http://kpiultrasound.com/kpi-ultrasound-buyers-guides.html | KPI Ultrasound presents the LOGIQ P5 Premium a high performance mobile Doppler Ultrasound Imaging System designed for most of your Ultrasound needs.
The LOGIQ E9 is an ultrasound imaging system from GE designed for a wide range of clinical applications. It features a large touchscreen and keyboard for system control, integrated storage and printing capabilities, and advanced imaging modes like harmonic imaging. The system can perform exams in various anatomical areas using multiple transducer types and provides quantitative calculations. It also offers connectivity options like DICOM and wireless networking for image sharing and electronic records.
The JVC GY-HM70 camcorder features a 1/2.3-inch 12 megapixel back-illuminated CMOS sensor and a 29.5mm GT lens. It can record in Full HD 1080p/60p resolution in AVCHD Progressive format or 1080i/60i in standard definition. The camcorder has dual SD card slots for seamless relay recording and supports long recording times of up to 57 hours using 128GB SDXC cards. It also has dual battery mounts for extended battery life.
CT Angiography & CT Perfusion in Management of Acute StrokeDr.Mahmoud Abbas
1) CTP provides physiological information about brain tissue status beyond what standard CT or MRI can show, including cerebral blood flow, cerebral blood volume, and time to peak.
2) Regions with low CBF but preserved CBV likely represent salvageable ischemic penumbra, while regions with both low CBF and CBV have already infarcted.
3) Several case examples are presented where CTP helped identify patients with large ischemic penumbrae despite late presentation, allowing successful revascularization treatment.
The GE Logiq e is a portable ultrasound system with a laptop form factor. It has imaging modes including B-Mode, M-Mode, Color Doppler, and Power Doppler. Features include a 15" color LCD, backlit keyboard, integrated speakers, onboard patient data management, and lithium-ion battery. Probes include convex, linear, and sector probes ranging from 1.5-13 MHz for various applications like vascular, OB/GYN, and small parts imaging.
1) USG is not always accurate in detecting small renal calculi less than 5mm or mid/lower ureteric calculi, while CT is the gold standard for detecting all calculi. However, CT should be used cautiously due to radiation risks.
2) USG is sensitive for detecting fatty liver but cannot detect inflammation or early fibrosis. Liver biopsy is currently needed to assess nonalcoholic steatohepatitis, though new techniques like fibroscan and MR elastography may provide noninvasive alternatives.
3) Lymph nodes need to be at least 10mm on USG to be considered significant or diagnostic of mesenteric adenitis in children.
1. The document outlines the workflow and procedures for performing an emergent CT brain perfusion scan for a potential stroke patient. Key steps include alerting necessary personnel, transporting the patient directly to the CT department, performing a non-contrast head CT to check for hemorrhage, and if no hemorrhage is found, performing a CT brain perfusion scan according to the specified protocol.
2. The protocol utilizes a dual-phase CTA technique with 80kV, 50mA scans and intravenous injection of contrast to generate perfusion maps of cerebral blood flow, volume, mean transit time and time to peak to identify areas of reduced flow indicative of a stroke and its severity.
3. If a stroke
Describes cross sectional anatomy of the mediastinum , and lobar and segmental anatomy of the lung with teaching points and radiological guidelines and multiple examples of lobar and segmental pathologies and how we localize these pathologies .Also the types of chest CT images and indications of chest CT.
The document discusses the anatomy of the mediastinum, which is the central compartment of the thoracic cavity located between the lungs. It describes how the mediastinum is divided into three compartments - superior, anterior, and posterior. Each compartment contains different structures like blood vessels, lymph nodes, and organs. Computed tomography (CT) is often used to further examine abnormalities detected on chest x-rays by providing detailed images of mediastinal structures and lesions in axial, coronal, and sagittal planes. Key CT features of various mediastinal structures are also outlined.
The LOGIQ E9 is an ultrasound imaging system from GE designed for a wide range of clinical applications. It features a large touchscreen and keyboard for system control, integrated storage and printing capabilities, and advanced imaging modes like harmonic imaging. The system can perform exams in various anatomical areas using multiple transducer types and provides quantitative calculations. It also offers connectivity options like DICOM and wireless networking for image sharing and electronic records.
The JVC GY-HM70 camcorder features a 1/2.3-inch 12 megapixel back-illuminated CMOS sensor and a 29.5mm GT lens. It can record in Full HD 1080p/60p resolution in AVCHD Progressive format or 1080i/60i in standard definition. The camcorder has dual SD card slots for seamless relay recording and supports long recording times of up to 57 hours using 128GB SDXC cards. It also has dual battery mounts for extended battery life.
CT Angiography & CT Perfusion in Management of Acute StrokeDr.Mahmoud Abbas
1) CTP provides physiological information about brain tissue status beyond what standard CT or MRI can show, including cerebral blood flow, cerebral blood volume, and time to peak.
2) Regions with low CBF but preserved CBV likely represent salvageable ischemic penumbra, while regions with both low CBF and CBV have already infarcted.
3) Several case examples are presented where CTP helped identify patients with large ischemic penumbrae despite late presentation, allowing successful revascularization treatment.
The GE Logiq e is a portable ultrasound system with a laptop form factor. It has imaging modes including B-Mode, M-Mode, Color Doppler, and Power Doppler. Features include a 15" color LCD, backlit keyboard, integrated speakers, onboard patient data management, and lithium-ion battery. Probes include convex, linear, and sector probes ranging from 1.5-13 MHz for various applications like vascular, OB/GYN, and small parts imaging.
1) USG is not always accurate in detecting small renal calculi less than 5mm or mid/lower ureteric calculi, while CT is the gold standard for detecting all calculi. However, CT should be used cautiously due to radiation risks.
2) USG is sensitive for detecting fatty liver but cannot detect inflammation or early fibrosis. Liver biopsy is currently needed to assess nonalcoholic steatohepatitis, though new techniques like fibroscan and MR elastography may provide noninvasive alternatives.
3) Lymph nodes need to be at least 10mm on USG to be considered significant or diagnostic of mesenteric adenitis in children.
1. The document outlines the workflow and procedures for performing an emergent CT brain perfusion scan for a potential stroke patient. Key steps include alerting necessary personnel, transporting the patient directly to the CT department, performing a non-contrast head CT to check for hemorrhage, and if no hemorrhage is found, performing a CT brain perfusion scan according to the specified protocol.
2. The protocol utilizes a dual-phase CTA technique with 80kV, 50mA scans and intravenous injection of contrast to generate perfusion maps of cerebral blood flow, volume, mean transit time and time to peak to identify areas of reduced flow indicative of a stroke and its severity.
3. If a stroke
Describes cross sectional anatomy of the mediastinum , and lobar and segmental anatomy of the lung with teaching points and radiological guidelines and multiple examples of lobar and segmental pathologies and how we localize these pathologies .Also the types of chest CT images and indications of chest CT.
The document discusses the anatomy of the mediastinum, which is the central compartment of the thoracic cavity located between the lungs. It describes how the mediastinum is divided into three compartments - superior, anterior, and posterior. Each compartment contains different structures like blood vessels, lymph nodes, and organs. Computed tomography (CT) is often used to further examine abnormalities detected on chest x-rays by providing detailed images of mediastinal structures and lesions in axial, coronal, and sagittal planes. Key CT features of various mediastinal structures are also outlined.
Tuberculosis is a chronic bacterial infection caused by Mycobacterium tuberculosis that primarily affects the lungs. It spreads through inhaling droplets from an infected person and can spread to other parts of the body. Symptoms include cough, weight loss, fever and night sweats. Diagnosis involves chest x-ray, sputum culture and tuberculin skin test. Treatment requires taking multiple antibiotics daily for 6-12 months under direct observation to prevent drug resistance and cure the infection.
1) Tuberculosis is caused by germs that usually infect the lungs but can spread to other parts of the body.
2) TB germs are spread through the air when an infected person coughs, sneezes or laughs, but casual contact is not a risk.
3) There is a difference between TB infection, where germs are present but dormant, and TB disease, where germs are actively multiplying - only those with active disease can spread it.
My Powerpoint on Tuberculosis, includes:
What is the incidence and prevalence?
What are the symptoms?
How is it diagnosed?
How is it treated?
What are the treatment guidelines?
1. La tuberculosis es una enfermedad infecciosa causada por la bacteria Mycobacterium tuberculosis que afecta principalmente los pulmones. 2. La tuberculosis ha afectado a la humanidad por miles de años y se han encontrado evidencias de la enfermedad en momias egipcias y reliquias de India y China. 3. A nivel mundial, la tuberculosis continúa siendo un problema grave de salud pública, especialmente en países pobres, y se estima que un tercio de la población mundial está infectada.
Freedom Pico DICOM Workstation for Single Radiologist ? Cardiac Cath labInnowave Healthcare
The Innowave Freedom Pico is member of the Innowave Freedom web family of applications
utilizing the unique Innowave Hybrid deployment approach that combine the flexibility and
ease of use of cloud technology with local storage.
Freedom Pico is a Radiology workflow solution focused on independent radiologist offering the
abilities. The Freedom PICO XA is optimized and configured to provide maximum performance
workstation for use in intervention Radiology Clinics
• View DICOM Images from CT, MRI, CR, DR, US, XA etc.
View DICOM Images from CT, MRI, CR, DR, US, XA etc.
• Has a built-in 2TB redundant storage (RAID1) enough to store 80,000 uncompressed High
Resolution X Rays Images. Cine loops and DICOM images from various modalities.
• Create DICOM CD DVD
• COPOSE FLEXIBLE DICOM FILMS and print on DICOM Printers
• DICOM Plain Paper printing as well as creating PDF electronic film format.
• Teleradiology for home reporting or pear-to-pear consulting.(Based on Prepaid Card )
The document summarizes an upcoming webinar on new developments in MPEG standards. It will discuss Versatile Video Coding (VVC), MPEG-H 3D Audio Baseline Profile, video-based point cloud compression (V-PCC), and MPEG Immersive Video (MIV). The webinar will provide overviews of each standard and their applications, as well as results from recent verification tests that evaluated subjective quality and performance. Speakers will include leaders from MPEG working groups and the Joint Video Experts Team.
This document discusses computer hardware components and systems. It covers the main types of computer systems like supercomputers, mainframes, and personal computers. It then describes the system unit, hardware components, interface ports, peripheral devices for input, output, and storage. The document concludes with an overview of computer networks like WANs, LANs, and how the internet functions.
Meditech produce a wide range of medical products used in hospitals and clinics, such as EKG machine, Multiparameter Patient Monitor, Defibrillator, Ultrasound scanner, Pulse Oximeter, Fetal Doppler ,Fetal monitor, Blood Pressure, Visual stethoscope ..
All of our products have been approved by ISO13485 and have passed CE Certificates. We stick to delivering our high quality product and best service to our global base of customers.
The LOGIQ e ultrasound system combines the performance of a cart-based system with the portability of a laptop. It is designed for general and specialty imaging applications. Key features include a 15-inch high resolution LCD display, lithium ion battery, and docking cart for extended use. The system offers B-mode, M-mode, Doppler, and specialty imaging modes along with calculation packages and reporting tools.
The Kodak CR800 DirectView system is a single-cassette computed radiography system that provides fast, efficient, and productive x-ray imaging. It can process up to 62 cassettes per hour and make images available for review in under 33 seconds. The system features an easy-to-use interface, options for enhancing image quality, and capabilities for streamlining workflow and improving productivity.
The PACS Nano is a path breaking design which exploits cloud computing and the availability off-the-shelf computer hardware to build an affordable, easy-to-use PACS that delivers robust performance with comprehensive functionality.
A solutions specifically designed for smaller hospitals and diagnostic centres targeting up to 10,000 patient exams per year is adequate for most radiology departments.
The simplicity of design also minimizes the cost and efforts for IT Administration, training and support, as even complex workflows involving multiple sites and teleradiology can be easily managed using Freedom Cloud sync.
The software allows users to access both images & reports from any computer in the facility.
The Innowave Freedom Nano supports audit trails image tracking for easy system management and ability to monitor and control the movement of patient studies
All usage statistics and key dashboards are available to display key operation deliverable like turnaround time etc.
