Vivid T9

True Scan Raw Data is GE’s innovative • Front and rear handles
technology that allows for advanced • Optional probe cable tray
processing on archived images by
• Integrated gel holder
applying many of the same scan con-
trols and advanced quantitative tools • Six probe holders
available during the original exam. (four standard, two optional)

General Specifications User Interface

Dimensions and Weight Operator Keyboard

• Width: • Ergonomic FlexFit design with
left/right swivel and up/down
- Keyboard: 502 mm (19.8 in)
arm mobility of keyboard
- Base: 590 mm (23.2 in) and monitor permitting both
• Depth: physiological sitting or standing
- Maximum: 810 mm (31.9 in) operation

• Height: • Alphanumeric keyboard with

support for eight character sets
- Maximum: 1,775 mm (69.1 in)
• Ergonomic full size hard key layout
- Minimum: 1,405 mm (55.3 in)
• Interactive back lighting for
• Weight: 60 kg, 132 lbs
control panel
Product Description
Electrical Power • Six TGC pods
The Vivid™ T9 is our Multipurpose
Cardiovascular System designed • Nominal input voltage: • Image manager on the touch screen
for reliability in busy environments for 100-240 VAC, frequency 50/60 Hz for quick review of image clipboard
contents and easy export of images
cardiac and shared service imaging, • Power consumption maximum: and loops to remote archives or media
with the capabilities of 2D, adult, 300 VA with peripherals
pediatric, fetal/obstetrics, vascular/
Touch Screen
peripheral vascular, urological, Console Design
abdominal, transcranial, small parts, • 10.1" ultra-high-resolution, wide-screen
• Four active probe ports format, color, multi-touch LCD screen
musculoskeletal, intraoperative and
transesophageal applications. • ECG port • Interactive user-configurable dynamic
• Integrated HDD (500G) software menu
System Architecture
• Multiple USB ports LCD Monitor
Ease of Use features help make the
Vivid T9 a productive cardiovascular • Optional DVD-RW drive • 21.5" wide-screen, High-Definition
ultrasound system – simplification of • Optional on-board storage for (HD), flicker-free LCD display
Vivid software and touch panel support thermal printer, integrated speakers • 256 shades of gray and 16.7 million
working seamless in any environment. • Integrated locking mechanism that simultaneous colors available
The Stress Echo, Auto EF 2.0, AFI 2.0 provides rolling lock and caster • Articulating monitor arm
and Scan Assist Pro options create swivel lock • LCD translation
a productive environment with
• Integrated cable management (independent of console)
added efficiency.
• Air filters easily accessible and - 325 mm horizontal bidirectional
removable for cleaning - 150 mm vertical height adjustment

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 1 of 16

• Swivel to side viewing direction • Tissue tracking (optional) Peripheral Options
• +25˚/ -90˚ vertical tilt on LCD • Tissue synchronization imaging • DVD RW drive
(optional)
• Fold down and rotation lock • B/W video printer
mechanism for transportation • Strain imaging (optional) • USB memory stick
• Horizontal viewing angle of more • Strain rate imaging (optional) • 1 TB USB hard drive
than 170° • Tissue Doppler imaging • Three-pedal configurable footswitch
• Resolution: 1920 x 1080 pixels • Blood flow imaging (optional)
• Digital brightness adjustment • Blood flow angio flow imaging
Display Modes
(optional) • Live and stored display format:
System Overview Full size and split screen, both
• Smart Stress (optional)
with thumbnails, for still and cine
Operating System • Auto EF (optional)
• Review image format: 4 x 3 and
• Windows® 10 • AFI Automated Function Imaging thumbnails for still and cine
(optional)
Applications (probe dependent) • Coded phase inversion LVO contrast
• Simultaneous capability
Abdominal, Cardiac (adult and pediatric), (optional) - 2D + PW
Musculo-skeletal (conventional and - 2D + CFM/TVI + PW
• Compound imaging
superficial), Small Organ, Pediatric, - 2D + CFM/TVI
• Scan Assist Pro
Obstetrics/Gyn, Fetal (heart and body), - 2D + CFM/Angio/TVI/SRI/TT/SI/TSI
Transesophageal, Peripheral Vascular, • Image archive (optional)
Transvaginal, Transrectal, Intraoperative, • Z scores - 2D + M/AMM/CAMM (optional)
Adult, and Neonatal Cephalic
• Fetal trending - 2D + CFM/Angio/TVI/SRI/TT/SI/TSI +
M/AMM/CAMM (optional)
Scanning Methods • Renal calculations
- Real-time duplex or triplex mode
• Electronic sector • On-board report package
- Compound + M/CFM/PW
• Electronic convex - 2D + color split screen
System Options
• Electronic linear (simultaneous mode)
• Curved AMM
• CW pencil • Selectable alternating modes
• Blood flow imaging
- 2D or compound + PW
Transducer Types • Blood flow imaging with Angio - 2D + CW
• Sector phased array • B-flow - 2D or compound + CFM/PW
• Convex array • Tissue tracking - 2D + CFM + CW
• Linear array • TSI • Multi-image (split/quad screen)
• CW Pencil • Strain imaging - Live and/or frozen
• Strain rate imaging - Independent cine playback
• Endovaginal
• Smart Stress • Timeline display
• TEE
- Independent 2D (or compound) +
• AFI
Operating Modes PW/CW/M display
• Auto EF
- A choice of display formats with
• 2D tissue
• Q-Analysis various sizes of 2D + PW/CW/M
• 2D color flow
• LOGIQ View • Top/bottom selectable format
• 2D angio flow
• IMT
• Color M-mode Display Annotation
• LVO contrast
• Tissue velocity M-mode • Patient name: First, last and middle
• DICOM ® connectivity
• Continuous wave Doppler • Patient ID
• Tissue M-mode • DICOM viewer embedded on media
• Age, sex and birth date
• Pulsed wave Doppler with high PRF • Extra probe holder
• Hospital name
• Anatomical M-mode • Paper tray
• Date format: Three types selectable
• Curved anatomical M-mode (optional) • Probe cable tray - MM/DD/YYYY, DD/MM/YYYY, YYYY/
• Tissue velocity imaging • Smart Standby (optional) MM/DD

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 2 of 16

• Time format: Two types selectable • Measurement results • Measurements/calculations
- 24 hours, 12 hours • Operator message and annotations on cine playback
• Gestational age from LMP/EDD/GA • Scrolling timeline memory
• Displayed acoustic output
• Probe name - TIS: Thermal Index Soft Tissue • Dual-image cine display

