Final project for information systems and strategy classes at Boston University School of Management, discussing how Intuitive Robotic\'s DaVinci machine is positioned for success in the future.
The role of the Surgical Assistant in Robotic DaVinci Gynecologic surgery. The original presentation has 2 videos with Surgical Assistants in the procedure.
El documento describe el robot Da Vinci, un equipo quirúrgico que ofrece una cirugía menos invasiva. Las ventajas incluyen procedimientos más sencillos, menor sangrado y cicatrices, mientras que las desventajas son un periodo de aprendizaje más largo y un alto costo. El documento concluye con una encuesta sobre si la gente se dejaría operar con este robot.
The document discusses robotic heart surgery using the da Vinci surgical system. It describes how the da Vinci system consists of a surgical console, patient cart, instruments, and image processing equipment that allow surgeons to perform minimally invasive procedures. Some benefits of robotic surgery include smaller incisions, less pain and recovery time for patients, and improved dexterity and ergonomics for surgeons. The document outlines how robotic surgery has applications in various fields like cardiology, urology, and pediatrics.
This document discusses embedded software development and image processing using the TI DaVinci platform. It provides an overview of the DaVinci SOC which includes both a GPP and DSP. It describes installing the necessary toolchain and software, setting up an NFS server, building the Linux kernel, cross-compiling programs, and provides an example of a simple image zooming application.
Agnesian HealthCare Know & Go Showcase: daVinci Surgical SystemAgnesian HealthCare
Dr. Santa-Cruz with Urological Services, and Dr. Miller in OB/GYN Services at Agnesian HealthCare demonstrates the world of robotic surgery and how he has leveraged its use within the AHC system.
Robotic surgery originated in the 1980s with early conceptions of telepresence surgery using robotic arms controlled by surgeons. The first robot used for surgery was the Puma 560 for neurosurgical biopsies. The Da Vinci system, introduced by Intuitive Surgical, performed the first telesurgical laparoscopic cholecystectomy in 1997. The Da Vinci system allows surgeons to perform minimally invasive procedures with improved 3D visualization, dexterity, precision, and ergonomics compared to traditional laparoscopy. Robotic surgery has been used for a wide variety of procedures in fields such as general surgery, urology, gynecology and cardiac surgery.
The document discusses the history and development of robotic surgery using the da Vinci surgical system. It describes how the system was developed to enable surgeons to perform complex surgery through small incisions with greater precision than is possible manually. It outlines key innovations in the system over time, including 3D HD vision and more advanced instruments. It also discusses clinical benefits shown in various procedures like prostatectomy and how adoption has occurred procedure by procedure.
Final project for information systems and strategy classes at Boston University School of Management, discussing how Intuitive Robotic\'s DaVinci machine is positioned for success in the future.
The role of the Surgical Assistant in Robotic DaVinci Gynecologic surgery. The original presentation has 2 videos with Surgical Assistants in the procedure.
El documento describe el robot Da Vinci, un equipo quirúrgico que ofrece una cirugía menos invasiva. Las ventajas incluyen procedimientos más sencillos, menor sangrado y cicatrices, mientras que las desventajas son un periodo de aprendizaje más largo y un alto costo. El documento concluye con una encuesta sobre si la gente se dejaría operar con este robot.
The document discusses robotic heart surgery using the da Vinci surgical system. It describes how the da Vinci system consists of a surgical console, patient cart, instruments, and image processing equipment that allow surgeons to perform minimally invasive procedures. Some benefits of robotic surgery include smaller incisions, less pain and recovery time for patients, and improved dexterity and ergonomics for surgeons. The document outlines how robotic surgery has applications in various fields like cardiology, urology, and pediatrics.
This document discusses embedded software development and image processing using the TI DaVinci platform. It provides an overview of the DaVinci SOC which includes both a GPP and DSP. It describes installing the necessary toolchain and software, setting up an NFS server, building the Linux kernel, cross-compiling programs, and provides an example of a simple image zooming application.
Agnesian HealthCare Know & Go Showcase: daVinci Surgical SystemAgnesian HealthCare
Dr. Santa-Cruz with Urological Services, and Dr. Miller in OB/GYN Services at Agnesian HealthCare demonstrates the world of robotic surgery and how he has leveraged its use within the AHC system.
Robotic surgery originated in the 1980s with early conceptions of telepresence surgery using robotic arms controlled by surgeons. The first robot used for surgery was the Puma 560 for neurosurgical biopsies. The Da Vinci system, introduced by Intuitive Surgical, performed the first telesurgical laparoscopic cholecystectomy in 1997. The Da Vinci system allows surgeons to perform minimally invasive procedures with improved 3D visualization, dexterity, precision, and ergonomics compared to traditional laparoscopy. Robotic surgery has been used for a wide variety of procedures in fields such as general surgery, urology, gynecology and cardiac surgery.