The DICOM Image Viewer support basic DICOM print and archiving in CD, DVD media.
Innowave Healthcare has created enhanced reporting workflow solution provided for the Radiologist and Typist by seamlessly integrating “Microsoft word” with Freedom PACS.
The TDP 324W - Your Efficient Wristband Printing SolutionAngela Carver
Businesses around the country and the world need solutions for identifying “human inventory” such as hospital patients, amusement park attendees and much more. To track these people efficiently and effectively the proper technology must be in place. TSC Printers has developed a compact, efficient wristband printer. This device is the TDP-324W. The TDP-324W wristband printer features industry leading high resolution printing, wristband roll flexibility, customizable with built in flash card reader, front LCD display and downtime keyboard interface. This Cerner certified wristband printer is a top contender for your healthcare, entertainment, or emergency response operation. In the healthcare field the TDP-324W is used for patient ID tracking, hospital admission processing and in hospital nurseries. Many entertainment/hospitality businesses such as amusement parks, water parks and night clubs use this wristband printer for attendee tracking and ticketing. The government/emergency industry has a much wider range of use for the TDP-324W including inmate tracking, emergency triage tracking, crowd control, animal identification and for monitoring restricted access areas.
All of these business types enjoy the benefits of implementing a device such as the TDP-324W. The low upfront cost, high customizability and reliability makes it a perfect choice for any operation dealing with precious human tracking. For more information on wristband printers please contact Datex today. Datex is an industry leading logistics and supply chain solutions provider, supplying a wide range of industries with the necessary software, hardware and service combination to effectively manage their business.
The document describes the major components and systems of a computed tomography (CT) scanner. It discusses three main systems: the imaging system, computer system, and image display/recording/storage system. The imaging system includes components like the x-ray tube, generator, collimator, filter, and detector that work together to produce x-rays and detect the attenuated radiation passing through the patient. The computer system receives the digital data and performs image reconstruction. The display system shows the reconstructed images and allows storage and recording. Key components discussed in more detail include the gantry assembly, detectors, and computer processing architecture.
The Wireless PTZ Network Camera, model TV- IP651W, provides video monitoring over a large area. Pan the camera side-to-side a remarkable 340 degrees and tilt up-and-down 115 degrees from any Internet connection.
Opticon Việt Nam là văn phòng đại diện của Opticon Hà Lan. Chuyên cung cấp, phân phối các loại máy quét mã vạch chất lượng cao mang thương hiệu Nhật Bản. Sản phẩm máy quét của Opticon rất đa dạng từ máy quét cầm tay, máy quét để bàn, máy quét dùng trong công nghiệp, máy quét di động... có thể quét tốt các loại mã vạch 1D và 2D
Power generation, process automation, and factory automation in manufacturing industries require rigorous, continuous monitoring in the control room. Yokogawa's DX series recorders are purpose-built data acquisition systems designed for industrial automation.
This document provides specifications for the PHL8254 mobile computer, including its operating system, memory, display, communication capabilities, barcode scanning capabilities, and durability. It can run Windows CE or Windows Mobile, has 128MB RAM and flash memory, a 3.5" color touchscreen display, and connectivity options including Bluetooth, WiFi, and GPRS. It also has a 2D imager for scanning barcodes and can scan various 1D and 2D barcode symbologies. The device is IP65 rated and has passed various regulatory and safety compliance tests.
As one of the leading medical equipment manufacturers, we are involved in R&D, manufacturing and marketing. And as a global enterprise, our products are selling in more than 70 countries worldwide. We produce a wide range of Veterinary medical products used in Veterinary hospitals and clinics
Tuberculosis is a chronic bacterial infection caused by Mycobacterium tuberculosis that primarily affects the lungs. It spreads through inhaling droplets from an infected person and can spread to other parts of the body. Symptoms include cough, weight loss, fever and night sweats. Diagnosis involves chest x-ray, sputum culture and tuberculin skin test. Treatment requires taking multiple antibiotics daily for 6-12 months under direct observation to prevent drug resistance and cure the infection.
1) Tuberculosis is caused by germs that usually infect the lungs but can spread to other parts of the body.
2) TB germs are spread through the air when an infected person coughs, sneezes or laughs, but casual contact is not a risk.
3) There is a difference between TB infection, where germs are present but dormant, and TB disease, where germs are actively multiplying - only those with active disease can spread it.
My Powerpoint on Tuberculosis, includes:
What is the incidence and prevalence?
What are the symptoms?
How is it diagnosed?
How is it treated?
What are the treatment guidelines?
1. La tuberculosis es una enfermedad infecciosa causada por la bacteria Mycobacterium tuberculosis que afecta principalmente los pulmones. 2. La tuberculosis ha afectado a la humanidad por miles de años y se han encontrado evidencias de la enfermedad en momias egipcias y reliquias de India y China. 3. A nivel mundial, la tuberculosis continúa siendo un problema grave de salud pública, especialmente en países pobres, y se estima que un tercio de la población mundial está infectada.
Freedom Pico DICOM Workstation for Single Radiologist ? Cardiac Cath labInnowave Healthcare
The Innowave Freedom Pico is member of the Innowave Freedom web family of applications
utilizing the unique Innowave Hybrid deployment approach that combine the flexibility and
ease of use of cloud technology with local storage.
Freedom Pico is a Radiology workflow solution focused on independent radiologist offering the
abilities. The Freedom PICO XA is optimized and configured to provide maximum performance
workstation for use in intervention Radiology Clinics
• View DICOM Images from CT, MRI, CR, DR, US, XA etc.
View DICOM Images from CT, MRI, CR, DR, US, XA etc.
• Has a built-in 2TB redundant storage (RAID1) enough to store 80,000 uncompressed High
Resolution X Rays Images. Cine loops and DICOM images from various modalities.
• Create DICOM CD DVD
• COPOSE FLEXIBLE DICOM FILMS and print on DICOM Printers
• DICOM Plain Paper printing as well as creating PDF electronic film format.
• Teleradiology for home reporting or pear-to-pear consulting.(Based on Prepaid Card )
The document summarizes an upcoming webinar on new developments in MPEG standards. It will discuss Versatile Video Coding (VVC), MPEG-H 3D Audio Baseline Profile, video-based point cloud compression (V-PCC), and MPEG Immersive Video (MIV). The webinar will provide overviews of each standard and their applications, as well as results from recent verification tests that evaluated subjective quality and performance. Speakers will include leaders from MPEG working groups and the Joint Video Experts Team.
This document discusses computer hardware components and systems. It covers the main types of computer systems like supercomputers, mainframes, and personal computers. It then describes the system unit, hardware components, interface ports, peripheral devices for input, output, and storage. The document concludes with an overview of computer networks like WANs, LANs, and how the internet functions.
Meditech produce a wide range of medical products used in hospitals and clinics, such as EKG machine, Multiparameter Patient Monitor, Defibrillator, Ultrasound scanner, Pulse Oximeter, Fetal Doppler ,Fetal monitor, Blood Pressure, Visual stethoscope ..
All of our products have been approved by ISO13485 and have passed CE Certificates. We stick to delivering our high quality product and best service to our global base of customers.
The LOGIQ e ultrasound system combines the performance of a cart-based system with the portability of a laptop. It is designed for general and specialty imaging applications. Key features include a 15-inch high resolution LCD display, lithium ion battery, and docking cart for extended use. The system offers B-mode, M-mode, Doppler, and specialty imaging modes along with calculation packages and reporting tools.
The Kodak CR800 DirectView system is a single-cassette computed radiography system that provides fast, efficient, and productive x-ray imaging. It can process up to 62 cassettes per hour and make images available for review in under 33 seconds. The system features an easy-to-use interface, options for enhancing image quality, and capabilities for streamlining workflow and improving productivity.
The PACS Nano is a path breaking design which exploits cloud computing and the availability off-the-shelf computer hardware to build an affordable, easy-to-use PACS that delivers robust performance with comprehensive functionality.
A solutions specifically designed for smaller hospitals and diagnostic centres targeting up to 10,000 patient exams per year is adequate for most radiology departments.
The simplicity of design also minimizes the cost and efforts for IT Administration, training and support, as even complex workflows involving multiple sites and teleradiology can be easily managed using Freedom Cloud sync.
The software allows users to access both images & reports from any computer in the facility.
The Innowave Freedom Nano supports audit trails image tracking for easy system management and ability to monitor and control the movement of patient studies
All usage statistics and key dashboards are available to display key operation deliverable like turnaround time etc.
The DICOM Image Viewer support basic DICOM print and archiving in CD, DVD media.
Innowave Healthcare has created enhanced reporting workflow solution provided for the Radiologist and Typist by seamlessly integrating “Microsoft word” with Freedom PACS.
The TDP 324W - Your Efficient Wristband Printing SolutionAngela Carver
Businesses around the country and the world need solutions for identifying “human inventory” such as hospital patients, amusement park attendees and much more. To track these people efficiently and effectively the proper technology must be in place. TSC Printers has developed a compact, efficient wristband printer. This device is the TDP-324W. The TDP-324W wristband printer features industry leading high resolution printing, wristband roll flexibility, customizable with built in flash card reader, front LCD display and downtime keyboard interface. This Cerner certified wristband printer is a top contender for your healthcare, entertainment, or emergency response operation. In the healthcare field the TDP-324W is used for patient ID tracking, hospital admission processing and in hospital nurseries. Many entertainment/hospitality businesses such as amusement parks, water parks and night clubs use this wristband printer for attendee tracking and ticketing. The government/emergency industry has a much wider range of use for the TDP-324W including inmate tracking, emergency triage tracking, crowd control, animal identification and for monitoring restricted access areas.
All of these business types enjoy the benefits of implementing a device such as the TDP-324W. The low upfront cost, high customizability and reliability makes it a perfect choice for any operation dealing with precious human tracking. For more information on wristband printers please contact Datex today. Datex is an industry leading logistics and supply chain solutions provider, supplying a wide range of industries with the necessary software, hardware and service combination to effectively manage their business.
The document describes the major components and systems of a computed tomography (CT) scanner. It discusses three main systems: the imaging system, computer system, and image display/recording/storage system. The imaging system includes components like the x-ray tube, generator, collimator, filter, and detector that work together to produce x-rays and detect the attenuated radiation passing through the patient. The computer system receives the digital data and performs image reconstruction. The display system shows the reconstructed images and allows storage and recording. Key components discussed in more detail include the gantry assembly, detectors, and computer processing architecture.
The Wireless PTZ Network Camera, model TV- IP651W, provides video monitoring over a large area. Pan the camera side-to-side a remarkable 340 degrees and tilt up-and-down 115 degrees from any Internet connection.
Opticon Việt Nam là văn phòng đại diện của Opticon Hà Lan. Chuyên cung cấp, phân phối các loại máy quét mã vạch chất lượng cao mang thương hiệu Nhật Bản. Sản phẩm máy quét của Opticon rất đa dạng từ máy quét cầm tay, máy quét để bàn, máy quét dùng trong công nghiệp, máy quét di động... có thể quét tốt các loại mã vạch 1D và 2D
Power generation, process automation, and factory automation in manufacturing industries require rigorous, continuous monitoring in the control room. Yokogawa's DX series recorders are purpose-built data acquisition systems designed for industrial automation.
This document provides specifications for the PHL8254 mobile computer, including its operating system, memory, display, communication capabilities, barcode scanning capabilities, and durability. It can run Windows CE or Windows Mobile, has 128MB RAM and flash memory, a 3.5" color touchscreen display, and connectivity options including Bluetooth, WiFi, and GPRS. It also has a 2D imager for scanning barcodes and can scan various 1D and 2D barcode symbologies. The device is IP65 rated and has passed various regulatory and safety compliance tests.
As one of the leading medical equipment manufacturers, we are involved in R&D, manufacturing and marketing. And as a global enterprise, our products are selling in more than 70 countries worldwide. We produce a wide range of Veterinary medical products used in Veterinary hospitals and clinics
The VuPad is a new portable ultrasound device introduced by Sonomed Escalon that delivers high quality images through an intuitive touchscreen interface. It offers superior ultrasound imaging for ophthalmic applications through enhanced focus rendering and features interchangeable probes for UBM, B-Scan, and A-Scan exams. The compact yet powerful VuPad allows users to access advanced ultrasound functionality in more locations through its portable and adaptable design.