• Map names - TIC: Thermal Index Cranial (Bone) • Quad-image cine display
- TIB: Thermal Index Bone • CINE gauge and cine image
• Probe orientation
number display
• Depth scale marker • MI: Mechanical Index
• CINE review loop
• Focal zone markers • Power output in dB
• CINE review speed
• Image depth • Biopsy guide line and zone
• Zoom depth • Heart rate Image Storage
• B-mode • Trackball-driven annotation arrows • On-board database of patient
information from past exams
- Gain • Active mode display
- Dynamic range • Storage formats:
• Stress protocol parameters
- Imaging frequency - DICOM –
• Parameter annotation follow compressed/uncompressed,
- Frame averaging ASE standard single/multi-frame,
- Gray map • Free text with word library with/without raw data
• M-mode • Image orientation marker - “Save As” JPEG, MPEG, AVI
- Gain • Storage devices:
- Frequency General System Parameters - USB memory stick
- Dynamic range
System Setup - CD-RW storage: 700 MB
- Time scale
• Pre-programmable M& A and - DVD storage: -R (4.7 GB)
• Doppler mode
annotation categories - Mobile hard drive storage: 1 TB
- Gain
• Different user presets per probe/ • Compare old images with
- Angle
application may be stored for current exam
- Sample volume size and position
quick access • Reload of archived data sets
- Wall filter (Low Velocity Reject)
• User programmable preset capability
- Velocity and/or frequency scale with administrator preset protection Connectivity and DICOM
- Spectrum inversion • Ethernet network connection
• Factory default preset data
• Time scale • DICOM (optional)
• Languages: English, French, German,
- PRF Spanish, Italian, Portuguese, Swedish, - Verify
- Doppler frequency Danish, Norwegian, Polish, Finnish,
- Print
• Color flow Doppler mode Greek, Russian
• User-defined annotations - Store
- Frame rate
- Frame averaging • Body patterns - Modality worklist
- Sample volume size • Customized comment home position - Storage commitment
- Color scale - Modality Performed Procedure
- Power Comprehensive User Manual Step (MPPS
- Color baseline Available on Board - Off-network DICOM spooler
- Color threshold marker Available through touch panel utility - Query/Retrieve
- Color gain page. User manual and service
- Structured reporting – compatible
- PDI manual are included on CD with each
with adult cardiac, pediatric,
system. A printed manual is available
• Acoustic frame rate vascular and abdominal
upon request.
• CINE indicator, - Media store of structured reporting
image number/frame number CINE Memory/Image Memory • DICOM media exchange
• Bodymarks: Multiple human • 500 MB of cine memory • InSite™ ExC capability for remote
anatomical structures • Selectable cine sequence for service/access
• Application name cine review

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 3 of 16

EchoPAC™ Connectivity • ASE-based default text modules • Operation of Insite Express Connection
(English), user customizable is dependent on the infrastructure
• Connectivity and image analysis
• Internal archive data can be being available – check with your
capability of Vivid T9 from
exported to removable image local GE service representative
EchoPAC PC
storage through DICOM media • File transfer enables the customer
• EchoPAC PC allows instant access
(biomed or clinician) to directly transfer
to ultrasound raw data provided • Internal hard disk – for storing
system information (e.g., system
by the system programs, application defaults,
logs, images, parametric data) to
• Comprehensive review, analysis ultrasound images and patient
GE product engineering teams (no
and post-processing capabilities archive
patient data transferred)
on EchoPAC PC • All data storage is based on
• Software reload provides remote
• Advanced quantitative analysis ultrasound raw data, allowing
application reconstruction and
and post-processing capabilities to change gain, baseline, color
recovery capabilities in the event
maps, sweep speeds, etc., for
• Q -analysis on raw data from of system corruption
recalled images and loops
Vivid T9 on EchoPAC PC
• DICOM media – read/write images Self-contained DICOM Viewer
• Three user levels help organize on DICOM format (optional)
data security requirements
• Alphanumeric data can be exported • Exams can be transferred to CD/DVD
in Microsoft® Excel ® compatible format or USB media with an integrated
Image and Data Management “EZ DICOM CD viewer ™ ”
• Exceptional workflow with instant • JPEG export for still frames
• Self-contained “EZ DICOM CD viewer™ ”
access data management • AVI and MPEG export for cineloops allows to review exams from media
• DICOM-SR standard structured • Ability to transfer Systole Only for on a standard PC, without installing
reporting mechanism (optional) Stress echo loops to PACS anything on the host PC
• Support for transfer of the propri-
etary raw data files within the Tricefy® Cloud Service Scanning Parameters
DICOM standard, configurable • Can serve as long-term archive • Digital beamformer with up to
per mode. 974,026 effective digital channels
• Can be used to share examinations
• 2D, CFM or TVI data at maximum with colleagues for information • Minimum field-of-view (depth): 1 cm
frame rate may be reviewed by or collaboration (probe dependent)
scrolling or by running cine loops • Can be used to share images • Maximum field-of-view (depth): 33 cm
(can contain more than 1,000 with patients (probe dependent)
images for imaging modes)
• Width range: 10°–168°
• Image clipboard for stamp-size Insite™ Express Connection (ExC) (probe dependent)
storage and review of stored Enables Remote Service and Training
• Continuous dynamic receive
images and loops • Easy, flexible and secure connectivity focus/continuous dynamic
• Built-in patient archive with configuration. The “Contact GE” receive aperture
images/loops, patient information, on-screen button directly generates • Adjustable dynamic range, infinite
measurements and reports a real-time service request to the upper level
• Structured findings report tools GE online engineering or application
• Image reverse: Right/left
help support efficient text entries specialist. It takes a snapshot
(e.g., error logs, setup files) of the • Image rotation of 0,° 180°
with direct editing of findings
text, usability enhancements, system at the time of the service
request to enable analysis of Tissue Imaging
new configuration options
and conclusion section problem before customer contact General
• User can enter normal values • Virtual Console Observation (VCO) • Variable transmit frequencies for
which are then compared to enables the customer to allow resolution/penetration optimization
actual measurements desktop screens to be viewed and • Display zoom with zoom area control
controlled remotely over the encrypted
• Configurable HTML-based • High-Resolution (HR) Zoom –
tunnel to enable real-time training,
report function concentrates all image acquisition
device configuration and clinical
• Report templates can be power into selected Region of
application support
customized on board Interest (ROI)

