens, in the mode relating to the status
(outpatient, pre-surgery, surgery, post-surgery)
Press the Lipovisor™ symbol to return to the
patient register (this user path is very rare in the
daily flow of work, so an actionable symbol is
used rather than a button).
Search for Surgery patients
100
102. It is well known that liposuction, and reshaping of the body of a patient is an extremely complex surgical procedure due to
the absence of reference marks. For this reason it is advisable for the surgeon to mark only the outer contour of the area
on the patient, with the appropriate marker supplied with the Lipovisor™.All marks that are not the outer contour of the
area should be identified using a different marker.
With the patient in a standing position.
• take measurements using a measuring tape, and write
them on the patient’s body in order to draw the areas
from which fat will be removed (e.g. buttocks and belly).
• using the reference marks on the patient’s body, measure
the distance of the areas to be scanned.
• this method allows the surgeon to mirror the right and left
parts of the patient’s body.
• marks should be drawn on the patient’s body according to
the surgeon’s description.
• do not use cameras equipped with Wi-Fi which could dis-
turb or interfere with the Lipovisor™ technology.
Useful Tips
Paginaconsigliutili
Posizionare la paziente in piedi.
Con il metro misurare e scrivere sul corpo della paziente le misure utili
perdisegnare le areeda aspirare.(es.glutei,pancia ecc.ecc.).
Con i riferimenti scritti sul corpo della paziente misurare la distanza
delle areeda scansionare.
Questo metodo permette al chirurgo di rendere speculare la parte
destrae la partesinistra delcorpodella paziente .
I riferimenti da disegnare nel corpo della paziente sono a descrizione
del chirurgo.
Non utilizzare macchine fotografiche dotate di WI-FI potrebbero creare
disturbi o essere in conflitto con le tecnologie dell’apparecchiatura
medicale Lipovisor™.
E’ ben noto che la liposuzione, e il rimodellamento del corpo di un paziente è un intervento chirurgico estremamente
complesso per l’assenza deiriferimenti, perquesto motivo consigliamo al chirurgo di distinguere solo ilcontorno esterno
dell’area sulla paziente con l’apposito pennarello in dotazione al Lipovisor™. Tutti i tracciati che non sono il contorno
esternodell’area devono essereraffiguraticonunpennarello diverso.
101
103. By pressing the Surgery button from the Lipovisor™ home page, the Lipovisor™ activates the guided procedure for
the pre-op consultation.
The first step consists of creating a three-dimensional model of the patient which is activated by pressing the 3S button.
The Lipovisor™ provides instructions for car-
rying out the process and the surgeon uses the
3D sensor to capture the 3D model.
On completion of the capture procedure, the
Lipovisor™ screen displays the 3D model
or silhouette of the patient, and the following
buttons appear:
• 3D Model of the patient
• 3L button that activates the scan with the
Lipovisor fat sensor
• M Free measurement
Pre-surgery consultation
102
104. • Accept
• Retry
• 3S button that allows the operator to carry out the three dimensional scan at any time, with the body scanner.
When the pre-surgery consultation is activated, a completely empty area is shown, which will then be filled with the
silhouette and the three-dimensional scan of the patient.
Visit pre surgery
103
105. The surgeon presses the 3S button to perform the 3D scan of the patient. When the scan is completed, the three-
dimensional image appears on the screen. Only at this point does the 3S button become active, and the surgeon can
perform the selection and scan using the fat sensor.
It is possible to zoom in on the three-dimensional
model by touching the screen with two fingers
(usually the index finger and thumb).
3S Scan
104
106. To zoom in on the three-dimensional model using the Zoom In function the surgeon moves his fingers on the screen (away
from each other).
Conversely, moving his fingers towards each other will perform the Zoom Out function.
3S Scan
105
107. On the patient’s three-dimensional model, the surgeon selects the areas to be scanned, identifying each of them by name.
Each area is selected using the Lipo sensor.
• 3L scan of a single area.