GlobalMed provides telemedicine solutions worldwide through partnerships in over 55 countries. They offer integrated telemedicine ecosystems including medical peripherals, software, and education/training to support remote healthcare delivery. Case studies demonstrate successful implementations across various specialties and countries, improving access to care through technologies like ultrasound, stethoscopes, and spirometers.
Opticon Việt Nam là văn phòng đại diện của Opticon Hà Lan. Chuyên cung cấp, phân phối các loại máy quét mã vạch chất lượng cao mang thương hiệu Nhật Bản. Sản phẩm máy quét của Opticon rất đa dạng từ máy quét cầm tay, máy quét để bản, máy quét dùng trong công nghiệp, máy quét di động... có thể quét tốt các loại mã vạch 1D và 2D
This document compares video compression standards MPEG-4 and H.264. It provides an overview of both standards, including their development histories and profiles. MPEG-4 was the first standard to support object-based video coding and compression of different media types. H.264 provides significantly better compression than prior standards like MPEG-2 at the cost of higher computational complexity. Both standards are widely used today for applications ranging from mobile and internet video to television broadcasting and digital cinema.
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
Discover timeless style with the 2022 Vintage Roman Numerals Men's Ring. Crafted from premium stainless steel, this 6mm wide ring embodies elegance and durability. Perfect as a gift, it seamlessly blends classic Roman numeral detailing with modern sophistication, making it an ideal accessory for any occasion.
https://rb.gy/usj1a2
Top mailing list providers in the USA.pptxJeremyPeirce1
Discover the top mailing list providers in the USA, offering targeted lists, segmentation, and analytics to optimize your marketing campaigns and drive engagement.
How to Implement a Strategy: Transform Your Strategy with BSC Designer's Comp...Aleksey Savkin
The Strategy Implementation System offers a structured approach to translating stakeholder needs into actionable strategies using high-level and low-level scorecards. It involves stakeholder analysis, strategy decomposition, adoption of strategic frameworks like Balanced Scorecard or OKR, and alignment of goals, initiatives, and KPIs.
Key Components:
- Stakeholder Analysis
- Strategy Decomposition
- Adoption of Business Frameworks
- Goal Setting
- Initiatives and Action Plans
- KPIs and Performance Metrics
- Learning and Adaptation
- Alignment and Cascading of Scorecards
Benefits:
- Systematic strategy formulation and execution.
- Framework flexibility and automation.
- Enhanced alignment and strategic focus across the organization.
Understanding User Needs and Satisfying ThemAggregage
https://www.productmanagementtoday.com/frs/26903918/understanding-user-needs-and-satisfying-them
We know we want to create products which our customers find to be valuable. Whether we label it as customer-centric or product-led depends on how long we've been doing product management. There are three challenges we face when doing this. The obvious challenge is figuring out what our users need; the non-obvious challenges are in creating a shared understanding of those needs and in sensing if what we're doing is meeting those needs.
In this webinar, we won't focus on the research methods for discovering user-needs. We will focus on synthesis of the needs we discover, communication and alignment tools, and how we operationalize addressing those needs.
Industry expert Scott Sehlhorst will:
• Introduce a taxonomy for user goals with real world examples
• Present the Onion Diagram, a tool for contextualizing task-level goals
• Illustrate how customer journey maps capture activity-level and task-level goals
• Demonstrate the best approach to selection and prioritization of user-goals to address
• Highlight the crucial benchmarks, observable changes, in ensuring fulfillment of customer needs
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Company Valuation webinar series - Tuesday, 4 June 2024FelixPerez547899
This session provided an update as to the latest valuation data in the UK and then delved into a discussion on the upcoming election and the impacts on valuation. We finished, as always with a Q&A
Industrial Tech SW: Category Renewal and CreationChristian Dahlen
Every industrial revolution has created a new set of categories and a new set of players.
Multiple new technologies have emerged, but Samsara and C3.ai are only two companies which have gone public so far.
Manufacturing startups constitute the largest pipeline share of unicorns and IPO candidates in the SF Bay Area, and software startups dominate in Germany.
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LOGIQ P5 Premium
1. GE Medical Systems – Americas: 888-202-5528
P.O. Box 414, Milwaukee, Wisconsin 53201 U.S.A.
GE Ultrasound - Europe: +49-212-28020
P.O. Box 1105 60 D-42665 Solingen
GE Ultrasound - Asia: 65-291-8528
Singapore: 298 Tiong Bahru Road, #15-01/06
Tiong Bahru Plaza, Singapore 168730
Internet: http://www.gemedicalsystems.com
Rev4.0.1
October 13, 2010
LOGIQ P5 Premium
TruScan Imaging Technology
Product Description
User Interface
Operator Keyboard
The LOGIQ® P5 Premium is a high performance, highly mobile and easy to use multipurpose color Doppler Ultrasound imaging system designed for Obstetrical, Gynecological, Cardiac, Musculoskeletal, Vascular, Urological, Small Parts, Superficial, Pediatric, Neonatal, Transcranial, Abdominal and other applications.
• Keyboard Width: 43cm
Keyboard Height: 84cm
• Alphanumeric Keyboard
• Ergonomic Hard Key Operations
• Indicator Lights Identify Activated Keys
• Integrated Recording Keys for Remote Control of Up to 2 Peripheral Devices and DICOM Devices
• 8 TGC Pods, with Re-mapping Functionality at Any Depth
System Architecture
Monitor
TruScan™ Architecture – GE’s innovative, software-intensive platform provides exceptional computational power, image-manipulation capabilities, real time 4D capabilities, workflow flexibility and product upgradeability.
• 15 inch TFT LCD
Electrical Power
• XGA Format:
- Display size: 1024 x 768
• Voltage: 100-120Vac or 220-240Vac
- Recording area: 800 x 600
• Frequency: 50/60 Hz
• Adjustable Tilt/Swivel
• Power: Max. 750 VA with Built-in and On-Board Peripherals
• Digital Brightness/Contrast Adjustment
TruAccess is the GE advanced, raw-data processing technology that has helped transform ultrasound imaging. By accessing raw data, TruScan achieves excellent image quality and ensures exceptional image management capabilities.
• Maximum Thermal Output: 2200 BTU/hr.
System Overview
Console Design
Applications
• 3 Active Probe Ports
• Abdominal
• Integrated HDD (Capacity: 250GB)
• Obstetrical
• Integrated DVD-R/W Drive
SmartScan utilizes new advances in operating algorithms and system operations to aid in improving image acquisition and patient throughput while helping to increase diagnostic confidence and exam consistency.
• Gynecological
• On-board Storage for Peripherals (Max 3 peripherals)
• Cardiac
• Musculoskeletal
• Wheels
• Vascular
- Wheel diameter: 12.5cm
• Urological
- Integrated locking mechanism that provides rolling lock and optional caster swivel lock
• Small Parts and Superficial
ComfortScan, our advanced user- friendly designed software suite helps to maximize productivity. It simplifies every exam you perform.
• Pediatric and Neonatal
• Transcranial
• Probe Holders, Removable for Cleaning and Washing
Scanning Methods
• Gel Holder, Removable for Cleaning and Washing
• Electronic Sector
General Specification
• Electronic Convex
• Air Filters, Easily Removable
• Electronic Linear
Dimensions and Weight
• Front Handle
• Mechanical Volume Sweep
• Height: 135/141 cm
• Rear Handle (Option)
Transducer Types
• Width: 43cm
• Drawer (Option)
• Sector Phased Array
• Depth: 64cm
• Probe Cable Hanger (Option)
• Convex Array
• Weight: approx. 75 kg (165 lb.)
• Urology Probe Holder (Option)
LOGIQ P5 DOC0518685 Page 1 of 14
2. • Simultaneous Capability
• Urological Calcs
• Microconvex Array
- B/PW
• Renal Calcs
• Linear Array
- B/CFM or PDI
• Real-time Auto Doppler Calculations
• Doppler Pencil
- B/M
• TruAccess, Raw Data Processing
• Bi-plane Microconvex Array
- B + CFM/M
• MpegView
• Real time 4D volume probes
- Realtime Triplex Mode
• Key Macro
(B + CFM or PDI/PW)
Operating Modes
• Network Storage
- B-Flow + PW (option)
• B-Mode
• Dual B (B/B)
• Auto Focus
• M-Mode
- Dual B + CFM or PDI
• Wide Field of View on convex
• Crossbeam
• Selectable Alternating Modes
• Simultaneous Display on BE9CS probe
• SRI
- B/M
• Quick Save
- B/PW
• Elastography (option)
• B-Steer
- B + CFM/M
• Anatomical M Mode (option)
• Virtual Convex with X-Beam
- B + CFM (PDI)/PW
• Color Flow Mode (CFM)
• ED Report
- 3D – Mode
• Power Doppler Imaging (PDI) with Directional Map
- 3D – Color Mode (option)
• Flexible Monitor Arm
- B/CW (option)
System Options
• PW Doppler with High PRF
- B + CFM (PDI)/CW (option)
• Auto IMT
• B-Flow (option)
• Multi Image Split Screen
- Live and/or frozen
• Elastography
• Steered CW Doppler (option)
- B + B/CFM or PDI
• TVI
• Dedicated CW Doppler (option)
- Independent CINE playback
• Stress Echo
• Coded Contrast Imaging (option)
- Quad screen format
• DICOM 3.0 Connectivity
• 3D/4D Volume Modes (option)
• Zoom: Write/Read/Pan
• ECG
System Standard Features
• Colorized Image
• Coded Contrast Imaging
- Colorized B
• Hard Disk partition of 50GB for image storage
• CW Doppler
- Colorized M
- Colorized PW
• Anatomical M-Mode
• Without compression:
- Colorized CW (option)
• LOGIQView
• Raw DICOM: HDD capacity 33.000 images
• Time line Display
• B-Flow
Independent Dual B/PW Display
• Easy 3D (Baby Face, Vascular)
• DICOM:
Display Formats:
• Advanced 3D, with 3D Landscape
Top/ Bottom selectable format (Size: 1/2:1/2; 1/3:2/3; 2/3:1/3)
- Image Only: HDD capacity 71.000 images
• Real time 4D
• 3rd. probe port
Side/Side selectable format
• CINE Memory Frames (60 sec) (192MB) >1000 depending on probe, imaging depth, line density and field of view
• 3-Pedal Foot Switch, with Programmable Functionality
(1/2:1/2; 1/3:2/3; 0:1)
Switchable after freeze
• TVI
• Rear Handle
• Real-time Triplex Mode at any Depth and PRF
• Stress Echo
• Drawer
• Elastography
• Probe Cable Hanger
• Automatic Optimization
• Urology Probe Holder
- Auto Tissue Optimization: ATO
• 1-Pedal Foot Switch
- Auto Spectrum Optimization: ASO
Display Annotation
• Remote Control Switch
- Auto Color Optimization: ACO
• 1st. Patient Name: First, Last, & Middle name each store 27 characters. Up to 62 total characters displayed.
• PDF report conversion
• Coded harmonic Imaging
• Coded Excitation
Media & Peripheral Options
• Virtual Convex
• Integrated Mounting Kits and Remote Controls Provided for
• 2nd. Patient ID: 31 characters. Up to 27 total characters displayed.
• Patient Information Database
• Image Archive on Hard Drive and DVD
- B/W Digital thermal printer
• Age, Sex and Birth Date (optional)
• Easy Backup for Media
- Color Digital thermal printer
• Hospital Name: 23 characters.