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 4 of 16

• Variable contour filtering – • Multiple-angle compound imaging – • Digital replay for retrospective
for edge enhancement multiple co-planar images from review of spectral data
• Depth range up to 30 cm – different angles combined into a • Several top-bottom formats,
(probe specific) single image in real time to help side-by-side format and time-motion
improve border definition, contrast only format – can be adjusted in live
• Selectable grayscale parameters resolution, and reducing angular or digital replay
(availability preset-dependent): dependence of border or edge as
Gain, reject, DDP, clarity, dynamic • Selectable horizontal scroll speed:
compared to previous generation
range and compress – can be 1, 2, 3, 4, 5, 6, 8, 12, 16 seconds
GE products
adjusted in live, digital replay and across display
• LOGIQ View (optional) – provides the
image clipboard recall • Horizontal scroll can be adjusted
ability to construct and view a static
in live or digital replay
• Automatically calculated TGC curves 2D image with wider field-of-view
helps reduce operator interaction of a given transducer. This allows Anatomical M-mode
• Automatically calculated lateral gain viewing and measurements of
• M-mode cursor can be adjusted
anatomy that is larger than what
at any plane
2D Mode would fit in a single image
• Virtual convex allows a wider • Curved anatomical M-mode –
• Sector tilt and width control
field-of-view in the depth and (optional) free (curved) drawing of
• Frame rate in excess of 1,000 fps, M-mode generated from the cursor
aims to enhance image quality
depending on probe, settings independent from the axial plane
on linear probes
and applications
• Virtual apex provides a wider • Can be activated from live, digital
• Coded octave imaging with coded replay or image clipboard recall
field-of-view with phased array
phase inversion – GE 3rd generation
probes, effective at certain imaging • Anatomical color and tissue
harmonic tissue imaging providing
views where a wide near field may velocity M-mode
enhanced lateral and contrast
be preferred
resolution as compared to • M& A capability
previous generation GE products. • L/R and up/down invert, in live, digital
Features help reduce noise, help replay or image clipboard recall Color Doppler Imaging
improve wall definition and axial • Digital replay for retrospective General
resolution, making it well suited review or automatic looping of
• Steerable color Doppler available
for a wide variety of patient groups images, allowing for adjustment
with all imaging probes – max
of parameters such as gain, reject,
• Confocal imaging – allows for steering angle is probe dependent
anatomical M-mode, persistence
multiple transmit focal zones over • Trackball-controlled ROI
and replay speed
range of view and a high vector
• Data dependent processing performs • Removal of color map from the
density, probes dependent
temporal processing which helps tissue during digital replay
• Automatic tissue optimization – reduce random noise but leaves • Digital replay for retrospective
single keystroke optimizes immedi- motion of significant tissue structures review of color or color M-mode
ately, automatically and dynamically largely unaffected – can be adjusted data allowing for adjustment of
different grayscale settings with the even in digital replay parameters such as encoding
goal of signal independent uniform
• 256 shades of gray principle, color priority and color
gain and contrast distribution
• Colorized 2D-mode, user-selectable gain even on stored data
• UD Clarity and UD Speckle reduce
in real-time, digital replay • PRF settings – user selectable
imaging – an advanced image
processing technique to help reduce • Advanced regression wall filter
M-mode
speckle in real time examining the gives efficient suppression of
• Trackball steers M-mode line wall clutter
relative difference between neigh-
available with all imaging probes –
boring pixel values and determining • For each encoding principle,
max steering angle is probe
whether the grayscale variations multiple color maps can be
dependent
have a sharp difference, follow a selected in live and digital replay –
trend, or are random in nature • Simultaneous real-time 2D-
variance maps available
and M-mode
• Variable image width – • More than 65,000 simultaneous
a reduction either increases frame • M-mode – image data acquired
colors processed, providing a smooth
rate or increases the number of is combined to give high-quality
display two-dimensional color maps
focal zones while maintaining the recording regardless of display
containing a multitude of color hues
frame rate – application dependent scroll speed

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 5 of 16

• Simultaneous display of grayscale Color M-mode Tissue Velocity Imaging
2D and 2D with color flow • Variable ROI length and position – Tissue Velocity Imaging Mode
• Color invert – user selectable in user selectable • Myocardial Doppler imaging with
live and digital replay
• User-selectable radial averaging to color overlay on tissue image
• Variable color baseline – user help reduce statistical uncertainty • Tissue Doppler data can be acquired
selectable in live and digital replay in the color velocity and variance in background during regular
• Multi-variate color priority function estimates 2D imaging
gives delineation of disturbed flows • Selectable horizontal scroll speed: • The velocity of myocardial segments
even across bright areas of the 1, 2, 3, 4, 5, 6, 8, 12, 16 seconds after entire heart cycle can be
2D-mode image across display – can be adjusted displayed in one single image
• Color Doppler frequency can be during live, digital replay or
image clipboard recall • Tissue color overlay can be removed
changed independently from 2D
to show just the 2D image, still retain-
• Real-time 2D image while in ing the tissue velocity information
Color Flow Imaging
color M-mode
• TruSpeed imaging allows either • Quantitative profiles for TVI, tissue
• Same controls and functions tracking, strain and strain rate can
ultra-high frame rate or increased
available as in standard 2D be derived (optional)
lateral resolution as compared to
color Doppler
previous generation GE products • Time markers for valve events derived
• Frame Rate in excess of 150 fps, Anatomical Color M-mode from any TM mode help simplify
depending on probe and settings • GE-patented, any plane color understanding of signals in velocity
• Variable ROI size in width and depth M-mode display derived from traces or curved anatomical M-mode

• User-selectable radial and lateral color Doppler cine loop

Tissue Tracking Mode (optional)
averaging to help reduce statistical • Also applicable to tissue
• Real-time display of the time integral
uncertainty in the color velocity velocity imaging
of TVI for quantitative display of
and variance estimates • M& A capability myocardial systolic displacement
• Data Dependent Processing (DDP)
B-flow (optional) • Myocardial displacement is calculated
performs temporal processing
and displayed as a color-coded overlay
and display smoothing to help • B-flow is a digital imaging technique
on the grayscale and M-mode image –
reduce loss of transient events of that provides real-time visualization
different colors represent different
hemodynamic significance of vascular hemodynamics by directly
displacement ranges
• Digital replay for retrospective review visualizing blood reflectors and
or automatic looping of color images, presenting this information in a Tissue Synchronization
allowing for adjustment of parameters grayscale display Imaging Mode (optional)
such as DDP, encoding principle, • Use of GE-patented techniques • Parametric imaging which gives
baseline shift, color maps, color to boost blood echoes, and to help information about synchronicity
priority and color gain even on preferentially suppress non-moving of myocardial motion
frozen/recalled data tissue signals
• Myocardial segments colored
• Application-dependent, multi-variate • B-flow is available for most vascular according to time to peak velocity,
motion discriminator reduces and shared service applications green for early and red for late peak
flash artifacts
Blood Flow Imaging (optional) • Waveform trace available to
• Application-dependent, multi-variate
obtain quantitative time to peak
motion discriminator helps reduce • Combines color Doppler with
flash artifacts measurement from TSI Image
grayscale speckle imaging
• Dedicated coronary flow application • Available in live scanning as well as
• Helps improve delineation of blood
an offline calculation derived from
flow without bleeding into tissue
Color Angio tissue Doppler data
or vessel wall
• Angle-independent mode for • Additional features in combination
visualization of small vessels with Blood Flow Angio Imaging (optional) with multi-dimensional imaging option
enhanced sensitivity compared to • Combines angio with grayscale • Efficient segment specific TSI
standard color flow of previous speckle imaging time measurements
GE products