Selecting areas to operate (list creation) - Pre-Surgery appointment
106
108. Colour variation of the scanned areas - Pre-Surgery appointment
As the area is scanned, it acquires a colour that varies according to the layer of fat underneath the skin.
107
109. After the surgeon has specified the patient to be operated on, a page appears showing the list of areas of the patient’s body
on which to operate, which have already specified in the pre-Surgery consultation.
This page displays all the parts of the patient which will be operated on, and which were selected in the pre-surgery con-
sultation.
The surgeon selects the part on which he will operate,
and confirms by pressing the Confirm button. The
Lipovisor™ then shows the area to be operated on,
on the Surgery - Area to Operate page. After op-
erating on the selected part, the Lipovisor™ again
shows the page ‘List of areas on which to operate’
with the difference that the areas which have been
operated on are shown by a graphic symbol in order
to indicate to the surgeon which are the areas still to
be operated on.
When the surgeon has operated on all the specified
areas and the entire list is completed, the Lipovi-
sor™ remains on the Surgery - list of areas on
which to operate page until the surgeon presses
the Surgery symbol to return to the Surgery Home
Page. When the Surgery symbol is pressed, the Li-
povisor™ saves the patient data and returns to the
home page.
Example: for the specified patient, the surgeon has
identified three areas: Inner thigh, Abdomen and But-
tocks.
Pre-Surgery - List of areas on which to operate
108
110. This page shows the pre-set area which will be operated on. Here the surgeon can:
• rotate the model using the control ball.
• take a measurement using the Free Measurement button and access the Surgery Free Measurement page
• perform a new scan of the area using the 3L button that accesses the area check scan page
• Press the Lipovisor™ logo to return to the Home
Page.
While working on a specific area, the surgeon can
perform a lipo scan to check the fat in the area on
which he is operating. The scan can be repeated as
many times as required, by pressing the 3L button
on the previous screen
The area to be scanned, which has already been
specified in the pre-consultation, is displayed in grey
on the main viewer. The Lipovisor™ indicates in
grey the area to be scanned, along with a pointer
which shows where the surgeon must position the
sensor. The surgeon places the sensor at the point
indicated on the patient’s 3D model and moves it
in all directions, in order to examine the whole area.
As the surgeon moves the sensor on the patient, the
corresponding point in the 3D model is coloured ac-
cordingly (see colour scale table).
The surgeon should cover the whole area with the
sensor, directing it towards the parts that have not
yet been scanned.
Pre-Surgery - Area on which to operate
109
111. Either of the following two scenarios can be found in the operating room:
1) the surgeon uses the Lipovisor™ Master which he brought with him into the operating room. He already visited the
patient and needs to search for the patient’s details; or
2) the surgeon uses the Lipovisor™ Clinic, a version of the Lipovisor™, which is specifically designed to work effi-
ciently in operating rooms, where stable equipment and multi-user facilities are installed, compared to the clinic of a
single surgeon.
Surgery (operating room) - Lipovisor™ Master
110
112. Lipovisor Surgery is the version of Lipovisor™ specially devised for the operating room. It takes into account some of the
characteristics of the operating room, such as:
• Multi-user facilities
• Compliance with certain requirements on electrical and radio-frequency transmissions
• Type of operations carried out (outpatient appointments and check-ups are not carried out in the operating room)
The Lipovisor™ Surgery therefore works on only one patient at a time without processing the data relating to other
patients. All patient appointments (outpatient, pre- and post-surgery) are carried out using a Lipovisor™ Surgery sup-
plied to the surgeon.
In the operating room, Lipovisor™ Surgery is configured to recognize the data contained in the patient transponder. A
page appears with the message Bring the transponder near Lipovisor Surgery.
Surgery (operating room) - Lipovisor™ Clinic
111
113. After start-up the operator accepts commands from this page, with two options available:
• turn off the Lipovisor™ by pressing the power button.
• go to the transponder page by pressing the Transponder button.