• Report Designer
- DVD Video Recorder
• Date: 3 Types selectable MM/DD/YY, DD/MM/YY,
• Vascular Calcs
• Cardiac Calcs
Display Modes
• OB Calcs
• Live and Stored Display Format: Full size and split screen - both w/ thumbnails. For Still and CINE
• YY/MM/DD
• Fetal Trending
• Time: 2 types selectable
• Multi Gestational Calcs
• 24 hours, 12 hours
• Hip Dysplasia Calcs
LOGIQ P5 Page 2 of 14
• Review Image Format: 4x4, and "thumbnails". For Still and CINE
• Gestational Age from LMP/EDD/GA/BBT
• Gynecological Calcs
3. General System Parameters
• Display Format: Full size, 4x4, and "thumbnails"
• Probe Name
• Gray Map names
• Live image and stored image side- by-side display
• Probe Orientation
System Setup
• Depth Scale Marker
• Pre-programmable Categories
• CD-R storage: 650, 700 MB
• Lateral Scale Marker
• User Programmable Preset Capability
• DVD storage: -R 4,7GB
• Focal Zone Markers
• Conversion to MPEG, JPEG, AVI (SaveAs) and WMV (MPEGvue) file formats
• Image Depth
• Factory Default Preset Data
• Zoom Depth
• Languages: English, French, German, Spanish, Italian, Portuguese, Russian, Greek, Swedish, Danish, Dutch, Finnish, Norwegian, Japanese, Chinese
• B-Mode
• Internal Hard Drive partition of 50GB for Image Storage
- Gain
- Dynamic Range
• External USB 2.0 Hard Drive support for Import, Export, DICOM Read, SaveAs and MPEGVue
• OB Report Format: 5 Types, Tokyo Univ., Osaka Univ., USA, Europe, and ASUM
- Imaging Frequency
- Edge Enhance
- Frame Averaging
• USB 1.1 / 2.0 Memory Stick support for SaveAs and MPEGVue
• EFBW: 10 types, Japan, USA and Europe (Tokyo Univ., Osaka Univ., Tokyo Shinozuka, JSUM, German, Shephard, Merz, Hadlock/Shephard, Williams, Brenner)
- Gray Map
- ATO On/Off
• Network Storage support for Import, Export, DICOM Read, SaveAs, MPEGVue
• M-Mode
- Gain
- Dynamic Range
Connectivity
• 348 Pre-defined Annotations and User Programmable Libraries/Annotations
- Time Scale
• Ethernet network connection
• Doppler Mode
• RS-232 serial data output (need a converter cable)
- Gain
• Body Patterns: 140 human types plus 14 animal types
- Angle
• DICOM 3.0 (option)
- Sample Volume Depth and Width
- Verify
• Customized Comment Home Position
- Wall Filter
- Print
- Velocity and/or Frequency Scale
- Store
- Spectrum Inversion
- Modality Worklist
- Time Scale
Complete User Manual available on board through Help (F1)
- Storage Commitment
- PRF
- Modality Performed Procedure Step (MPPS)
- Doppler Frequency
User Manual and Service Manual are included on CD with each system. A printed Manual is available upon request.
• Color Flow Mode
- Media Exchange
- Line Density
- Off network / mobile storage queue
- Frame Averaging
- Packet Size
CINE Memory/Image Memory
- Query/Retrieve; supported on Centricity and other compatible vendors
- Color Scale
• CINE Memory: 192MB
- Color Velocity Range and Baseline
• Dual Image CINE Display
- Color Threshold Marker
- Structured Reporting; compatible with LOGIQworks
• Quad Image CINE Display
- Color Gain
• CINE Gauge and CINE Image Number Display
- PDI
- Public SR Template
- Color Scale Inversion
- Media Store of SR
• CINE Review Loop
- Color Doppler Frequency
- iLinq capability
• CINE Review Speed: 20 steps (10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 150, 200, 300, 400, 500, 600, 700, 800, 900, 1000%)
• TGC Curve
• Acoustic Frame Rate
Scanning Parameters
• Cine Frame Number
• VCR Counter
• Selectable CINE Sequence for CINE Review
• Digital Beamformer
• VCR Status
• 2560 processing channels
• VCR Playback Counter
• Measurements, Calculations and Annotations on CINE Playback
• Frame Rate: > 700 depending on
• Body Pattern
• Application Name
preset
• Scrolling Timeline Memory
• Displayed Imaging Depth: 0 – 30 cm
• Measurement Results
• Cine Capture Function
• Minimum Depth of Field: 0 –2cm
• Operator Message
• Displayed Acoustic Output
(probe dependent)
• Maximum Depth of Field: 0 – 30 cm
- TIS: Thermal Index Soft Tissue
Image Storage
- TIC: Thermal Index Cranial (Bone)
(probe dependent)
• On-board database of patient information from past exams
• Transmission Focus
- TIB: Thermal Index Bone
- MI: Mechanical Index
• 1 – 8 Focus Points Selectable (probe
• Storage Format: DICOM/Raw Data
• % of Power output
• DICOM Still Image Storage Size:
and application dependent)
• Biopsy Guide Line and/or Zone
- Gray Image: ~300K to ~1.3 MB
Focal Zone Position, B-Mode 16
• Heart Rate
- Color Image: ~900K to 1.9 MB
steps, CFM 64 steps
• Multiframe
LOGIQ P5 Page 3 of 14
• Multi-Frequency/Wideband
4. • Dynamic Range: 30 – 120 dB, 3 dB step
• Line Density: 5 steps
Technology
• Frequency Range 1 to 13MHz
• Line Density Zoom: 5 steps
• 256 Shades of Gray
• Edge Enhance: 6 steps
• Frame Average: 7 steps
• Up to 197 db processing dynamic
• Gray Scale Map: 23 types
• PRF: 280 Hz – 19600 Hz
• Clear Map: 23 types
• Spatial Filter: 6 steps
range
• 16,777,216 Hues of Color
• M Gain: 0 – 98 dB, 2 dB step
• Gain: 0 – 40 dB, 0.5 dB step
• Adjustable Field of View (FOV) up to 170 degree depending on probe
• Wall Filter:4 steps depend on probe/application
Anatomical M-Mode
• Image Reverse: Right/Left
• Scanning Size (FOV or Angle): probe dependent
M-mode cursor adjustable at any plane
• Image Rotation: 4 steps
• CF/PDI Vertical Size (mm) of ROI: default pre-settable
Rotation: 0°, 90°, 180°, 270°
Can be activated from a CINE loop from a live or stored image
• CF/PDI Center Depth (mm) of ROI: default pre-settable
B-Mode
Available with Color Flow Mode
M & A capability
• B/M Acoustic Output: 0 – 100%, 2% step
• CF/PDI Frequency: Up to 3 steps, depend on probe
PW/CW-Mode
• Image Reverse: On/Off
• Color Map: 20 types depend on application
• Maximum and Minimum Velocity Scales
• B Color: 10 types
• Thermal Index: TIC, TIS, TIB
• Transparent: 5 steps
- Max: 10 m/sec
• Softener: 4 steps
• Color Threshold: 0 – 100 %, 5 % step
- Min: 5 cm/sec
• Focus Number: 8 steps
• Auto Line Density: On/Off pre- settable
• Gray Scale Map: 4 types
• Focus Width: 3 types
• Dynamic Range: 24 – 60, 4 dB step
• Range Focus: On/Off
• PW/CF Ratio: 1, 2, 4
• Base Line: 5 – 95 %, 11 steps
• Compression: 0.5 – 1.5, 0.1 step
• Accumulation: 8 steps
• SV Gate: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16 mm
• Line Density: 4 steps
• Line Density Zoom: 4 steps
Power Doppler Imaging
• Angle Correct: +/- 90°, 1° step
• Suppression: 6 steps
• PDI Map: 13 types
• Spectral Color: 6 types
• Frame Average: 8 steps
• CF/PDI Flash Suppression: 2 steps
• PW Sweep Speed: 8 steps
• Edge Enhance: 6 steps
• CF/PDI Focus Depth: default pre- settable for 0 – 100 % of ROI in depth, 10 % step
• Invert: On/Off
• Scanning Size (FOV or Angle): probe dependent, see probe specifications
• M/PW Display Format: V-1/3B, V- 1/2B, V-2/3B, H-1/2B, H-1/4B, TL only
• CF/PDI Acoustic Output: 0 – 100%, 10% step
• Duplex: On/Off(PW only)
• Gray Scale Map: 23 types
• PW Acoustic Output: 0 – 100 %, 10 % step
• CF/PDI Angle Steer: 0, +/- 20°
• Clear Map: 23 types
• Packet Size: 5 – 16, dependent on probe/application
• Tint Map: 10 types
• Spectral Averaging: 4 steps
• Time Resolution: 4 steps
• Gain: 0 – 98 dB, 2 dB step
• Spatial Filter: 6 steps
• PW/CF Ratio: 1, 2, 4
• Dynamic Range: 30 – 120 dB, 3 dB step
• Frame Average: 7 steps
• Rejection: 15 steps
• PRF: 280 Hz – 19600 Hz
• Gain: 0 – 32 dB, 1 dB step
• Depth: 1 – 30 cm, 1 cm step, depend on probe.
• Power Threshold: 0 – 100 %, 5 % step
• Wall Filter: 5 – 1500 Hz, 22 steps, depend on probe/application
• Rejection: 6 steps
• Gain: 0 – 40 dB, 0.5 dB step
• PW Angle Steer: 0, +/- 5, 10, 15, 20°
• Frequency: Up to 5 steps, depend on probe
• Wall Filter: 7 steps depend on probe/application
• PRF: 640 – 29800 Hz with PW, 50000 Hz with CW
• CF/PDI Frequency: Up to 3 steps, depend on probe
• Sample Volume Depth: 29 steps default pre-settable
• Auto Line Density: On/Off pre- settable
• Auto Line Density: On/Off pre- settable
• CW-Mode (option) is Available on the Following Probes
• Steered Linear: +/- 15°
• Transparent: 5 steps
- 3S
Color Flow Mode
• Invert: On/Off
- 5S
• Base Line: 0 – 100 %, 10 % step
• Accumulation: 8 steps
- 7S
• Invert: On/Off
- 3Sp
• CF/PDI Focus Depth: default pre- settable for 0 – 100 % of ROI in depth, 10 % step
M-Mode
- 5Sp
- P2D
• Sweep Speed: 8 steps
- P6D
• M Color: 10 types
• CF/PDI Flash Suppression: 2 steps
• M/PW Display Format: V-1/3B, V- 1/2B, V-2/3B, H-1/2B, H-1/4B, TL only
• CF/PDI Acoustic Output: 0 – 100%, 10% step
Coded Harmonic Imaging
• B/M Acoustic Output: 0 – 100 %, 2 % step
• Available on the Following Probes
• CF/PDI Angle Steer: 0, +/- 20°
- 3.5C
• Packet Size: 5 – 16, dependent on probe/application
• Rejection: 6 steps
- 3.5CS
LOGIQ P5 Page 4 of 14
5. - 3CRF
- T739
2 types, Available on 3.5C and 3.5CS probes
- 4C
- I739
- 5CS
- 3S
3 type, Available on 4C, 5CS probes
- E8C
- 5S
- Tissue Background Selection: 4 steps
- E8CS
- 7S
- 8C
- 3Sp
• Time Trigger Scan: 0.3, & 0.5 – 10 sec, 0.5 sec step
- ERB
- 5Sp
- BE9CS
- ERB - Linear
• Time Intensity Curve Analysis
- 3S
- 4C
• Accumulation: 8 steps
• SRI-HD
- 5S
- 5CS
- 7S
- 4D3C-L
The LOGIQ P5 is designed for compatibility with commercially available ultrasound contrast agents. Because the availability of these agents is subject to government regulation and approval, product features intended for use with these agents may not be commercially marketed nor made available before the contrast agent is cleared for use. Contrast related product features are enabled only on systems for delivery to an authorized country or region of use. GE Medical Systems makes no claims concerning the safety or effectiveness of contrast agents.
- 3Sp
- 3CRF
- 5Sp
- 8L
Automatic Optimization
- 9L
• Optimize B-Mode, B-Flow image to improve contrast resolution.