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 6 of 16

• Immediate bull’s eye report • Dynamic reject gives consistent Contrast Imaging (optional)
• Automatic calculated TSI suppression of background – user L VO Contrast1 – Enables contrast
synchrony indexes selectable in real-time, digital replay applications intended for imaging
or image clipboard recall of the left ventricle:
• TSI surface mapping
• Digital replay for retrospective LV contrast (3Sc-RS probe) enhances
• LV synchronization report template
review of spectral Doppler data delineation of the LV border in combi-
• CRT programming protocol • Several top-bottom formats, nation with ultrasound contrast agents.
side-by-side format and time The new implementation of GE’s Coded
Strain/Strain Rate Mode (optional) Phase Inversion (CPI) provides high-
motion only format – can be
• Tissue deformation and rate of adjusted in live or digital replay resolution detection of contrast in the
deformation are calculated and LV cavity and excellent suppression
• Selectable horizontal scroll speed: of myocardial tissue signals.
displayed as real-time, color-coded
1, 2, 3, 4, 5, 6, 8, 12 seconds across
overlay on the 2D image
display – can be adjusted in live or Physiological Traces
• Tissue deformation (strain) is digital replay
calculated and displayed as • Integrated three-lead ECG
• Adjustable spectral Doppler display
real-time, color-coded overlay • ECG lead selection
parameters: Gain, reject, compress,
on the 2D Image • High-resolution display of the
color maps – can be adjusted in live
• Cine compound calculates and or digital replay ECG trace
displays cineloops generated • User adjustable trace gain and
• User-adjustable baseline shift –
from a temporal averaging of position controls
in live, digital replay and image
multiple consecutive heart cycles
clipboard recall • User pre-settable trace
• Anatomical M-mode and curved gain/position control
• Adjustable velocity scale
anatomical M-mode (optional)
• Angle correction with automatic • Automatic QRS complex detection
displays (SI and SRI) with user ability to modify QRS
adjustment of velocity scale –
in live, digital replay and image trigger positions
Spectral Doppler
clipboard recall
General Automatic Optimization
• Stereo speakers mounted in the
• Operates in PW, HPRF and CW modes front panel • Optimize B-mode image to help
improve contrast resolution, gain,
• Trackball steerable Doppler available • Display annotations of frequency, TGC and grayscale
with all imaging probes – max steering mode, scales, Nyquist limit, wall filter
angle is probe dependent • Auto-spectral optimize –
setting, angle correction, acoustic
adjustments baseline, PRF
• Selectable Doppler frequency for power indices
(on live image) and angle
enhanced optimization • Compound in duplex correction
• High-quality, real-time duplex
PW/HPRF Doppler
or triplex operation in all Measurement and Analysis
Doppler modes, in PW, and • Automatic HPRF Doppler maintains (M& A)
for all velocity settings its sensitivity even for shallow depths • Personalized measurement
• Frame rate control for optimized and with high PRF’s protocols allow individual set
use of acquisition power between • Digital velocity tracking Doppler and order of M& A items
spectrum, 2D and color Doppler employs processing in range and • Measurements can be labeled
modes in duplex or triplex modes time for high-quality spectral displays seamlessly by using protocols
• Very fast and flexible spectrum • Adjustable sample volume size or post assignments
analysis with an equivalent DFT of 1-16 mm (probe dependent) • Measurements assignable to
rate of 0.2 ms • Maximum sample volume depth 30 cm protocol capability
• Dynamic gain compensation for • Parameter annotation follow
CW Doppler ASE standard
display of flows with varying signal
strengths over the cardiac cycle to • Highly sensitive steerable • Seamless data storage and
help improve ease of use CW available with all phased report creation
array probes
• User-assignable parameters

1 Schering developed harmonic imaging for supporting contrast agent imaging.

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 7 of 16

• Comprehensive set of adult and ments of different regions of • 2D strain based data moves into
pediatric cardiac measurements the intima in the carotid vessel clinical practice
and calculations to help assess (e.g., Lt./Rt./CCA/ICA etc.) • Simplified and flexible workflow
dimensions, flow properties and • Frame for IMT measurement can with fully automated ROI tracing
other functional parameters of be selected in relation to the (if configured), adaptive ROI width
the heart ECG waveform and combined display of traces
• Comprehensive set of shared service from all segments
Z-Scores
measurements and calculations • User-selectable endo or full wall
covering vascular, abdominal, obstetrics • Support for three sets of user-
global strain values displayed
and other application areas selectable Z score publications2
covering the most common pediatric • Random sequence of analysis
• Configuration package to set up
dimension measurements of the three views supported
a customized set and sequence
of measurements to use, defining • Ability to exit tool after one or
Quantitative Analysis Package
user-defined measurements and two views completed
(Q-Analysis) (optional)
changing settings for the factory- • Applicable to transthoracic
defined measurements • Traces for tissue velocity or derived
2D and to TEE data
parameters (strain rate, strain,
• Stress echo support allowing wall displacement) inside defined regions • Integrated AutoEF calculation
motion scoring and automatic stress of interest as function of time
level labeling of measurements Automated Ejection-Fraction
• Contrast analysis with traces for Calculation (AutoEF 2.0) (optional )
• Support for measuring on grayscale intensity or angio power
DICOM images inside defined regions of interest • Second generation automated
• Cardiac Auto Doppler automatically as function of time EF measurement tool based on
provides Doppler measurement 2D-speckle tracking algorithm
• Curved anatomical M-mode display
results for the most common param- and on Simpson
allowing an M-mode along an
eters, with minimal user guidance arbitrary curve in a 2D image • Integrated into M& A package with
• Automatic Doppler trace functionality • Sample-area points may be dynami- worksheet summary
for use in non-cardiac applications cally anchored to move with the
in both live and replay Generic Measurements
tissue when running the cineloop
• Worksheet for review, edit and • Cine compound displays cineloops • BSA (Body Surface Area)
deletion of performed measurements generated from a temporal averaging • MaxPG (Maximum Pressure Gradient)
• Reporting support allowing a of multiple consecutive heart cycles
• MeanPG (Mean Pressure Gradient)
configurable set of measurements
Automated Function Imaging (AFI 2.0) • % Stenosis (Stenosis Ratio)
to be shown in the exam report
(optional)
• DICOM SR export of measurement data • PI (Pulsatility Index)
• Second generation parametric
• RI (Resistivity Index)
I ntima Media Thickness (IMT) imaging tool which gives
Measurements (optional) quantitative data for global • HR (Heart Rate) – beats/minute
and segmental strain • A /B Ratio (Velocities Ratio)
• Automatic measurements
(patent pending) of carotid artery • Allows comprehensive assessment • TAMAX (Time Averaged Maximum
Intima-Media Thickness (IMT) on at a glance by combining three Velocity) – Trace method is Peak
any acquired frame longitudinal views into one
or Manual
comprehensive bulls-eye view
• On-board IMT package facilitates • TAMIN (Time Averaged Minimum
non-interrupted workflow – fully • Integrated into M& A package with
Velocity) – Trace method is Floor
integrated with M& A, worksheet, specialized report templates
archiving and reporting functions
• Algorithm provides robust, quick,
2 C Kampmann, C M Wiethoff, A Wenzel, et. al. Normal Values of M Mode Echocardiographic Measurements
reliable measurements which can of More Than 2000 Healthy Infants and Children in Central Europe. Heart 2000; 83; 667-672.
be stored to the on-board archive
M Cantinotti, MD; M Scalese, MS; B Murzi, MD; et. al. Echocardiographic Nomograms for Chamber
for review and reporting
Diameters and Areas in Caucasian Children. Journal of American Society of Echocardiography
• IMT measurement can be made from December 2014; Volume 27, Issue 12; 1279-1292.e2.
frozen images or images retrieved M Cantinotti, MD; M Scalese, MS; B Murzi, MD; et. al. Echocardiographic Nomograms for Ventricular,
from archive Valvular and Arterial Dimensions in Caucasian Children with a Special Focus on Neonates, Infants
and Toddlers. Journal of American Society of Echocardiography February 2014; Volume 27, Issue 2;
• IMT package supports measure-
179-191.e2.