The document discusses the history and development of robotic surgery using the da Vinci surgical system. It describes how the system was developed to enable surgeons to perform complex surgery through small incisions with greater precision than is possible manually. It outlines key innovations in the system over time, including 3D HD vision and more advanced instruments. It also discusses clinical benefits shown in various procedures like prostatectomy and how adoption has occurred procedure by procedure.
This document discusses how integrating robotics and smart home technologies using a common standard could help make smart homes more accessible to mainstream consumers. It notes that currently, a lack of integration standards has led to high prices and confusion for customers. Adopting a standard like DH Compliant could enable economies of scale, better value, and help customers understand the benefits of technologies like service robots in homes. With a standard, smart homes and robotics could develop as complementary fields, with robots providing additional capabilities for tasks in an intelligent, connected environment.
Robotic Surgery(minimally invasive surgery)Sgtm Saha
robotic surgery,minimally invasive surgery,MIS,the vinci surgical process,leproscopy surgey, 5 mins representation,BCDA College of pharmacy, SGTM, Swagatam Saha,WBUT Board,6th sem.
Robots can perform many mundane tasks in hospitals like carrying supplies, moving samples, and cleaning. They can also help with tasks requiring strength like lifting and moving patients. Nano-robots may one day be able to fix broken bones, deliver medication precisely, or eliminate cancer cells. Modern hi-tech robots assist nurses and can sort pills or clean operating rooms. Robotic surgical systems allow surgeons to perform complex surgeries with less pain, shorter recovery times, and smaller incisions. Robots can also help with radiation oncology and perform treatments with sub-millimeter accuracy without opening the patient. Robots may help prevent the spread of viruses in hospitals and could clean viruses from the air during pandemics. They may
Robotic surgery systems allow surgeons to perform operations remotely or through minimally invasive procedures. The systems give surgeons improved vision, precision, and control over instruments through interfaces that filter out tremors. However, robotic surgery is still limited as the systems are very expensive, can take more time than manual surgery, and do not provide touch feedback. More research is needed to evaluate the long term safety, efficacy, and cost effectiveness of robotic surgery compared to conventional methods.
El documento presenta una introducción a la domótica y CCTV. Explica conceptos como los sistemas CCTV analógicos, digitales e IP, DVR, NVR y DVM. También cubre temas como ONVIF, integración de CCTV con sistemas domóticos como Zipato, Fibaro y Eedomus, y responde preguntas comunes sobre video portero IP y almacenamiento y visualización de imágenes.
Robotic surgery is performed using a robotic system called the Da Vinci. The Da Vinci system allows surgeons to perform complex surgery through small incisions using robotic arms. It provides surgeons with improved vision, precision, and control over open and laparoscopic surgery. Robotic surgery offers patients less pain, blood loss, scarring and faster recovery times compared to open surgery. Dr. Meenakshi Sundaram is a robotic surgeon at Apollo Hospitals in Chennai who performs procedures in urology and gynecology using the Da Vinci system.
Intuitive Surgical Inc. is an American corporation that manufactures robotic surgical systems, most notably the da Vinci Surgical System. The da Vinci Surgical System allows surgery to be performed using robotic manipulators. The company is part of the NASDAQ-100 and S&P 500. Intuitive Surgical has installed over 1,242 systems worldwide as of July, 2009.[4] Computer Motion was a competitor that merged with Intuitive Surgical in 2003.
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.
This document discusses how integrating robotics and smart home technologies using a common standard could help make smart homes more accessible to mainstream consumers. It notes that currently, a lack of integration standards has led to high prices and confusion for customers. Adopting a standard like DH Compliant could enable economies of scale, better value, and help customers understand the benefits of technologies like service robots in homes. With a standard, smart homes and robotics could develop as complementary fields, with robots providing additional capabilities for tasks in an intelligent, connected environment.
Robotic Surgery(minimally invasive surgery)Sgtm Saha
robotic surgery,minimally invasive surgery,MIS,the vinci surgical process,leproscopy surgey, 5 mins representation,BCDA College of pharmacy, SGTM, Swagatam Saha,WBUT Board,6th sem.