- 11L
- i12L
• Selectable amount of contrast resolution improvement (low, medium, high)
- i739
- T739
- 4D3C-L
• Auto-TGC in B-Mode and Color – adjusts overall and axial gain
- 4DE7C
- 4D8C
• Optimize Spectral Waveform – adjusts baseline, invert, PRF (on live image), and angle correction
• Softener: 4 steps
• Line Density: 4 steps
• Line Density Zoom: 4 steps
• Algorithm works on focal zone/ number and depth changes
• Suppression: 6 steps
• Edge Enhance: 6 steps
Elastography Mode (option)
• Available on stored or live image
• Gray Scale Map: 23 types
• Available in B-Mode, B-Flow, PW Doppler, Color
• Elasto Acoustic Output: 0 – 100%
• Clear Map: 23 types
• Line Density
• Tint Map: 10 types
• Elasto Frequency
• Gain: 0 – 98 dB, 2 dB step
• Frame Average
B-Flow (option)
• Dynamic Range: 30 – 120 dB, 3 dB step
• Axial Smoothing
• Available on 8L, 9L, 10L, 11L, i739 and T739 Probes
• Later Smoothing
• Rejection: 6 steps
• Window
• Background: On/Off
• Auto Line Density: On/Off pre- settable
• Frame Reject
• Sensitivity/PRI: 14 steps
• Noise Reject
• Line Density: 4 steps
• Frequency: Up to 5 steps, depend on probe
• Transparency Map
• Edge Enhance: 6 steps
• Color and Gray Map
• Frame Average: 8 steps
• Soft Compress
• Gray Scale Map: 23 types
Coded Excitation
• Hard Compress
• Clear Map: 23 types
• Available on the following probes the Following Probes
• Quality Graph : On/Off
• Tint Map: 10 types
• Available on the following Probes
• Dynamic Range: 30 – 120 dB, 3 dB step
- 11L
• 11L
- 12L
• Rejection: 6 steps
- 8C
• Gain: 0 – 98 dB, 2 dB step
- E8C
Auto IMT (option)
• Auto Line Density: On/Off pre- settable
- E8CS
• Automated measurement of the intimae media thickness of common carotid artery
- BE9CS
• Accumulation: 8 steps
- ERB
Result window displayed on screen
Coded Contrast Imaging (option)
Virtual Convex
• Coded Harmonic Angio: Available on 3.5C, 3.5CS, 4C and 5CSprobes
• Provides a Convex Field of View for Convex, Linear and Sector probes
TVI (option)
• Myocardial Doppler Imaging with color overlay on tissue image
- Tissue Background Selection: 4 steps
• Available on the Following Probes
- 8L
• Available on all sector probes
• TruAgent Detection: Available on 3.5C, 3.5CS, 4C and 5CS probes
- 9L
• Tissue color overlay can be removed to show just the 2D image, still retaining the tissue velocity information
- 10L
- 2 frequencies on 3.5C and 3.5CS, 1 on 4C and 5CS probes
- 11L
- 12L
• Coded Phase Inversion:
- i12L
LOGIQ P5 Page 5 of 14
6. CrossBeam
• Anatomical M-mode: free placement of M-mode generated from the cursor independent from the axial plane
• Scalpel: 3D Cut tool
• Display Format:
• Provides Spatial Compounding
- Quad: A-/B-/C-Plane/3D
• Available on the linear and convex probes
- Dual: A-Plane/3D
• Q-Analysis: Multiple Time -Motion trace display from selected points in the myocardium
- Single: 3D or A- or B- or C-Plane
- 3CRF
- 4C
- 5CS
Pre-Processing
- 8C
- E8C
• Write Zoom up to 8x
Stress Echo Package (option)
- E8CS
• B/M-Mode
• Advanced and flexible stress-echo examination capabilities
- 8L
- Gain
- 9L
- TGC
• Provides exercise and pharmacological protocol templates
- 11L
- Acoustic Output
- I12L
- Transmission Focus Position
- 6 default templates
- I739
- Transmission Focus Number
• Template editor for user configuration of existing templates or creation of new templates
- T739
- Transmission Focus Width
- BE9CS
- Imaging Frequency
- 4D3C-L
- Edge Enhancement
• Reference scan display during acquisition for stress level comparison (dual screen)
- 4DE7C
- Line Density Control
- 4D8C
- Live Anatomical M-mode
- ERB
- Baseline level/Previous level selectable
• PW/CW-Mode
• Provides 3, 5 or 7 angles for Compounding on Linear probes, 3 or 5 angles on Convex probes
- Gain
• Raw data continuous capture
- Dynamic Range
- Over 180 sec available
- Acoustic Output
• Wall motion scoring (bulls-eye and segmental)
• Compatible with Side by Side Display
- Doppler Frequency
- Velocity Scale (PRF)
• Compatible with: Color mode, Timeline mode, SRI-HD, Coded Harmonic Imaging, Virtual Convex
- PW/CF Ratio
LOGIQView (option)
- Wall Filter
• Available on all probes
- Time Resolution
• Extended Field of View Imaging
•
- Sample Volume Gate for PW- Mode
• For use in B-Mode
SRI-HD
• LOGIQView Status
• High Definition Speckle Reduction Imaging
Length
• Auto detection of scan direction
Depth
• Pre or post-process zoom up to 10X
• Provides 6 levels of speckle reduction
• Color Flow Mode
• Rotation
- CFM Gain
• Auto best fit on monitor
• Side by Side Display
- CFM Velocity Scale (PRF)
• Measurements in B-Mode
• Compatible with ALL linear, convex and sector transducers
- Acoustic Output
• Up to 60 cm scan length
- CFM Frequency
• Compatible with ALL scanning mode
- Wall Filter
Easy 3D (option)
- Packet Size
• Compatible with Side by Side Display
- CFM Spatial Filter
Colorize
- CFM Line Density
Threshold (Opacification)
- CFM Regression Filter
Render
Real Time 4D (option)
- Accumulation
Texture
• Acquisition Modes:
Gray Surface
Post-Processing w/ TruAccess (Raw Data)
- Realtime 4D Bmode
Scalpel
- Static 3D Bmode
Auto Movie
• Visualization Modes:
• SRI-HD – Selectable level of Speckle Reduction Imaging
Undo
- 3D Rendering (diverse surface and intensity projection modes)
Reset
• Max Read Zoom to 16x
- Sectional Planes (3 Section planes perpendicular to each other)
• B/M-Mode
Advanced 3D (option)
- ATO (Auto Tissue Optimization)
• Render Mode:
- Image Reverse
• Acquisition of Color data
- Surface texture, Surface Smooth, max-, min- and X-ray (average intensity projection), Gradient, Inversion, Glass Body, Mix Mode of two render Modes
- Image Rotation
• Automatic rendering
- Gray Map
• 3D Landscape technology
- Colorized B and M
• 3D Movie
- Gain
• Main Mode
- Dynamic Range
• Curved 3point Render start
- TGC
LOGIQ P5 Page 6 of 14
• 3D Movie
7. • Heart Rate
- Compression
- TCD (Transverse Cerebellum Diameter)
- Rejection
- Frame Averaging
- THD (Thorax Transverse Diameter)
General Doppler
- B Softener
- TIB (Tibia Length)
Measurements/Calculations
- Suppression
- ULNA (Ulna Length)
• Velocity
- Sweep Speed for M-Mode
• Estimated Fetal Weight (EFW) by:
• Time
- Anatomical M Mode
- AC, BPD
• A/B Ratio (Velocities / Frequency Ratio
• PW/CW-Mode
- AC, BPD, FL
- ASO (Auto Spectral Optimization)
- AC, BPD, FL, HC
• PS (Peak Systole)
- Base Line Shift
- AC, FL
• ED (End Diastole)
- Gray Map
- AC, FL, HC
• PS/ED (PS/ED Ratio)
- Post Gain
- AC, HC
• ED/PS (ED/PS Ratio)
- Compression
• Calculations and Ratios
• AT (Acceleration Time)
- Rejection
- FL/BPD
• ACCEL (Acceleration)
- Spectral Averaging
- FL/AC
• TAMAX (Time Averaged Maximum Velocity
- Colorized D
- FL/HC
- Display Format
- HC/AC
• Volume Flow (TAMEAN and Vessel Area)
- Sweep Speed
- CI (Cephalic Index)
• Color Flow Mode
- AFI (Amniotic Fluid Index)
• Heart Rate
- ACO (Auto Color Optimization)
• Measurements / Calculations by: Jeanty, Merz, Tokyo University, Mercer, Hansmann, Erickson, Hill, Shephard, Hadlock, Hohler, Campbell
• PI (Pulsatility Index)
- Base Line Shift
• RI (Resistivity Index)
- Color Map
- Post Gain
Real-time Doppler Auto
- Frame Averaging
• Fetal Graphical Trending
Measurements / Calculations
- CFM Display Threshold
• Growth Percentiles
• PS (Peak Systole)
- Angle Correct (PW mode)
• Multi-Gestational Calculations (4)
• ED (End Diastole)
- Quick Angle Correct (PW mode)
• Fetal Qualitative Description (Anatomical survey)
• MD (Minimum Diastole)
- Auto Angle Correct (PW mode)
• PI (Pulsatility Index)
- Spectral Invert for Color and Doppler
• Fetal Environmental Description (Biophysical profile)
• RI (Resistivity Index)
• AT (Acceleration Time)
• 3D reconstruction from a stored CINE loop
• Programmable OB Tables
• ACC (Acceleration)
• Over 20 selectable OB Calcs
• PS/ED (PS/ED Ratio)
• Anatomical M-Mode
• Expanded Worksheets
• ED/PS (ED/PS Ratio)
• Accumulation
• HR (Heart Rate)
• Cine Capture
GYN Measurements/Calculations
• TAMAX (Time Averaged Maximum Velocity)
• Right Ovary Length, Width, Height
Physiological Input Panel (Option)
• Left Ovary Length, Width, Height
• PVAL (Peak Velocity Value)
• Physiological Input
• Uterus Length, Width, Height
• Volume Flow (TAMEAN and Vessel Area)
- ECG, 1 channel
• Ovarian Volume
• Dual R-Trigger
• ENDO (Endometrial thickness)
• Pre-settable ECG R Delay Time
• Ovarian RI
OB Measurements/Calculations
• Pre-settable ECG Position
• Uterine RI
• Gestational Age by:
• Adjustable ECG Gain Control
• Follicular measurements
- GS (Gestational Sac)
• Automatic Heart Rate Display
• Summary Reports
- CRL (Crown Rump Length)
- FL (Femur Length)
Measurements / Calculations
Vascular Measurements/Calculations
- BPD (Biparietal Diameter)
- AC (Abdominal Circumference)
General B-Mode
• SYS DCCA (Systolic Distal Common Carotid Artery)
- HC (Head Circumference)
• Depth & Distance
- APTD x TTD (Anterior/Posterior Trunk Diameter by Transverse Trunk Diameter)
• DIAS DCCA (Diastolic Distal Common Carotid Artery)