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 8 of 16

• TAMEAN (Time Averaged Mean • Estimated Fetal Weight (EFW) by: Abdominal Calculations
Velocity) – Trace method is Mean - AC, BPD • Splenic index
• Volume - AC, BPD, FL
• Liver volume, mass, cyst
- AC, BPD, FL, HC
OB/GYN Application Module • Pancreas
- AC, FL
• OB package for fetal growth - AC, FL, HC • CBD
analysis containing more than - AC, HC • GB wall, length
100 biometry tables - EFBW • Aorta prox, mid, dist
• Dedicated OB/GYN reports • Calculations and Ratios • Aorta iliac
• Fetal graphical growth charts - FL/BPD • Spleen volume
• Growth percentiles - FL/AC
• Bladder, post void bladder volume
• Multi-gestational calculations - FL/HC
(up to four) • Renal
- HC/AC
• Programmable OB tables - CI (Cephalic Index) • Cortex thickness
• Expanded worksheets - AFI (Amniotic Fluid Index) • Mesenteric (CA, SMA, IMA)
• User-selectable fetal growth - CTAR (Cardio-Thoracic Area Ratio)
parameters based on European, • Measurements/calculations by:
Vascular Calculations
American or Asian methods charts ASUM, ASUM 2001, Berkowitz, • RT ECA (Right External Carotid
Bertagnoli, Brenner, Campbell, CFEF, Artery Velocity)
• GYN package for ovary and uterus
measurements and reporting Chitty, Eik-Nes, Ericksen, Goldstein, • RT CCA (Right Common Carotid
Hadlock, Hansmann, Hellman, Hill, Artery Velocity)
OB Measurements/Calculations Hohler, Jeanty, JSUM, Kurtz, Mayden,
Mercer, Merz, Moore, Nelson, Osaka • RT ICA (Right Internal Carotid
• Gestational age by: Artery Velocity)
University, Paris, Rempen, Robinson,
- GS (Gestational Sac) Shepard, Shepard/Warsoff, Tokyo • RT ICA/CCA (Right Internal Carotid
- CRL (Crown Rump Length) University, Tokyo/Shinozuka, Yarkoni Artery Velocity/Common Carotid
- FL (Femur Length) • Fetal graphical trending Artery Velocity Ratio)
- BPD (Biparietal Diameter) • Growth percentiles • LT ECA, LT CCA, LT BIFURC, LT ICA,
- AC (Abdominal Circumference) LT ICA/CCA (same as above, for Left
• Multi-gestational calculations (four)
- HC (Head Circumference) Carotid Artery)
• Fetal qualitative description
- APTD x TTD (Anterior/Posterior (anatomical survey) • RT BULB (Right Bulbus Artery),
Trunk Diameter by Transverse RT VERT (Right Vertebral Aretry),
• Fetal environmental description RT SUBC (Right Subclavian Artery),
Trunk Diameter)
(biophysical profile)
- LV (Length of Vertebra) RT INN (Right Inn Artery)
• Programmable OB tables
- FTA • LT BULB, LT VERT, LT SUBC, LT INN
(Fetal Trunk Cross-sectional Area) • Over 20 selectable OB calculations
• Stent, pre-stent, post-stent
- HL (Humerus Length) • Expanded worksheets
• A /B Ratio (Velocities Ratio)
- BD (Binocular Distance)
GYN Measurements/Calculations • % Stenosis (Stenosis Ratio)
- FT (Foot Length)
• Right ovary length, width, height • S/D Ratio (Systolic Velocity/Diastolic
- OFD (Occipital Frontal Diameter)
• Left ovary length, width, height Velocities Ratio)
- TAD
(Transverse Abdominal Diameter) • Uterus length, width, height • PI (Pulsatility Index)
- TCD • Cervix length, trace • RI (Resistivity Index)
(Transverse Cerebellum Diameter) • Ovarian volume • HR (Heart Rate) – beats/minute
- THD (Thorax Transverse Diameter) • ENDO (endometrial thickness) • UEV (Upper Extremity Vein velocities):
- TIB (Tibia Length) IJV, SUBC, Axill V, Bas V, RV, UV, Ves,
• Ovarian RI
- ULNA (Ulna Length) Pseudo, AVF, CephV
• Uterine RI
• UEA (Upper Extremity Artery velocities):
• Follicular measurements Inn, SUBC, Axill, BA, RA, UA, Pseudo,
• Summary reports AVF, Ves