Lipovisor Clinic Home page
112
114. To operate on the current patient, the surgeon must insert the corresponding transponder into the USB port on the
Lipovisor™.The transponder contains the data relating to the patient to be operated on.
The surgeon inserts the transponder into the USB port so that the Lipovisor™ can acquire the patient data. If the
acquisition fails, the Error 03 page appears, which allows the surgeon, by pressing the Try again button, to read the
transponder again.
If an error occurs when reading the transponder, the operator should:
• bring the transponder nearer to the sensor
• make sure it is correctly orientated
• try restarting the Lipovisor™
In case of repeated errors in reading the transponder,after following the suggestions listed above, contact the Lipovisor™
customer service centre.
Surgery - Inserting the Transponder
113
115.
116. Transfer from LipovisorTM
Dr. Master to LipovisorTM
Clinic
Insert the transponder into the USB port; or, if the surgeon has a USB / wireless transponder, ensure that it is turned on and
placed close to the Lipovisor™.
By pressing the Transfer button, the Lipovisor™ downloads the patient’s medical records to the transponder.
• at the request of the Lipovisor™, insert the transponder into the USB port.
• Wait for the confirmation tone indicating that the file has been downloaded.
• After the beep, the operator can remove the transponder and take it with him into the operating room.
Note: When the patient’s data file has been transferred to the Transponder, an email is also sent to the clinic.
Note: If the plastic surgeon enters an email that does not refer to the clinic or the clinic has lost or did not receive the
email, in the event of litigation, the clinic may refer to the Lipovisor™ manufacturer in order to recover any missing data.
The transaction will entail the payment of a fee.
115
117. After the surgeon has selected the patient to be operated on, a page appears showing the list of areas of the patient’s
body on which to operate, as specified in the pre-Surgery visit.
This page displays all the parts of the patient which will be operated on, and which were selected in the pre-surgery
appointment. The surgeon selects the part on which he will operate, and confirms by pressing the Confirm button. The
Lipovisor™ will then show the area to operate on
in the Surgery - Area on which to operate page.
After operating on the selected part, the Lipo-
visor™ again shows the page List of areas on
which to operate with the difference that the ar-
eas which have been operated on are shown by a
graphic symbol in order to indicate to the surgeon
which are the areas still to be operated on.
When the surgeon has operated all specified areas
and the entire list is completed, the Lipovisor™
Surgery - List of areas on which to operate
page remains active until the surgeon presses the
Surgery symbol, and then returns to the Surgery
Home Page. When the Surgery symbol is pressed,
the Lipovisor™ saves the patient data and returns
to the home page.
Example: for the specified patient, the surgeon has
identified three areas: Inner thigh, Abdomen and
Buttocks.
Surgery - List of areas on which to operate
116
118. This page shows the pre-set area which will be operated on, and the surgeon can perform any of the following operations:
• rotate the model using the control ball.
• take a free measurement using the Free Measurement button to access the Surgery Free Measurement page
• rescan the area using the 3L button that accesses
the Area check scan page
• return to the Home Page by pressing the Lipovi-
sor™ logo.
Surgery - Area on which to operate
m
117
119. Surgery - Surgery Free Measurement
The Lipovisor™ measures the fat thickness while it removes it in the operating room.
118
120. Surgery Free Measurement is used by the surgeon during surgery to remove fat in areas and depths that he has
determined during the Pre-Surgery visit.
The Surgery Free Measurement, compared to the free measurement used in the clinic, enables the surgeon to set a
limit on the thickness of residual fat. In practice, the surgeon uses the + and - keys to set the depth to which he wishes
to remove the fat, and begins to operate on the patient using surgical instruments (cannula or other instruments), while
carrying out real-time checks with the Lipovisor™ which continually reports on the thickness of the fat (in millimetres). If
the residual fat reaches the thickness limit set by the surgeon, the Lipovisor™ emits a warning sound and a visual alarm
in order to draw the surgeon’s attention.