Robots can perform many mundane tasks in hospitals like carrying supplies, moving samples, and cleaning. They can also help with tasks requiring strength like lifting and moving patients. Nano-robots may one day be able to fix broken bones, deliver medication precisely, or eliminate cancer cells. Modern hi-tech robots assist nurses and can sort pills or clean operating rooms. Robotic surgical systems allow surgeons to perform complex surgeries with less pain, shorter recovery times, and smaller incisions. Robots can also help with radiation oncology and perform treatments with sub-millimeter accuracy without opening the patient. Robots may help prevent the spread of viruses in hospitals and could clean viruses from the air during pandemics. They may
Robotic surgery systems allow surgeons to perform operations remotely or through minimally invasive procedures. The systems give surgeons improved vision, precision, and control over instruments through interfaces that filter out tremors. However, robotic surgery is still limited as the systems are very expensive, can take more time than manual surgery, and do not provide touch feedback. More research is needed to evaluate the long term safety, efficacy, and cost effectiveness of robotic surgery compared to conventional methods.
El documento presenta una introducción a la domótica y CCTV. Explica conceptos como los sistemas CCTV analógicos, digitales e IP, DVR, NVR y DVM. También cubre temas como ONVIF, integración de CCTV con sistemas domóticos como Zipato, Fibaro y Eedomus, y responde preguntas comunes sobre video portero IP y almacenamiento y visualización de imágenes.
Robotic surgery is performed using a robotic system called the Da Vinci. The Da Vinci system allows surgeons to perform complex surgery through small incisions using robotic arms. It provides surgeons with improved vision, precision, and control over open and laparoscopic surgery. Robotic surgery offers patients less pain, blood loss, scarring and faster recovery times compared to open surgery. Dr. Meenakshi Sundaram is a robotic surgeon at Apollo Hospitals in Chennai who performs procedures in urology and gynecology using the Da Vinci system.
Intuitive Surgical Inc. is an American corporation that manufactures robotic surgical systems, most notably the da Vinci Surgical System. The da Vinci Surgical System allows surgery to be performed using robotic manipulators. The company is part of the NASDAQ-100 and S&P 500. Intuitive Surgical has installed over 1,242 systems worldwide as of July, 2009.[4] Computer Motion was a competitor that merged with Intuitive Surgical in 2003.
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.
1. The da Vinci Advantage:The Value of daVinci Surgery Randy Fagin, MD Senior Medical Advisor – Training | Intuitive Surgical Director of Robotic Surgery | The Hospital at Westlake Medical Center
2. The da Vinci Advantage:Why Listen to Me In 2000 I trained in LRP with Bertrand Guionneau and Guy Valancien in Paris, France I performed over 300 LRP Operative Time 2 - 2½ hours Blood transfusion rate less than 1% Return to erections 75% I assumed what I was doing was “best in class” I felt threatened by da Vinci surgery I believed “you don’t need a fancy multimillion dollar robot to do a good operation”
3. The da Vinci Advantage:Why Listen to Me: In 2000 I trained in LRP with Bertrand Guionneau and Guy Valancien in Paris, France I performed over 300 LRP Operative Time 2 - 2½ hours Blood transfusion rate less than 1% Return to erections 75% I assumed what I was doing was “best in class” I felt threatened by da Vinci surgery I believed “you don’t need a fancy multimillion dollar robot to do a good operation”
4. The da Vinci Advantage:Why Listen to Me: “you don’t need a fancy multimillion dollar robot to do a good operation” TRUE However, you do need one if you want to do a better operation
5. The da Vinci Advantage:Why Listen to Me “you don’t need a fancy multimillion dollar robot to do a good operation” TRUE However, you do need one if you want to do a better operation
6. The da Vinci Advantage:Why Listen to Me: On August 22nd, 2003 I sat down for the 1st time at a da Vinci console I spent the next 12 months on a mission to get my hospital to purchase a daVinci system
7. The da Vinci Advantage:Why Listen to Me Monday October 1, 2004 I performed my first dVP Monday April 25, 2005 I performed dVP #200 Wednesday April 27, 2005 I performed 2dVP’s Thursday April 28, 2005 I performed 1 LRP some insurance would not cover da Vinci surgery back then Friday April 28, 2005 I decided never to perform another LRP again As of today I have performed ≈2,000 dVP’s my patients have come from over 30 of the United States and 12 countries
8. The da Vinci Advantage:Why Listen to Me Monday October 1, 2004 I performed my first dVP Monday April 25, 2005 I performed dVP #200 Wednesday April 27, 2005 I performed 2dVP’s Thursday April 28, 2005 I performed 1 LRP some insurance would not cover da Vinci surgery back then Friday April 28, 2005 I decided never to perform another LRP again As of today I have performed ≈2,000 dVP’s my patients have come from over 30 of the United States and 12 countries