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 9 of 16

• LEV (Lower Extremity Vein velocities): • AV AccT/ET (AV Acceleration • EDV (Cube) (Left Ventricle Volume,
CFV, Saph FemJunc V, PopV, PTV, ATV, to Ejection Time Ratio) Diastolic, 2D, Cubic)
FV, GSV Calf, GSV Thigh, GSV Access, • AV EOA I (VTI) (Aortic Valve • EF (A-L A2C) (Ejection Fraction 2CH,
LSV, Saph PopJunc Effective Orifice Area Index Single Plane, Area-Length)
• LEA (Lower Extremity Artery by Continuity Equation VTI) • E-F Slope (Mitral Valve E-F Slope)
velocities): EIA, SFA, Pop, PTA,
• AV EOA I Vmax (Aortic Valve • EPSS (E-Point-to-Septum Separation,
Peron, DPA, ATA,CFA, DFALEA
Effective Orifice Area Index M-mode)
• MCA (Middle Cerebral Artery), by Continuity Equation Peak V)
ACA (Anterior Cerebral Artery), • ERO (Effective Regurgitant Orifice)
• AV CO (Cardiac Output by Aortic Flow)
PCA (Posterior Cerebral Artery), • ESV (Cube) (Left Ventricle Volume,
AcomA (Anterior Communicating • AV Cusp Systolic, 2D, Cubic)
Artery), PComA (Posterior (Aortic Valve Cusp Separation, 2D)
• HR (Heart Rate, 2D, Teicholtz)
Communicating Artery), • AV Dec Time
Basilar (Basilar Artery), Ves • IVC (Inferior Vena Cava)
(Aortic Valve Deceleration Time)
• IVCT (Isovolumic Contraction Time)
• AV Diam (Aortic Diameter, 2D)
Cardiac Measurements • IVRT (Isovolumic Relaxation Time)
• AV max PG
• %FS (LV Fractional Shortening)
(Aortic Valve Peak Pressure Gradient) • IVSd (Interventricular Septum
• %IVS Thck (IVS Fractional Shortening) Thickness, Diastolic, 2D)
• AV mean PG
• %LVPW Thck (LV Posterior (Aortic Valve Mean Pressure Gradient) • VSs (Interventricular Septum
Wall Fractional Shortening) Thickness, Systolic, 2D)
• AV SV (Stroke Volume by Aortic Flow)
• Ao Arch Diam (Aortic Arch Diameter) • LA Diam (Left Atrium Diameter, 2D)
• AV Vmax (Aortic Valve Peak Velocity)
• Ao asc (Ascending Aortic Diameter) • LA Major (Left Atrium Major)
• AV Vmean (AV Mean Velocity)
• Ao Desc Diam • LA Minor (Left Atrium Minor)
• AV VTI
(Descending Aortic Diameter)
(Aortic Valve Velocity Time Integral) • L A/Ao (LA Diameter to
• Ao Isthmus (Aortic Isthmus) AoRoot Diameter Ratio, 2D)
• AVA (Vmax) (AV Area by Continuity
• Ao Root Diam (Aortic Root Diameter) Equation by Peak V) • LAAd (A2C) (Left Atrium Area, Apical 2C)
• AR ERO • AVA (VTI) (AV Area by Continuity • LAEDV (A-L)
(PISA: Regurgitant Orifice Area) Equation VTI) (LA End Diastolic Volume, Area-Length)
• AR Flow (PISA: Regurgitant Flow) • AVA Planimetry (Aortic Valve Area) • L AEDV Index (A-L) (LA End Diastolic
• AR PHT (AV Insuf. Pressure Half Time) Volume Index, Area-Length)
• AVET (Aortic Valve Ejection Time)
• AR Rad (PISA: Radius of Aliased Point) • L AESV (A-L) (LA End Systolic Volume,
• CO (Teich)
Area-Length)
• AR RF (Regurgitant Fraction (Cardiac Output, M-mode, Teicholtz)
over the Aortic Valve) • L AESV Index (A-L) (LA End Systolic
• D-E Excursion
Volume Index, Area-Length)
• AR RV (MV Anterior Leaflet Excursion)
(PISA: Regurgitant Volume Flow) • LAEDV MOD
• E’ Avg (Averaged early diastolic
(LA End Diastolic Volume MOD)
• AR Vel (PISA: Aliased Velocity) mitral valve annular velocity)
• LAESV MOD
• AR Vmax (Aortic Insuf. Peak Velocity) • E’ Lat (Early diastolic mitral valve
(LA End Systolic Volume MOD)
• AR VTI lateral annular velocity)
• LIMP (Left Index of
(Aortic Insuf. Velocity Time Integral) • E’ Sept (Early diastolic mitral valve
Myocardial Performance)
• ARed max PG (Aortic Insuf. septal annular velocity)
• LVA (s) (Left Ventricular Area,
End-Diastole Pressure Gradient) • E/E’ Avg
Systolic, 2CH)
• ARed Vmax (Aortic Insuf. (Mitral inflow E velocity to E’ Avg ratio)
• LVAd (A2C) (Left Ventricular Area,
End-Diastolic Velocity) • E/E’ Lat
Diastolic, 2CH)
• AV Acc Slope (Mitral inflow E velocity to E’ Lat ratio)
• LVAd (sax) (LV area, SAX, Diastolic)
(Aortic Valve Flow Acceleration) • E/E’ Sept
(Mitral inflow E velocity to E’ Sept ratio) • LVAend (d) (LV Endocardial Area, SAX)
• AV Acc Time
(Aortic Valve Acceleration Time)

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 10 of 16

• LVAepi (d) (LV Epicardial Area, SAX) • MCO (Mitral Valve closure to Opening) • MV SI
• LVAs (A4C) • MP Area (Mitral Valve Prosthesis) (Stroke Volume Index by Mitral Flow)
(Left Ventricular Area, Systolic, 4CH) • MR Acc Time • MV SV (Stroke Volume by Mitral Flow)
• LVAs (sax) (LV area, SAX, Systolic) (MV Regurg. Flow Acceleration) • MV Time to Peak
• LVd Mass (LV Mass, Diastolic, 2D) • MR ERO (Mitral Valve Time to Peak)

• LVd Mass (LV Mass, Diastolic, M-mode) (PISA: Regurgitant Orifice Area) • MV Vmax (Mitral Valve Peak Velocity)

• LVd Mass Index • MR Flow (PISA: Regurgitant Flow) • MV Vmean (MV Mean Velocity)
(LV Mass Index, Diastolic, 2D) • MR max PG • MV VTI
• LVEDV (A-L A2C) (LV Volume, Diastolic, (Mitral Regurg. Peak Pressure Gradient) (Mitral Valve Velocity Time Integral)
2CH, Area-Length) • MR Rad (PISA: Radius of Aliased Point) • MVA (Mitral Valve Area)
• LVESV (A-L A2C) (LV Volume, Systolic, • MR RF (Regurgitant fraction • MVA By PHT
2CH, Area-Length) over the Mitral Valve) (Mitral Valve Area according to PHT)
• LVET (Left Ventricle Ejection Time) • MR RV (PISA: Regurgitant Volume Flow) • MVA by plan (Mitral Valve Area, 2D)
• LVIDd • MR Vel (PISA: Aliased Velocity) • MVET (Mitral Valve Ejection Time)
(LV Internal Dimension, Diastolic, 2D) • MR Vmax (Mitral Regurg. Peak Velocity) • P Vein A (Pulmonary Vein Velocity
• LVIDs • MR Vmean Peak A) – reverse
(LV Internal Dimension, Systolic, 2D) (Mitral Regurg. Mean Velocity) • P Vein A Dur
• LVLd (apical) • MR VTI (Pulmonary Vein A-Wave Duration)
(Left Ventricular Length, Diastolic, 2D) (Mitral Regurg. Velocity Time Integral) • P Vein D (Pulmonary Vein
• LVLs (apical) • MV A Dur End-Diastolic Peak Velocity)
(Left Ventricular Length, Systolic, 2D) (Mitral Valve A-Wave Duration) • P Vein S (Pulmonary Vein
• LVOT Area • MV A Velocity (MV Velocity Peak A) Systolic Peak Velocity)
(Left Ventricle Outflow Tract Area) • PAEDP
• MV Acc Slope
• LVOT CO (Mitral Valve Flow Acceleration) (Pulmonary Artery Diastolic Pressure)
(Cardiac Output by Aortic Flow) • PE(d) (Pericard Effusion, M-mode)
• MV Acc Time
• LVOT Diam (Left Ventricular Outflow (Mitral Valve Acceleration Time) • PEs (Pericard Effusion, 2D)
Tract Diameter)
• MV Acc/Dec Time • PR max PG (Pulmonic Insuf.
• LVOT max PG (MV: Acc.Time/Decel.Time Ratio) Peak Pressure Gradient)
(LVOT Peak Pressure Gradient)
• MV an diam • PR mean PG (Pulmonic Insuf.
• LVOT mean PG (Mitral Valve Annulus Diameter, 2D) Mean Pressure Gradient)
(LVOT Mean Pressure Gradient)
• MV CO (Cardiac Output by Mitral Flow) • PR PHT
• LVOT SI (Pulmonic Insuf. Pressure Half Time)
(Stroke Volume Index by Aortic Flow) • MV Dec Slope
(Mitral Valve Flow Deceleration) • PR Vmax
• LVOT SV (Pulmonic Insuf. Peak Velocity)
(Stroke Volume by Aortic Flow) • MV Dec Time
(Mitral Valve Deceleration Time) • PR VTI (Pulmonic Insuf.
• LVOT Vmax (LVOT Peak Velocity) Velocity Time Integral)
• MV E Velocity (MV Velocity Peak E)
• LVOT Vmean (LVOT Mean Velocity) • PRend max PG (Pulmonic Insuf.
• MV E/A Ratio
• LVOT VTI (LVOT Velocity Time Integral) (Mitral Valve E-Peak to A-Peak Ratio) End-Diastole Pressure Gradient)
• LVPWd (Left Ventricular Posterior Wall • MV max PG • PRend Vmax (Pulmonic Insuf.
Thickness, Diastolic, 2D) (Mitral Valve Peak Pressure Gradient) End-Diastolic Velocity)
• LVPWs (Left Ventricular Posterior Wall • MV mean PG • Pulmonic Diam
Thickness, Systolic, 2D) (Mitral Valve Mean Pressure Gradient) (Pulmonary Artery Diameter, 2D)
• LVs Mass (LV Mass, Systolic, 2D) • MV PHT • PV Acc Slope
• LVs Mass Index (Mitral Valve Pressure Half Time) (Pulmonic Valve Flow Acceleration)
(LV Mass Index, Systolic, 2D) • MV Reg Frac • PV Acc Time
• LAAd (A2C) (Left Atrium Area, Apical 2C) (Mitral Valve Regurgitant Fraction) (Pulmonic Valve Acceleration Time)