• Circumference (Ellipse / Trace)
• Area (Ellipse / Trace)
• SYS MCCA (Systolic Mid Common Carotid Artery)
• Volume (Ellipsoid)
- LV (Length of Vertebra)
• % Stenosis (Area or Diameter)
- FTA (Fetal Trunk Cross-sectional Area)
• DIAS MCCA (Diastolic Mid Common Carotid Artery)
• Angle between two lines
- HL (Humerus Length)
• SYS PCCA (Systolic Proximal Common Carotid Artery)
General M-Mode
- BD (Binocular Distance)
• M-Depth
- FT (Foot Length)
• DIAS PCCA (Diastolic Proximal Common Carotid Artery)
• Distance
- OFD (Occipital Frontal Diameter)
• Time
- TAD (Transverse Abdominal Diameter)
• Slope
LOGIQ P5 Page 7 of 14
8. • SYS DICA (Systolic Distal Internal Carotid Artery)
Pulmonic Valve Area (PV Planimetry)
Left Ventricle Mass (LVPWd, LVPWs)
Pulmonic Valve Annulus Diameter (PV Annulus Diam)
Left Ventricle Volume, Teichholz/Cubic (LVIDd, LVI Ds)
• DIAS DICA (Systolic Distal Internal Carotid Artery)
Pulmonic Diameter (Pulmonic Diam)
Left Ventricle Internal Diameter (LVIDd, LVI Ds)
• SYS MICA (Systolic Mid Internal Carotid Artery)
• Right Atrium
Right Atrium Diameter, Length (RAD Ma)
Left Ventricle Length (LVLd, LVLs)
• DIAS MICA (Diastolic Mid Internal Carotid Artery)
Left Ventricle Outflow Tract Diameter (LVOT Diam)
• SYS PICA (Systolic Proximal Internal Carotid Artery)
Right Atrium Diameter, Width (RAD Mi)
Right Atrium Area (RAA)
Left Ventricle Posterior Wall Thickness (LVPWd, LVPWs)
• DIAS PICA (Diastolic Proximal Internal Carotid Artery)
Right Atrium Volume, Single Plane, Method of Disk (RAAd)
Left Ventricle Length (LV Major)
• SYS DECA (Systolic Distal External Carotid Artery)
Right Atrium Volume, Systolic, Single Plane, Method of Disk (RAAs)
Left Ventricle Width (LV Minor)
Left Ventricle Outflow Tract Area (LVOT)
• DIAS DECA (Diastolic Distal External Carotid Artery)
• Right Ventricle
Left Ventricle Area, Two Chamber/Four Chamber/Short Axis (LVA (d), LVA (s))
• SYS PECA (Systolic Proximal External Carotid Artery)
Right Ventricle Outflow Tract Area (RVOT Planimetry)
Left Ventricle Endocardial Area, Width (LVA (d), LVA(s))
• DIAS PECA (Diastolic Proximal External Carotid Artery)
Left Pulmonary Artery Area (LPA Area)
Right Pulmonary Artery Area (RPA Area)
Left Ventricle Epicardial Area, Length (LVAepi (d), LVAepi (s))
• VERT (Systolic Vertebral Velocity)
Right Ventricle Internal Diameter (RVIDd, RVIDs)
• SUBCLAV (Systolic Subclavian Velocity)
Left Ventricle Mass Index (LVPWd, LVPWs)
Right Ventricle Diameter, Length (RVD Ma)
• Summary Reports
• Mean IMT Measurement Tools
Ejection Fraction, Teichholz/Cube (LVIDd, LVIDs)
Right Ventricle Diameter, Width (RVD Mi)
Left Ventricle Posterior Wall Fractional Shortening (LVPWd, LVPWs)
Cardiac
Right Ventricle Wall Thickness (RVAWd, RVAWs)
Measurements/Calculations
Left Ventricle Stroke Index, Teichholz/Cube (LVIDd, LVIDs, and Body Surface Area)
B-Mode Measurements
Right Ventricle Outflow Tract Diameter (RVOT Diam)
• Aorta
Aortic Root Diameter (Ao Root Diam)
Left Pulmonary Artery (LPA)
Left Ventricle Fractional Shortening (LVIDd, LVIDs)
Aortic Arch Diameter (Ao Arch Diam)
Main Pulmonary Artery (MPA)
Ascending Aortic Diameter (Ao Asc)
Right Pulmonary Artery (RPA)
Left Ventricle Stroke Volume, Teichholz/Cubic (LVIDd, LVIDs)
Descending Aortic Diameter (Ao Desc Diam)
• System
Interventricular Septum Thickness (IVSd, IVSs)
Left Ventricle Stroke Index, Single Plane, Two Chamber, Method of Disk (LVI Dd, LVIDs, LVSd, LVSs)
Aorta Annulus Diameter (Ao Annulus Diam)
Inferior Vena Cava
Aorta Isthmus (Ao Isthmus)
Pulmonary Artery Diameter (MPA)
Left Ventricle Stroke Index, Single Plane, Four Chamber, Method of Disk (LVI Dd, LVIDs, LVSd, LVSs)
Aorta *** (Ao st junct)
Systemic Vein Diameter (Systemic Diam)
• Aortic Valve
Aortic Valve Cusp Separation (AV Cusp)
Patent Ductus Arterosis Diameter (PDA Diam)
Left Ventricle Stroke Index, Bi-Plane, Bullet, Method of Disk (LVAd, LVAs)
Aortic Valve Area Planimetry (AVA Pl ani met ry)
Pericard Effusion (PEs)
Interventricular Septum (IVS)
*** ( Trans AVA)
Patent Foramen Ovale Diameter (PFO Diam)
Left Ventricle Internal Diameter (LVI D)
• Left Atrium
Left Ventricle Posterior Wall Thickness (LVPW)
Left Atrium Diameter (LA Diam)
Ventricular Septal Defect Diameter (VSD Diam)
LA Length (LA Major)
• Mitral Valve
LA W idth (LA Minor)
Interventricular Septum (IVS) Fractional Shortening (IVSd, IVSs)
Mitral Valve Annulus Diameter (MV Ann Diam)
Left Atrium Diameter to AoRoot Diameter Ratio (LA/Ao Ratio)
• Tricuspid Valve
E-Point-to-Septum Separation (EPSS)
Left Atrium Area (LAA(d), LAA(s))
Tricuspid Valve Area (TV Panimetry)
Mitral Valve Area by Pressure Half Time (MVA By PHT)
Left Atrium Volume, Single Plane, Method of Disk (LAEDV A2C, LAESV A2C ) (LAEDV A4C, LAESV A4C)
Tricuspid Valve Annulus Diameter (TV Annulus Diam)
Mitral Valve Area Planimetry (MVA Planimetry)
M-Mode Measurements
• Left Ventricle
• Pulmonic Valve LOGIQ P5 Page 8 of 14
9. • Tricuspid Valve
• Aorta
Left Ventricle Outflow Tract Peak Pressure Gradient (VLOT Vmax)
QRS complex to end of envelope (Q-to- TV close)
Aortic Root Diameter (Ao Root Diam)
• Aortic Valve
Left Ventricle Outflow Tract Peak Velocity (LVOT Vmax)
Aortic Valve Diameter (AV Diam)
Doppler Mode Measurements
Left Ventricle Outflow Tract Mean Pressure Gradient (LVOT Trace)
Aortic Valve Cusp Separation (AV Cusp)
• Aortic Valve
Aortic Valve Ejection Time (LVET)
• Left Atrium
Left Ventricle Outflow Tract Mean Velocity (LVOT Trace)
Aortic Insufficiency Mean Pressure Gradient (AR Trace)
Left Atrium Diameter to AoRoot Diameter Ratio (LA/Ao Ratio)
Left Ventricle Outflow Tract Mean Square Root Velocity (LVOT Trace)
Aortic Insufficiency Peak Pressure Gradient (AR Vmax)
Left Atrium Diameter (LA Diam)
• Left Ventricle
Left Ventricle Outflow Tract Velocity Time Integral (LVOT Trace)
Aortic Insufficiency End Diastole Pressure Gradient (AR Trace)
Left Ventricle Volume, Teichholz/Cubic (LVIDd, LVI Ds)
Left Ventricle Ejection Time (LVET)
Aortic Insufficiency Mean Velocity (AR Trace)
Cardiac Output by Aortic Flow (AVA Pl ani met ry, AV Trace)
Left Ventricle Internal Diameter (LVIDd, LVI Ds)
Aortic Insufficiency Mean Square Root Velocity (AR Trace)
Stroke Volume Index by Aortic Flow (AVA Planimetry, AV Trace)
Left Ventricle Posterior Wall Thickness (LVPWd, LVPWs)
Aortic Insufficiency Velocity Time Integral (AR Trace)
• Mitral Valve
Left Ventricle Ejection Time (LVET)
Mitral Valve Regurgitant Flow Acceleration (MR Trace)
Left Ventricle Pre-Ejection Period (LVPEP)
Aortic Valve Mean Velocity (AV Trace)
Aortic Valve Mean Square Root Velocity (AV Trace)
Mitral Valve Regurgitant Mean Velocity (MR Trace)
Interventricular Septum (IVS)
Left Ventricle Internal Diameter (LVI D)
Aortic Valve Velocity Time Integral (AV Trace)
Mitral Regurgitant Mean Square Root Velocity (MR Trace)
Left Ventricle Posterior Wall Thickness (LVPW)
Aortic Valve Mean Pressure Gradient (AV Trace)
• Mitral Valve
Mitral Regurgitant Mean Pressure Gradient (MR Trace)
E-Point-to-Septum Separation (EPSS)
Aortic Valve Peak Pressure Gradient (AR Vmax)
Mitral Regurgitant Velocity Time Integral (MR Trace)
Mitral Valve Leaflet Separation (D-E Excursion)
Aortic Insufficiency Peak Velocity (AR Vmax)
Mitral Valve Mean Velocity (MR Trace)
Mitral Valve Anterior Leaflet Excursion (D-E Excursion)
Mitral Valve Mean Square Root Velocity (MR Trace)
Aortic Insufficiency End-Diastolic Velocity (AR Trace)
Mitral Valve D-E Slope (D-E Slope)
Mitral Valve Velocity Time Integral (MR Trace)
Mitral Valve E-F Slope (E-F Slope)
Aortic Valve Peak Velocity (AV Vmax)
• Pulmonic Valve
Aortic Valve Peak Velocity at Point E (AV Vmax)
Mitral Valve Mean Pressure Gradient (MR Trace)
QRS complex to end of envelope (Q-to- PV close)
Aorta Proximal Coarctation (Coarc Pre- Duct)
• Right Ventricle
Mitral Regurgitant Peak Pressure Gradient (MR Vmax)
Right Ventricle Internal Diameter (RVIDd, RVIDs)
Aorta Distal Coarctation (Coarc Post- Duct)
Mitral Valve Peak Pressure Gradient (MR Vmax)
Right Ventricle Wall Thickness (RVAWd, RVAWs)
Aortic Valve Insufficiency Pressure Half Time (AR PHT)
Mitral Regurgitant Peak Velocity (MR Vmax)
Right Ventricle Outflow Tract Diameter (RVOT Diam)
Aortic Valve Flow Acceleration (AV Trace)
Mitral Valve Peak Velocity (MR Vmax)
Mitral Valve Velocity Peak A (MV A Velocity)
Right Ventricle Ejection Time (RVET)
Aortic Valve Pressure Half Time (AV Trace)
Right Ventricle Pre-Ejection Period (RVPEP)
Mitral Valve Velocity Peak E (MV E Velocity)
Aortic Valve Acceleration Time (AV Acc Ti me)
Velocity Circumferential Fiber Shortening (Vcf)
Mitral Valve Area according to PHT (MV PHT)
Aortic Valve Deceleration TIme (AV Trace)
• System
Mitral Valve Flow Deceleration (MV Trace)
Interventricular Septum Thickness (IVSd, IVSs)
Aortic Valve Ejection Time (AVET)
Aortic Valve Acceleration to Ejection Time Ratio (AV Acc Time, AVET)
Mitral Valve Pressure Half Time (PV PHT)
Pericard Effusion (PE(d))
Interventricular Septum (IVS) Fractional Shortening (IVSd, IVSs)
Aortic Valve Area according to PHT