The Surgery Free Measurement differs from outpatient measurement or free measurement only in that there is a limit
set, which is also known as “limited measurement”.
The Surgery Free Measurement indicator shows the size of the fat in centimetres, measured by the probe at the exact
point where it is located. In addition to the numeric indicator, there is also a graphical indicator, consisting of a proportional
number of lit-up sectors that are coloured in correspondence with the different levels of fat thickness.
The colour relating to the maximum value of the fat is deep blue while at the minimum value (zero) it is dark red. In general,
the red, indicating that there is little or no fat, conveniently alerts the surgeon who is performing the operation, while the
blue, indicating a lot of fat, represents a more comfortable situation. Between the two extremes represented by the red and
the blue there are different colours with different gradations corresponding to the different values measured.
Surgery Free Measurment
119
121. The operator makes sure that the following requirements are met:
• The sensor must always stay in contact with the skin until the scanning of the area is completed.
Please note! If the surgeon moves the sensor away from the patient’s skin, the measurement shown on the screen is
considered invalid, and the alarm function
will not be significant and is therefore
unusable.
• Under some special conditions the
Lipovisor™ can detect this situation, but
this is not guaranteed.
• It is up to the surgeon to verify that the
sensor remains in contact with the skin,
and that it never comes into contact with
other materials extraneous to the patient’s
body.
Using the Surgery Free Measurement
120
122. Important Note. During the operation, when the thickness of the fat reaches the set limit, the Lipovisor™ indicates
this with a flashing STOP sign, and an unmistakable sound to alert the surgeon.
Surgery Alarm
121
123. While working on a specific area, the surgeon can perform a Lipo scan to check the fat in the area on which he is operating.
The scan can be repeated as many times as required, by pressing the 3L button on the previous screen.
The area to be scanned, which has already been specified in the pre-consultation, is displayed in grey on the main viewer.
The Lipovisor™ indicates in grey the area to
be scanned, along with a pointer which shows
where the surgeon must position the sensor.The
surgeon places the sensor at the point indicated
on the 3D model of the patient and moves it
in all directions, in order to examine the whole
area. As the surgeon moves the sensor on the
patient, the corresponding point in the model
3D is coloured accordingly (see colour scale ta-
ble). The surgeon should cover the whole area
with the sensor, directing it towards the parts
that have not yet been scanned.
Are Check Scan
122
124. The operator makes sure that the following requirements are met:
• The sensor must always stay in contact with the skin until the scanning of the area is completed.
• After starting the scan he should never raise the sensor away from the patient’s skin and move it to a new point. He
can move it in any direction he likes, but it must always remain in contact with the skin without being raised away from it.
• Contact may be lost with the skin, but the sensor must be repositioned at the same spot where contact was interrupted.
• In short, if you move the sensor away from the skin it must be put back in the same spot.
• If the sensor loses contact with the skin there are two possibilities:
- If you wish to continue the scan, reposition the sensor in the same spot, or
- the current scan is to be considered to have come to an end;
- press Try again and re-scan the area.
N.B. Under certain conditions, the Lipovisor™ may detect that the sensor has lost contact with the skin and reports it
appropriately by offering the surgeon the choice to terminate the scan, continue or rescan.
Prescription number 2 - The sensor must be kept in a horizontal position with the buttons precisely at the top. If this
requirement is not met the scan is to be considered invalid. When the surgeon realises the error, he can repeat the scan
by pressing Try again. Under certain conditions the Lipovisor™ itself can detect the error and report it, prompting the
surgeon to repeat the scan.
Surgery - Area Scan
123
125.
126. Transfer from LipovisorTM
Clinic to LipovisorTM
Dr. Master
By pressing the transfer button, the Lipovisor™ downloads the patient’s medical records to the Transponder.
• At the request of the Lipovisor™, insert the transponder into the USB port.
• Wait for the confirmation tone indicating that the file has been downloaded.