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 11 of 16

• PV Acc Time/ET Ratio (PV Acceleration • RV Major (Right Ventricle Major) • SI (bullet)
to Ejection Time Ratio) • RV Minor (Right Ventricle Minor) (LV Stroke Index, Bi-plane, Bullet)
• PV an diam • RV S’ (Tricuspid annulus systolic • SI (MOD A2C) (LV Stroke Index,
(Pulmonic Valve Annulus Diameter, 2D) excursion velocity) Single Plane, 2CH, MOD)
• PV Ann Area (Pulmonic Valve Area) • RVAWd (Right Ventricle • SI (MOD A4C) (LV Stroke Index,
• PV CO Wall Thickness, Diastolic, 2D) Single Plane, 4CH, MOD)
(Cardiac Output by Pulmonic Flow) • RVAWs (Right Ventricle • SI (Teich) (LV Stroke Index,
• PV max PG (Pulmonic Valve Wall Thickness, Systolic, 2D) Teicholtz, 2D)
Peak Pressure Gradient) • RVET (Right Ventricle Ejection Time) • SI (Teich) (LV Stroke Index,
• PV mean PG (Pulmonic Valve Teicholtz, M-mode)
• RVIDd (Right Ventricle Diameter,
Mean Pressure Gradient) Diastolic, 2D) • SV (A-L A2C) (LV Stroke Volume,
• PV SV Single Plane, 2CH, Area-Length)
• RVIDs
(Stroke Volume by Pulmonic Flow) (Right Ventricle Diameter, Systolic, 2D) • SV (A-L A4C) (LV Stroke Volume,
• PV Vmax Single Plane, 4CH, Area-Length)
• RVOT Area
(Pulmonary Artery Peak Velocity) (Right Ventricle Outflow Tract Area) • SV (Bi-plane) (LV Stroke Volume,
• PV Vmean (PV Mean Velocity) Bi-plane, MOD)
• RVOT Diam
• PV VTI (RV Output Tract Diameter, 2D) • SV (bullet) (LV Stroke Volume,
(Pulmonic Valve Velocity Time Integral) Bi-plane, Bullet)
• RVOT Diam (RV Output
• PVA (VTI) (Pulmonary Artery Tract Diameter, M-Mode) • SV (MOD A2C) (LV Stroke Volume,
Velocity Time Integral) Single-plane, 2CH, MOD) – Simpson
• RVOT max PG
• PVein S/D Ratio (RVOT Peak Pressure Gradient) • SV (MOD A4C) (LV Stroke Volume,
(Pulmonary Vein SD Ratio) Single-plane, 4CH, MOD) – Simpson
• RVOT meanPG
• PVET (Pulmonic Valve Ejection Time) (RVOT Mean Pressure Gradient) • SV (Cube) (LV Stroke Volume, 2D, Cubic)

• PVPEP • RVOT SI (LV Stroke Volume Index • SV (Cube)

(Pulmonic Valve Pre-Ejection Period) by Pulmonic Flow) (LV Stroke Volume, M-mode, Cubic)

• PVPEP/ET Ratio (PV Pre-Ejection • RVOT SV (Stroke Volume • SV (Teich)

to Ejection Time Ratio) by Pulmonic Flow) (LV Stroke Volume, 2D, Teicholtz)

• Qp/Qs • RVOT Vmax (RVOT Peak Velocity) • SV (Teich)

(Pulmonic-to-Systemic Flow Ratio) (LV Stroke Volume, M-mode, Teicholtz)
• RVOT Vmean (RVOT Mean Velocity)
• RA Major (Right Atrium Major, 2D) • Systemic Diam
• RVOT VTI (RVOT Velocity Time Integral) (Systemic Vein Diameter, 2D)
• RA Minor (Right Atrium Minor, 2D) • RVSP • Systemic Vmax
• RAA (d) (Right Ventricle Systolic Pressure) (Systemic Vein Peak Velocity)
(Right Atrium Area, 2D, Diastole) • RVWd (Right Ventricle Wall Thickness, • Systemic VTI
• RAA (s) Diastolic, M-mode) (Systemic Vein Velocity Time Integral)
(Right Atrium Area, 2D, Systole) • RVWs (Right Ventricle Wall Thickness, • TAPSE (Tricuspid Annular Plane
• RAEDV A2C (Right Atrium End Systolic, M-mode) Systolic Excursion)
Diastolic Volume, Apical 2 Chamber) • RAA (d) • TCO
• RAESV A-L (Right Atrium Area, 2D, Diastole) (Tricuspid Valve Closure to Opening)
(RA End Systole Volume [A-L]) • RAA (s) • TR max PG (Tricuspid Regurg.
• RALd (Right Atrium Length, Diastole) (Right Atrium Area, 2D, Systole) Peak Pressure Gradient)
• RALs (RA Length, Systole) • SI (A-L A2C) (LV Stroke Index, • TR mean PG (Tricuspid Regurg.
• RIMP (Right Index of Single Plane, 2CH, Area-Length) Mean Pressure Gradient)
Myocardial Performance) • SI (A-L A4C) (LV Stroke Index, • TR Vmax
• RJA (A4C) (Regurgitant Jet Area) Single Plane, 4CH, Area-Length) (Tricuspid Regurg. Peak Velocity)
• RJA/LAA • SI (Bi-plane) • TR Vmean
(Regurgitant Jet Area ratio RJA/LAA) (LV Stroke Index, Bi-plane, MOD) (Tricuspid Regurg. Mean Velocity)