• Left Ventricle
Mitral Valve Flow Acceleration (MV LOGIQ P5 Page 9 of 14
10. IsoVolumetric Contraction Time (IVCT)
Trace)
Mitral Valve E-Peak to A-Peak Ratio (A- C and D-E) (MV E/ARatio)
Mitral Valve Acceleration Time (MV Acc Time)
Mitral Valve Deceleration Time (MV Dec Time)
Mitral Valve Ejection Time ((MV Trace)
Mitral Valve A-Wave Duration (MV A Dur)
Mitral Valve Time to Peak (MV Trace)
Mitral Valve Acceleration Time/Deceleration Time Ratio (MVAcc/Dec Time)
Stroke Volume Index by Mitral Flow (MVA Planimetry, MVTrace)
Mitral Valve Area from Continuity Equation (MVAPlanimetry, LVOT Vmax, MV Vmax)
• Pulmonic Valve
Pulmonic Insufficiency Peak Pressure Gradient (PR Vmax)
Pulmonic Insufficiency End-Diastolic Pressure Gradient (PRTrace)
Pulmonic Valve Peak Pressure Gradient (PV Vmax)
Pulmonic End-Diastolic Pressure Gradient (PR Trace)
Pulmonic Insufficiency Peak Velocity (PR Vmax)
Pulmonic Insufficiency End-Diastolic Velocity (Prend Vmax)
Pulmonic Valve Peak Velocity (PV Vmax)
Pulmonic End-Diastolic Velocity (PV Trace)
Pulmonary Artery Diastolic Pressure (PV Trace)
Pulmonic Insufficiency Mean Pressure Gradient (PR Trace)
Pulmonic Valve Mean Pressure Gradient (PV Trace)
Pulmonic Insufficiency Mean Velocity (PR Trace)
Pulmonic Insufficiency Mean Square Root Velocity(PR Trace)
Pulmonic Insufficiency Velocity Time Integral (PR Trace)
Pulmonic Valve Mean Velocity (PV Trace)
Pulmonic Valve Mean Square Root Velocity (PV Trace)
Pulmonic Valve Velocity Time Integral (PV Trace)
Pulmonary Vein S/D Ratio (P Vein D, P Vein S)
Pulmonic Insufficiency Pressure Half Time (PR PHT)
Ventricular Septal Defect Peak Pressure Gradient (VSD Vmax)
Pulmonic Valve Flow Acceleration (PV Acc Time)
Pulmonic-to-Systemic Flow Ratio (Qp/Qs)
Pulmonic Valve Acceleration Time (PV Acc Time)
• Tricuspid Valve
Pulmonic Valve Ejection Time (PVET)
Tricuspid Regurgitant Peak Pressure Gradient (TR Vmax)
Pulmonic Valve Pre-Ejection Period (PVPEP)
Tricuspid Valve Peak Pressure Gradient (TV Vmax)
QRS complex to end of envelope (Q-to- PV close)
Tricuspid Regurgitant Peak Velocity (TR Vmax)
Pulmonic Valve Acceleration to Ejection TIme Ratio (PV Acc Time, PVET)
Tricuspid Valve Peak Velocity (TV Vmax)
Pulmonic Valve Pre-Ejection to Ejection Time Ratio (PVPEP, PVET)
Tricuspid Valve Velocity Peak A (TV A Velocity)
• Right Ventricle
Tricuspid Valve Velocity Peak E (TV E Velocity)
Right Ventricle Outflow Tract Peak Pressure Gradient (RVOT Vmax)
Tricuspid Regurgitant Mean Pressure Gradient (TR Trace)
Right Ventricle Systolic Pressure (RVOT Vmax)
Tricuspid Valve Mean Pressure Gradient (TV Trace)
Right Ventricle Outflow Tract Peak Velocity (RVOT Vmax)
Tricuspid Regurgitant Mean Velocity (TR Trace)
Right Ventricle Diastolic Pressure (RVOT Trace)
Tricuspid Regurgitant Mean Square Root Velocity (TR Trace)
Right Ventricle Outflow Tract Velocity Time Integral (RVOTTrace)
Tricuspid Regurgitant Velocity Time Integral (TR Trace)
Right Ventricle Ejection Time (RV Trace)
Stroke Volume by Pulmonic Flow (RVOTPlanimetry, RVOTTrace)
Tricuspid Valve Mean Velocity (TV Trace)
Right Ventricle Stroke Volume Index by Pulmonic Flow (RVOT Planimetry, RVOT Trace)
Tricuspid Valve Mean Square Root Velocity (TV Trace)
• System
Tricuspid Valve Velocity Time Integral (TV Trace)
Pulmonary Artery Peak Velocity (PV Vmax)
Tricuspid Valve Time to Peak (TV Acc/Dec Time)
Pulmonary Vein Velocity Peak A (reverse) (P Vein A)
Tricuspid Valve Ejection Time (TV Acc/Dec Time)
Pulmonary Vein Peak Velocity (P Vein D, P Vein S)
Tricuspid Valve A-Wave Duration (TV A Dur)
Systemic Vein Peak Velocity (PDA Diastolic, PDA Systolic)
QRS complex to end of envelope (Q-to- TV close)
Ventricular Septal Defect Peak Velocity (VSD Vmax)
Tricuspid Valve Pressure Half Time (TV PHT)
Atrial Septal Defect (ASD Diastolic, ASD Systolic)
Stroke Volume by Tricuspid Flow (TV Planimetry, TV Trace)
Pulmonary Artery Velocity Time Integral (PV Trace)
Tricuspid Valve E-Peak to A-Peak Ratio (TV E/A Velocity)
Systemic Vein Velocity Time Integral (PDA Trace)
Color Flow Mode Measurements
Pulmonary Vein A-Wave Duration (P Vein A Dur)
• Aortic Valve
- Proximal Isovelocity Surface Area:
IsoVolumetric Relaxation Time (IVRT)
LOGIQ P5 Page 10 of 14
11. - Applications: Abdomen, OB Gyn, Urology, Vascular
Left Ventricle Stroke Volume, Single Plane, Two Chamber/Four Chamber, Method of Disk(Simpson) (LVIDd, LVIDs, LVAd, LVAs)
Regurgitant Orifice Area (AR Radius)
- Proximal Isovelocity Surface Area: Radius of Aliased Point (AR Radius)
- Probe Band Width: 2.0 – 5.0 MHz
- Number of Element: 128
- Proximal Isovelocity Surface Area: Regurgitant Flow (AR Trace)
- Convex Radius: 38 mmR
Left Ventricle Volume, Two Chamber/Four Chamber, Area-Length (LVAd, LVAs)
- FOV (Max): 68°
- Proximal Isovelocity Surface Area: Regurgitant Volume Flow (AR Trace)
- Physical Foot Print: 48 x 11 mm
- B-mode Imaging Frequency: 2.0, 3.0, 4.0, 5.0 MHz
Ejection Fraction, Bi-Plane, Method of Disk (LVAd, LVAs, 2CH, 4CH)
Proximal Isovelocity Surface Area: Aliased Velocity (AR Vmax)
- Harmonic Frequency: 4, 5, 5.2, 5.5 MHz
• Mitral Valve
Left Ventricle Stroke Volume, Bi-Plane, Method of Disk (LVAd, LVAs, 2CH, 4CH)
Proximal Isovelocity Surface Area: Regurgitant Orifice Area (MR Radius)
- Doppler Frequency: 2.5, 3.3 MHz
Left Ventricle Volume, Bi-Plane, Method of Disk (LVAd, LVAs, 2CH, 4CH)
- Biopsy Guide Available: Single Angle, Reusable
Proximal Isovelocity Surface Area: Radius of Aliased Point (MR Radius)
Left Ventricle Stroke Index, Single Plane, Two Chamber/Four Chamber, Area- Length (LVSd, LVSs, and BSA)
Proximal Isovelocity Surface Area: Regurgitant Flow (MR Trace)
• 3.5C Wide Band Convex Probe
- Applications: Abdomen, OB Gyn, Urology, Vascular
Left Ventricle Volume, Single Plane, Two Chamber/Four Chamber, Method of Disk (LVAd, LVAs)
Proximal Isovelocity Surface Area: Regurgitant Volume Flow (MR Trace)
- Probe Band Width: 2.0 – 5.0 MHz
Proximal Isovelocity Surface Area: Aliased Velocity (MR Vmax)
- Number of Element: 128
Left Ventricle Volume, Apical View, Long Axis, Method of Disk (LVAd, LVAs)
- Convex Radius: 38 mmR
Combination Mode Measurements
- FOV (Max): 68°
Stroke Volume by Aortic Flow (AVA Planimetry, AV Trace)
- Physical Foot Print: 48 x 11 mm
• Aortic Valve
- B-mode Imaging Frequency: 2.0, 3.0, 4.0, 5.0 MHz
- Aortic Valve Area (Ao Root Diam, LVOT Vmax, AV Vmax)
• Mitral Valve
Stroke Volume by Mitral Flow (MVA Planimetry, MV Trace)
- Harmonic Frequency: 4, 5, 5.2, 5.5 MHz
- Aortic Valve Area by Continuity Equation by Peak Velocity (Ao Root Diam, LVOT Vmax, AV Vmax)
Cardiac Output by Mitral Flow (MVA Planimetry, MV Trace, HR)
- Doppler Frequency: 2.5, 3.3 MHz
- Biopsy Guide Available: Single Angle, Reusable
• Pulmonic Valve
Stroke Volume by Aortic Flow (AVA Pl ani met ry, AV Trace)
Stroke Volume by Pulmonic Flow (PV Planimetry, PV Trace)
Cardiac Output by Aortic Flow (AVA Planimetry, AV Trace, HR)
• 4C Wide Band Convex Probe
Cardiac Output by Pulmonic Flow (PV Planimetry, PV Trace, HR)
- Applications: Abdomen, OB Gyn, Urology, Vascular
Aortic Valve Area by Continuity Equation VTI (Ao Root Diam, LVOT Vmax, AV Trace)
• Tricuspid Valve
- Probe Band Width : 1.4 – 5 MHz
Cardiac Output by Tricuspid Flow (TV Planimetry, TV Trace, HR)
- Number of Element: 128
• Left Ventricle
- Convex Radius : 60 mmR
- FOV (Max) : 58°
Cardiac Output, Teichholz/Cubic (LVIDd, LVI Ds, HR)
Report Designer
- Physical Foot Print : 60 x 18 mm
• On-board reporting package automates report writing
- B-mode Imaging Frequency : 2.0,
Cardiac Output Two Chamber, Single Plane, Area-Length/ Method of Disk(Simpson) (LVAd, LVAs, HR)
- 3.0, 4.0, 5.0 MHz
• Formats various exam results into a report suitable for printing to a windows printer or reviewing on a standard PC
- Harmonic Frequency : 4.0, 5.0, 5.2,
- 5.5 MHz
Cardiac Output Four Chamber, Single Plane, Area-Length/ Method of Disk(Simpson) (LVAd, LVAs, HR)
- Doppler Frequency : 2.5, 3.3 MHz
- Biopsy Guide Available : Multi Angle, Reusable
• Exam results include patient info, exam info, measurements, calculations, images, comments and diagnosis
Ejection Fraction Two Chamber, Single Plane, Area-Length/ Method of Disk(Simpson) (LVAd, LVAs)
• 5CS Convex Probe
• Standard templates provided
- Applications: Abdomen, OB Gyn, Urology
Customizable templates
Ejection Fraction Four Chamber, Single Plane, Area-Length/ Method of Disk(Simpson) (LVAd, LVAs)
- Probe Band Width : 2 – 6 MHz
- Number of Element : 128
- Convex Radius : 60 mmR
Probes
Left Ventricle Stroke Volume, Single Plane, Two Chamber/Four Chamber, Area-Length (LVAd, LVAs)
- FOV (Max) : 58°
- Physical Foot Print : 60 x 18 mm
- B-mode Imaging Frequency : 2.0,
• 3.5CS Thin Wide Band Convex Probe
LOGIQ P5 Page 11 of 14
- 3.0, 4.0, 5.0 MHz
12. - 10.0, 12.0 MHz
- Harmonic Frequency : 4.0, 5.0, 5.5,
- Number of Element : 128
- Harmonic Frequency : 10.0, 12.0,
- 6.0 MHz
- Convex Radius : 9 mmR
- 13.0 MHz
- Doppler Frequency : 2.5, 3.3 MHz
- FOV (Max) : 170°
- Doppler Frequency : 5.0, 6.7 MHz