9. The da Vinci Advantage:Why Listen to Me Monday October 1, 2004 I performed my first dVP Monday April 25, 2005 I performed dVP #200 Wednesday April 27, 2005 I performed 2dVP’s Thursday April 28, 2005 I performed 1 LRP some insurance would not cover da Vinci surgery back then Friday April 28, 2005 I decided never to perform another LRP again As of today I have performed ≈2,000 dVP’s my patients have come from over 30 of the United States and 12 countries
10. The da Vinci Advantage:Why Listen to Me Monday October 1, 2004 I performed my first dVP Monday April 25, 2005 I performed dVP #200 Wednesday April 27, 2005 I performed 2dVP’s Thursday April 28, 2005 I performed 1 LRP some insurance would not cover da Vinci surgery back then Friday April 28, 2005 I decided never to perform another LRP again As of today I have performed ≈2,000 dVP’s my patients have come from over 30 of the United States and 12 countries
11. The da Vinci Advantage:Why Listen to Me Monday October 1, 2004 I performed my first dVP Monday April 25, 2005 I performed dVP #200 Wednesday April 27, 2005 I performed 2dVP’s Thursday April 28, 2005 I performed 1 LRP some insurance would not cover da Vinci surgery back then Friday April 29, 2005 I decided never to perform another LRP again As of today I have performed ≈2,000 dVP’s my patients have come from over 30 of the United States and 12 countries
12. The da Vinci Advantage:Why Listen to Me IF you believe that your current surgery is “as good as it gets” THEN you are performing yesterday’s standard of care maybe today’s standard of care but DEFINITELY NOT tomorrow’sstandard of care
13. The da Vinci Advantage:Why Listen to Me IF you believe that your current surgery is “as good as it gets” THEN you are already behind
14. The da Vinci Advantage: The Vision-Precision Advantage The Consistency Advantage
15. The da Vinci Advantage:The Vision – Precision Advantage Vision Stereoscopic view (better depth AND detail) 10x magnification High definition You place the camera EXACTLY where you want it If I can see it better I can do a better operation Precision Scaled motion Allows for more precise movements than my own hands are capable of With improved ergonomics comes improved precision If I have a more precise tool I can create less collateral damage
16. The da Vinci Advantage:The Vision – Precision Advantage Better Vision and Improved Precision: IS NOT a replacement for skill IS an advantage for ALL SURGEONS no matter what their skill level
17. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons believe
18. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons believe “my outcomes are as good as they get” “I’m at the TOP of my game”
19. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons believe “my outcomes are as good as they get” “I’m at the TOP of my game” and if they never convert to dVP they are right
20. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons believe OUTCOMES best LAP worst
21. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons need to know OUTCOMES best dV best worst LAP worst
22. The da Vinci Advantage:The Consistency Advantage What do YOUR LAP surgeons need to know OUTCOMES easy dV easy hard LAP hard
23. The da Vinci Advantage:The Consistency Advantage YOUR LAP surgeons need to know They are STUCK at their current level if they continue with LAP There is a level above LAP, but to get there they need to transition to daVinci
24. The da Vinci Advantage:The Consistency Advantage daVinci surgery Improves the best outcomes A LITTLE Improves the worst outcomes A LOT Reduces the distance between BEST-WORST EASIEST-HARDEST
25. The da Vinci Advantage:The Consistency Advantage daVinci surgery Reduces Variability in the Difficulty of an Operation Reduces Variability in Outcomes
26. The da Vinci Advantage:The Consistency Advantage daVinci surgery Reducing Variability in Outcomes Better Vision Improved Precision 4th Arm Improved control over your operation Reduced Fatigue
27. The da Vinci Advantage:The Consistency Advantage Reduced Fatigue Ergonomic Advantage of daVinci surgery 87% of surgeons who regularly perform standard laparoscopic surgery experience discomfort/pain neck, hand, and lower extremities J Am CollSurg 2010 Standard Laparoscopic Surgery increases surgeon fatigue and reduces performance Surgery 2010;147:318-30
28. The da Vinci Advantage:The Consistency Advantage Reduced Fatigue Ergonomic Advantage of daVinci surgery Improve ergonomics of performing an operation Improve Performance of the Surgeon Improve Consistency of Patient Outcomes
29. The da Vinci Advantage: Surgery today is NOT as good as it gets Better Vision and a More Precise tool is an advantage for ALL surgeons Reducing Variability in Difficulty Reduces Variability in Outcomes