• After the beep the operator can remove the transponder and take it with him to activate the Lipovisor™ Master.
Note. When the patient’s data file has been transferred to the Transponder, an email is also sent to the clinic.
Note. If the plastic surgeon enters an email that does not refer to the clinic or the clinic has lost or did not receive the
email, in the event of litigation, the clinic can refer to the Lipovisor™ manufacturer in order to recover any missing data.
This operation entails the payment of a fee.
125
127. The post-surgery appointment gives the surgeon the opportunity to perform a new 3D scan of the patient and to compare
it with the one carried out prior to surgery. In this way, it is possible to highlight the main differences between the condition
of the patient before and after surgery.
During the post-operative appointment the
surgeon performs a 3S scan of the patient,
and the scan is immediately compared with
the 3D model of the patient which was ac-
quired at the Pre-surgery appointment. The
Lipovisor™ highlights the differences be-
tween the two models.
When the print button is pressed the Lipovi-
sor™ sends via email the pdf file containing
all the documentation.
By pressing the off switch the Lipovisor™
returns to the Home Page.
Lipovisor™ shows the two models side
by side to facilitate the comparison of any
differences.
Compare - Post-operative appointment
126
130. The surgeon can print the medical records and make them available to the patient. The key-phrase only needs to be
entered at the outpatient appointment.
At the end of the post-operative appointment the surgeon may decide to give the patient a summary of the operation on a
USB stick or a CD, which contains all the three-dimensional scans performed on the patient.
Print documents and CD burning
129
131. Limits of liability - Disclaimer
OVERVIEW
The use of the Lipovisor™ medical device is dependent on a complete knowledge and awareness of the contents
of this manual; nevertheless, this manual may be PERIODICALLY UPDATED WITHOUT NOTICE. As a result it is the
responsibility of the user to verify PRIOR TO USE any updates of the user manual, by logging on to the following
website http://www.lipovisor.com/ last-issue
Lipovisor™ is an electronic device that is produced in accordance with the harmonized standards that presume CE
conformity and compliance with the essential requirements necessary for obtaining this marking.
Lipovisor™ is a medical device that complies with Directive 93/42/EEC, which has been implemented by Italian
Legislative Decree no. 46 of 24.02.1997, published in the Official Gazette no. 54 of 06.03.1997.
The manufacturer confirms compliance with the CEI 62 standards that define the structural safety requirements of
electro-medical equipment; in particular, this ensures that close attention has been paid to maintenance procedures
to be carried out by the user, as well as those prescribed by Legislative Decree no. 46, Annex “I” of 24.02.1997,
point 13.6 “d”, which consequently recommends that the user carry out preventive & corrective maintenance and, if
necessary, extraordinary maintenance using the REQUIREMENTS CONTAINED IN THIS MANUAL, as well as observing
all regulations and applying all “best practices”, i.e. “best practices carried out in a workmanlike manner in order to
maintain the Lipovisor™ device a in perfect and safe operating condition”.
The manufacturer takes responsibility for any damage caused through the use of the Lipovisor™ medical device,
limited to broader notions permitted by law, and provided that the equipment has been used in accordance with
the requirements of this manual and that all maintenance procedures set out by the manufacturer and by applicable
regulations have been observed by the user; it is up to the user to provide evidence that he has used the device
properly and in compliance with all applicable standards.
130
132. The Lipovisor™ device must be used in accordance with Italian decrees no. 81 of 09.04.2008 and no. 106, 03.08.2009,
as amended, on the safety of workers in relation to the equipment made available to them. The equipment must be
used in accordance with the laws and regulations on safety and be SUBJECT TO SUITABLE PREVENTIVE, CORRECTIVE
AND EXTRAORDINARY MAINTENANCE SCHEDULES. The user must adhere to the CEI 62 standards that also set out
maintenance, storage and safe requirements for the use of electromedical equipment in medical environment.