- Biopsy Guide Available : Multi Angle, Reusable
- Physical Foot Print : 15 x 10 mm
- Steered Angle : 0, +/- 5, 10, 15, 20°
- B-mode Imaging Frequency : 6.0,
- Biopsy Guide Available : Multi
- 8.0, 10.0 MHz
- Angle, Reusable
• 8L Wide Band Linear Probe
- Harmonic Frequency : 8.0, 10.0 MHz
- Applications : Vascular, Small
- Doppler Frequency : 4.0, 5.0 MHz
Parts
• 12L Wide Band Linear Probe
- Probe Band Width : 4 – 11MHz
- Biopsy Guide Available : Single
- Applications: Small Parts, Vascular, Neonatal, Pediatrics
- Number of Element : 128
- Angle, Disposable and Reusable
- FOV (Max) : 38 mm
- Probe Band Width: 5 – 13.0 MHz
- Physical Foot Print : 38 x 10 mm
• 8C Wide Band Microconvex Probe
- Number of Element: 192
- B-mode Imaging Frequency : 6.0,
- Applications : Neonatal, Pediatrics
- FOV (Max): 39 mm
- 8.0, 10.0 MHz
- Probe Band Width : 4 11 MHz
- Physical Foot Print: 45 x 10 mm
- Harmonic Frequency : 8.0, 10.0,
- Number of Element : 128
- 12.0 MHz
- Convex Radius : 11 mmR
- B-mode Imaging Frequency: 7.0, 10.0, 12.0 MHz
- Doppler Frequency : 5.0, 6.7 MHz
- FOV (Max) : 133°
- Steered Angle : 0, +/- 5, 10, 15, 20°
- Physical Foot Print : 26 x 10 mm
- Harmonic Frequency: 10.0, 12.0 MHz
- Biopsy Guide Available : Multi
- B-mode Imaging Frequency : 6.0,
- Doppler Frequency: 5.0, 6.7 MHz
- 8.0, 10.0 MHz
Angle, Reusable
- Steered Angle: +/- 10°, 20°
- Harmonic Frequency : 8.0, 10.0
Biopsy Guide Available: Single Angle, Reusable
• 9L Wide Band Linear Probe
MHz
- Applications: Vascular, Small Parts
- Doppler Frequency : 4.0, 5.0 MHz
- Probe Band Width : 3 – 10 MHz
- Biopsy Guide Available : None
• 3CRF Wide Band Microconvex Probe
- Number of Element : 192
- Applications: Abdomen, Urology, Vascular
- FOV (Max) : 44 mm
• 3S Wide Band Phased Array Sector
- Physical Foot Print : 44 x 6 mm
Probe
- Probe Band Width : 2.0 – 4 MHz
- B-mode Imaging Frequency : 5.0,
- Applications : Cardiac, Trancranial,
- Number of Element: 128
- 7.0, 9.0 MHz
Abdomen
- Convex Radius : 20 mmR
- Harmonic Frequency : 8.0, 10.0
- Probe Band Width : 1.5 – 3.5 MHz
- FOV (Max) : 80°
- MHz
- Number of Element : 64
- Physical Foot Print : 28 x 16 mm
- Doppler Frequency : 4.0, 5.0 MHz
- FOV (Max) : 90°
- B-mode Imaging Frequency : 2.0,
- Steered Angle : 0, +/- 5, 10, 15, 20°
- Physical Foot Print : 19 x 16 mm
- 3.0, 3.5, 4.0 MHz
- Biopsy Guide Available : Multi
- B-mode Imaging Frequency : 2.0,
- Harmonic Frequency : 3.6, 3.8, 4.0,
- Angle, Reusable
- 2.5, 3.0 MHz
- 4.2MHz
- Harmonic Frequency : 2.8, 3.0, 3.2,
- Doppler Frequency : 2.5, 3.3 MHz
- 3.6 MHz
• 10L Wide Band Linear Probe
- Biopsy Guide Available : Single Angle, Reusable
- Doppler Frequency : 1.7, 2.0, 2.2
- Applications: Vascular, Small Parts, Neonatal, Pediatrics
- MHz
- CW Doppler Frequency : 2.0 MHz
- Probe Band Width: 4 – 11 MHz
• E8C Wide Band Microconvex Probe
- Biopsy Guide Available : Multi
- Applications : OB Gyn, Urology, Endocavity
- Number of Element: 192
- Angle, Reusable
- FOV (Max): 39 mm
- Probe Band Width : 4 – 11 MHz
- Physical Foot Print: 39 x 10 mm
• 5S Wide Band Phased Array Sector
- Number of Element : 128
Probe
- B-mode Imaging Frequency: 6.0, 8.0, 10.0 MHz
- Convex Radius : 11 mmR
- Applications : Cardiac, Trancranial,
- FOV (Max) : 133°
Abdomen
- Doppler Frequency: 5.0, 6.7 MHz
- Physical Foot Print : 26 x 10 mm
- Probe Band Width : 2 – 5 MHz
- Steered Angle: +/- 10°, 20°
- B-mode Imaging Frequency : 6.0,
- Number of Element : 96
- Biopsy Guide Available: Multi Angle, Reusable
- 8.0, 10.0 MHz
- FOV (Max) : 90°
- Harmonic Frequency : 8.0, 10.0
- Physical Foot Print : 19 x 11 mm
- MHz
- B-mode Imaging Frequency : 3.0 ,
- Doppler Frequency : 4.0, 5.0 MHz
• 11L Wide Band Linear Probe
- 4.0, 5.0 MHz
- Biopsy Guide Available : Single Angle, Disposable and Reusable
- Applications : Small Parts,
- Harmonic Frequency : 4.0, 5.0 MHz
Vascular, Neonatal, Pediatrics
- Doppler Frequency : 2.5, 3.3 MHz
- Probe Band Width : 5 – 13 MHz
- CW Doppler Frequency : 2.5 MHz
• E8CS Wide Band Microconvex Probe
- Number of Element : 192
Biopsy Guide Available: Multi Angle, Reusable
- Applications : OB Gyn, Urology,
- FOV (Max) : 38.4 mm
Endocavity
- Physical Foot Print : 38 x 10mm
- Probe Band Width : 4 – 11 MHz
- B-mode Imaging Frequency : 7.0,
LOGIQ P5 Page 12 of 14
13. • 7S Wide Band Phased Array Sector Probe
- 8.0, 10.0 MHz
ERB Convex: 5 - 9MHz
- Harmonic Frequency : 10.0,
- Number of Element: 128
- 12.0MHz
- FOV (Max) :
- Applications: Cardiac, Pediatrics, Abdomen
- Doppler Frequency : 5.0, 6.7 MHz
ERB Linear: 51mm
- Steered Angle : +/- 5, 10, 15, 20°
ERB Convex: 123°
- Probe Band Width : 3 – 8 MHz
- Biopsy Guide Available : None
- Physical Foot Print:
- Number of Element : 96
ERB Linear: 51 x 5 mm
- FOV (Max) : 90°
• t739 Intraoperative Wide Band
ERB Convex: 17 x 5.5 mm
- Physical Foot Print : 14 x 7 mm
- B-mode Imaging Frequency: 6.0, 8.0, 10.0 MHz
Linear Probe
- B-mode Imaging Frequency : 5.0,
- Applications : Intraoperative, Small
- 6.0, 7.0 MHz
- Harmonic Frequency: 8.0, 10.0 MHz
Parts, Vascular, Pediatrics
- Harmonic Frequency : 6.0, 7.0, 8.0,
- Probe Band Width : 4 -10 MHz
- Doppler Frequency: 5.0, 6.7 MHz
- 8.5 MHz
- Biopsy Guide Available: Multi Angle, Grid Reusable
- Number of Element: 192
- Doppler Frequency : 4.0, 5.0 MHz
- FOV (Max) : 39 mm
- CW Doppler Frequency : 4.0 MHz
- Physical Foot Print : 39 x 10 mm
- Biopsy Guide Available : None
• 4D3C-L Convex Volume Probe
- B-mode Imaging Frequency : 6.0,
- Applications : Abdomen, OB Gyn
- 8.0, 10.0 MHz
• 3Sp Wide Band Phased Array Sector
- Probe Band Width : 2 – 5 MHz
- Harmonic Frequency : 8.0, 10.0,
Probe
- Number of Element: 192
- 12.0 MHz
- Applications : Cardiac, Trancranial,
- Convex Radius : 39.1 mmR
- Doppler Frequency : 5.0, 6.7 MHz
Abdomen
- Volume Sweep Radius: 19.8 mmR
- Steered Angle : +/- 5, 10, 15, 20°
- Probe Band Width : 1.5 – 5MHz
- FOV: 87° Volume 85° x 80°
- Biopsy Guide Available : Multi
- Number of Element : 64
- Physical Foot Print : 60 x 13 mm
- Angle, Reusable
- FOV (Max) : 90°
- B-mode Imaging Frequency : 3.0,
- Physical Foot Print : 16 x 14 mm
- 4.0, 5.0 MHz
• i739 Intraoperative Wide Band Linear Probe
- B-mode Imaging Frequency : 2.0,
- Harmonic Frequency : 4.0, 4.5, 4.8,
- 3.0, 4.0, 5.0 MHz
- .0 MHz
- Applications : Intraoperative, Small
- Harmonic Frequency : 3.0, 3.5, 4.0,
- Doppler Frequency : 2.5, 3.3 MHz
- Parts, Vascular, Pediatrics
- 5.0, 5.5 MHz
- Biopsy Guide Available : Single Angle, Reusable (stainless steel, plastic)
- Probe Band Width : 4 – 10 MHz
- Doppler Frequency : 1.8, 2.0, 2.5,
- Number of Element: 192
- 3.3, 4.0 MHz
- FOV (Max) : 39 mm
- CW Doppler Frequency : 2.0 MHz
- Physical Foot Print : 39 x 10 mm
Biopsy Guide Available: Multi Angle, Reusable
• 4D8C Micro Convex Volume Probe
- B-mode Imaging Frequency : 6.0,
- Applications : Neonatal, Pediatrics
- 8.0, 10.0 MHz
- Harmonic Frequency : 8.0, 10.0,
- Probe Band Width : 4 – 11 MHz
• 5Sp Wide Band Phased Array Sector
- 12.0 MHz
- Number of Element: 192
Probe
- Doppler Frequency : 5.0, 6.7 MHz
- Convex Radius : 14.0 mmR
- Applications : Cardiac, Trancranial,
- Steered Angle : +/- 5, 10, 15, 20°
- Volume Sweep Radius: 80 mm
Abdomen
Biopsy Guide Available : None
- FOV: 120° Volume 37.4 mm x 29°
Probe Band Width : 2.0 – 8.0 MHz
- Physical Foot Print : 30 x 50 mm
- Number of Element : 64
• BE9CS Wide Band Biplane Microconvex Probe
- B-mode Imaging Frequency : 6.0,
- FOV (Max) : 90°
- 8.0, 10.0 MHz
- Physical Foot Print : 10 x 10 mm
- Applications: Urology, Endocavity
- Harmonic Frequency : 8.0, 10.0,
- B-mode Imaging Frequency : 4.0,
- Probe Band Width : 4 – 11MHz
- 1.0 MHz
- 5.0, 6.7, 8.0 MHz
- Number of Element : 96 x 2
- Doppler Frequency : 4.0, 5.0 MHz
- Harmonic Frequency : 5.0, 6.0, 8.0,
- Convex Radius : 9 mmR
- Biopsy Guide Available : Single Angle Reusable(stainless steel, plastic)
- 10.0 MHz
- FOV (Max) : 127°
- Doppler Frequency : 2.7, 3.0, 3.3
- Physical Foot Print : 20 x 10 mm
- 4.0, 5.0 MHz
- B-mode Imaging Frequency : 6.0,
• 4DE7C Convex Volume Probe
- CW Doppler Frequency : 2.5 MHz
- 8.0, 10.0 MHz
- Applications : OB Gyn, Urology
Biopsy Guide Available: Multi Angle, Reusable
- Harmonic Frequency : 8.0, 10.0
- Probe Band Width : 4 – 11 MHz
- MHz
- Number of Element: 192
- Doppler Frequency : 4.0, 5.0 MHz
- Convex Radius: 10.1 mmR
• i12L Intraoperative Wide Band Linear Probe
- Biopsy Guide Available : Single Angle Reusable (stainless steel), Disposable
- Volume Sweep Radius: 11.6 mmR
- FOV: 133° Volume 146° x 90°
- Applications : Intraoperative, Small
- Physical Foot Print : 27 x 6 mm
- Parts, Vascular, Pediatrics
- B-mode Imaging Frequency : 6.0,
- Probe Band Width : 4 – 12 MHz
• ERB Wide Band Biplane Probe
- 8.0, 10.0 MHz
- Number of Element : 96
- Harmonic Frequency : 8.0, 10.0,
- Applications: Urology
- FOV (Max) : 25 mm
- 11.0 MHz
- Probe Band Width:
- Physical Foot Print : 29 x 10 mm
- B-mode Imaging Frequency : 6.0,
ERB Linear5 – 10 MHz
LOGIQ P5 Page 13 of 14
- Doppler Frequency : 4.0, 5.0 MHz