User safety
131
133. • Being an electro-medical device that emits radio waves, the Lipovisor™ device inherently adopts all national and
international safety regulations limiting their emissions within the limits set out by these regulations; however, it is
recommended that the user should not use the Lipovisor™ device on patients who, by way of example and not limited
to, have:
➾ pacemakers
➾ stimulation electrodes
➾ monitoring devices
➾ metal implants
• In any case it is strongly recommended that surgeons operate in environments equipped with defibrillator and
an external pacemaker, in order to effectively deal with any unexpected rare events.
• The Lipovisor™ should not be used on patients who are:
➾ pregnant
➾ suspected pregnancy
• Being an electromedical device, the use of the Lipovisor™ involves carrying out careful electrical safety checks in
relation to direct contact with the patient. By way of example and not limited to, special care must be taken in:
➾ macroshock
the passage of current through the patient’s body caused by accidental external contacts
Patient safety
PERICOLO, PRESTARE ATTENZIONE ALLE PRESCRIZIONI RIPORTATE
NECESSARIA LA DOTAZIONE DI UN DEFIBRILLATORE
NECESSARIA LA DOTAZIONE DI UN PACEMAKER ESTERNO
azioni o eventi periodici
da inserire tra pag.2 e pag. 3,
quindi diventa la pag. 3
NECESSARIA LA DOTAZIONE DI UN DEFIBRILLATORE
NECESSARIA LA DOTAZIONE DI UN PACEMAKER ESTERNO
azioni o eventi periodici
da inserire tra pag.2 e pag. 3,
quindi diventa la pag. 3
132
134. Patient safety
PERICOLO, PRESTARE ATTENZIONE ALLE PRESCRIZIONI R
NECESSARIA LA DOTAZIONE DI UN DEFIBRILLATORE
NECESSARIA LA DOTAZIONE DI UN PACEMAKER ESTERNO
azioni o eventi periodici
da inserire tra pag.2 e pag
quindi diventa la pag. 3
NECESSARIA LA DOTAZIONE DI UN DEFIBRILLATORE
NECESSARIA LA DOTAZIONE DI UN PACEMAKER ESTE
azioni o eventi periodici
da inserire tra pag.2 e p
quindi diventa la pag
➾ microshock
the passage of current through the internal organs of the patient caused by the electric dispersion relating to the
probes of the unit.
By way of example, and not limited to, some of the physio-pathological effects caused by an electric current passing through
the human body are:
➾ tetanisation
➾ respiratory arrest
➾ ventricular fibrillation
➾ burns
• While using the Lipovisor™ it is ABSOLUTELY NECESSARY TO CONSIDER THE PATIENT VERY VULNERABLE TO
ELECTRIC SHOCKS, as the clinic and surgery context can cause life-threatening situations for the patient;
• it is only permitted to use the Lipovisor™ in conjunction with electric or electronic electromedical or non-
electromedical equipment, which has previously been proven to create no interference with the proper operation of
the device, or to be affected by the device;
• the use of the Lipovisor™ in conjunction with any electrical or electronic electromedical or non-electromedical
equipment is to be considered the sole responsibility of the user, who assumes the risks to the fullest extent permitted
by law, and thus bears the sole responsibility of ALL interoperability tests carried out on the equipment, as well as the
consequences of such combined use.
133
135. The Lipovisor™ must only be used in full compliance with ALL the requirements of electrical safety set out in the
manual, as well as ALL legal requirements;
➾ By way of example, but not limited to, the following is recommended:
➾ In case of any doubt about the efficiency of the device, shut it down immediately, disconnect it from the mains and
consult the customer service for subsequent checks.
➾ The Lipovisor™ radio frequency device should only be used in areas that comply with applicable electrical stan-
dards, specific to medical environments.
➾ Only use mains supply sockets that are properly grounded.
➾ The device should only be powered up after ensuring that the sources of supply correspond to the rating plate data:
power supply voltage, frequency and maximum output current. In case of any doubt, do not power up the device,
and consult the customer service for subsequent checks.
➾ Do not carry out any improper electrical connections, such as forcing plug prongs into unsuitable sockets or make
precarious connections of any kind.
➾ Do not use electrical connections which have not been tested as being perfectly complete and functional.
➾ Do not use extension cords, power strips, or any other device that has not been approved.
➾ Inform the service engineer of any maintenance discrepancies even if these are only suspected.
➾ Avoid using the device in the vicinity of cutting elements, sharp tools or any kind of equipment that may affect the
reliability of the electrical connections.
➾ If the device is used with accessories not included in the supply, such as extension cords, or any other equipment,
these must comply with the minimum compatibility characteristics, and ensure performance capabilities NOT
INFERIOR to those set out for the device.
General safety
134
136. General safety
➾ Avoid using flammable and/or accelerant components when operating the device.
➾ Do not allow liquids to come into contact with the device.
➾ Do not use the device if you suspect that it has come into contact with liquids.
➾ Always use the device and all accessories supplied on a horizontal, stable and rigid surface, so as to allow safe
usage and to ensure that the device or accessories do not fall accidentally.
➾ Do not use the device on soft or unstable surfaces; this includes, by way of example and not limited to, blankets,
pillows, beds, etc.
➾ During use, do not cover the device with cloths, towels or any other material.
➾ Leave a free space of at least 15cm around the device in order to allow for ventilation of the cooling grids, as well
as easy operability around the device.
➾ Do not expose the equipment to direct sunlight.
➾ Avoid any misuse or any type of usage not set out in the user manual.
Being an electro-medical device that emits radio waves, the Lipovisor™, inherently adopts all national and international
safety regulations limiting their emissions within the limits set out therein. However, it should not be used near equipment
that receives or transmits radio signals, which, although unlikely, could cause minor interference. In any event, the device
does not cause interference with computers, fixed or mobile telephone networks.
135
137. As with all electromedical devices, the use of the Lipovisor™ is subject to a careful evaluation of the inherent risks,
including the following, by way of example and not limted to:
➾ technical defects
➾ misinterpretation of the functions of the equipment and accessories
➾ insufficient knowledge of the safety methods to be applied
➾ insufficient or incorrect maintenance of the equipment and accessories
➾ improper use of the equipment and accessories
➾ using improper combinations of accessories and equipment
➾ use of non-conforming accessories
➾ faults or problems relating to the electrical power supply
➾ failures or problems related to the environment in which the equipment is being used
Risk management
136
138. External cleaning of the Lipovisor™ must be carried out periodically, and in any case before each use, respecting the
following minimum procedural conditions:
Make sure that the product is switched off and that the power cord is unplugged from the power socket.
Clean the surface of the Lipovisor™ using soft sterile cloths which have been moistened with a liquid solution
composed of 70% water and 30% denatured ethyl alcohol. It is advisable to vigorously wring the cloth before using
it. Following the same precautions described above, also disinfect surfaces using a liquid suitable for the purpose. Do
NOT use abrasives, solvents, acids or alkali.
NEVER immerse the Lipovisor™ and/or the supplied accessories in water or other liquids.
Before using the Lipovisor™ device, make sure all parts are completely dry, paying particular attention to the
electrical connections.
Cleaning the device
137
139. The power supply for the Lipovisor™ must comply with the following rating:
➾ Voltage 110 / 230 / 240 volts +/- 10%
➾ Frequency 50/60 Hz +1%
➾ Max 30VA
Power supply
138
140. The Lipovisor™ Master Dr is supplied with the following accessories:
• 90° sensor
• Lipovisor™ power cable
• Lipovisor™ sensor cable
• Lipovisor™ glass keyboard
• Lipovisor™ USB Key Transponder
• Lipovisor™ USB / Wireless Key Transponder
• Lipovisor™ multimedia CD
All accessories, consumables and optionals MUST be used in accordance with the instructions provided in this manual.
Any other use will be considered misuse, and should be absolutely avoided.
Accessories included
139