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 12 of 16

• TR VTI (Tricuspid Regurgitation Text Annotations • Preview of store: Show running
Velocity Time Integral) • Easy selection of text annotations loops as preview before storing
• T V A dur from touch screen to the examination
(Tricuspid Valve A-Wave Duration) • Option to automatically activate Continuous Capture
• TV A Velocity (Tricuspid Valve A Velocity) annotation on freeze
• Continuously acquire large
• T V Acc Time amounts of 2D image data,
(Tricuspid Valve Time to Peak) Scan Assist Pro (optional)
and selection of projection
• TV Ann Area (Tricuspid Valve Area) • Customizable automations that views for analysis afterwards
assist the user through each step
• T V ann diam (Tricuspid Valve Annulus • The entire continuous capture
of the scan
Diameter, 2D) recording may be kept in memory
• Helps enhance consistency and while it is possible to store new
• TV Area (Tricuspid Valve Area, 2D) reduce keystrokes images outside the protocol
• TV CO • Supports selection of all modes, all template, or the entire recording
(Cardiac Output by Tricuspid Flow) measurements and dual annotations can be stored to file
• T V Dec Slope • Imaging attributes: Octave, Steer, • Selection of projection views on
(Tricuspid Valve Flow Deceleration) Dual/Quad screen, Compound, EchoPAC when the entire recording
• TV E Velocity (Tricuspid Valve E Velocity) LOGIQ View, Zoom, Depth, Scale is stored to file
and Baseline
• T V E/A Ratio (Tricuspid Valve
• On-line or off-line protocol editor Wall Motion Scoring
E-Peak to A-Peak Ratio)
• Image acquisition according to • A s part of the measurement and
• T V max PG (Tricuspid Valve
predefined protocol templates analysis package one can access
Peak Pressure Gradient)
• Various factory protocol templates a wall motion assessment module,
• T V mean PG (Tricuspid Valve providing analysis/scoring of indi-
Mean Pressure Gradient) • User configurable protocol templates
vidual myocardial segments
• T V mean PG (Tricuspid Valve • For use with all stress modalitiese
Stress Echo (optional)
Mean Pressure Gradient)
Supported Protocol Examinations
• TV PHT Smart Standby (optional)
(Tricuspid Valve Pressure Half Time) • 2D pharmacological stress echo
• In case of accidental shutdown or
• TV SV • 2D bicycle stress echo power failure, the system automati-
(Stroke Volume by Tricuspid Flow) • 2D continuous capture stress echo cally saves data and the system
(treadmill stress echo) turns into “Standby” mode
• TV Vmean (TV Mean Velocity)
• Q-Stress protocols (acquire tissue • When power is restored, the system
• TV VTI
velocity data in background for automatically turns on instantly,
(Tricuspid Valve Velocity Time Integral)
quantitative analysis) maintaining the exact system state
• VSD max PG
• Cardiac resynchronization prior to shutdown
(VSD Peak Pressure Gradient)
therapy programming protocols
• VSD Vmax (VSD Peak Velocity) Safety Conformance
Protocol Examinations May Include
Please refer to the Reference Manual The Vivid T9 is:
for the full list of measurements and • Wall motion scoring:
• CE Marked to Council Directive
calculations for all applications. Analysis by wall motion in
93/42/EEC on Medical Devices
individual myocardial segments
Annotations • Show reference: Show a reference Conforms to the following standards
Body Marks image from baseline or previous for safety:
level during acquisition • IEC 60601-1 Medical electrical
• Body mark icons for location and
position of probe • Smart stress: Automatically set equipment – Part 1: General
up various scanning parameters requirements for safety
• Option to automatically activate
(for instance geometry, frequency,
body mark on freeze • IEC 60601-1-2 Medial electrical
gain, etc.) according to same
• Easy selection of body marks from equipment – Part 1-2: General
projection on previous level
touch screen requirements for safety
• Scan mode settings: Scan mode
• Easy selection of body marks for may be specified for individual
dual-screen layout views in the protocol

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 13 of 16

• Collateral Standard: Electromagnetic Whitelisting L8-18i-RS Linear Array Probe
compatibility – requirements and • Prevents non-listed applications • Probe presets: Peripheral vascular,
tests EMC Emissions Group 1 Class A from running small organs, intraoperative,
device requirements as per CISPR 11 musculoskeletal
• IEC 60601-2-37 Medical electrical Transducers
equipment – Part 2-37: Particular 3Sc-RS Phased Array Probe 4C-RS Curved Array Probe
requirements for the safety of • Probe presets: Cardiac, pediatric, • Probe presets: Abdomen, GYN,
ultrasonic medical diagnostic and abdominal, fetal, adult cephalic, fetal/obstetrics, neonatal cephalic,
monitoring equipment LVO Contrast (optional) pediatrics, urological
• ISO 10993-1 Biological evaluation of • Biopsy guide: Multi-angle disposable • Biopsy guide: Multi-angle disposable
medical devices – Part 1: Evaluation with a reusable bracket with a reusable bracket
and testing
6S-RS Phased Array Probe C1-5-RS Curved Array Probe
• EN 62366 Medical devices –
application of usability engineering • Probe presets: Pediatric, fetal, • Probe presets: Abdomen, GYN,
to medical devices neonatal cephalic, abdominal fetal/obstetrics, neonatal cephalic,
pediatrics, urological
12S-RS Phased Array Probe
Inputs and Outputs • Biopsy guide: Multi-angle disposable
• Probe presets: Pediatric,
• VGA output (1080P resolution) neonatal cephalic, abdomen with a reusable bracket
• Composite color video output via
6Tc-RS TEE Probe 8C-RS Curved Array Probe
an adapter
• Probe presets: Cardiac, • Probe presets: Abdomen, pediatrics,
• S-Video output via an adapter
LVO contrast (optional) neonatal cephalic, peripheral
• Audio stereo output vascular, cardiac
• 100BASE-TX ethernet (RJ45) 9T-RS TEE Probe • Biopsy guide: Fixed-angle,
• USB (3x in rear, 3 under keyboard) • Probe preset: Pediatric disposable, or reusable bracket

9L-RS Linear Array Probe E8Cs-RS Endo Curved Array Probe

Virus Protection
• Probe presets: Peripheral vascular, • Probe presets: GYN, transvaginal,
• To reduce virus vulnerability, Vivid T9 abdomen, pediatrics, small organs,
is configured with a minimal set of fetal/obstetrics, urological,
neonatal cephalic, musculoskeletal transrectal
open ports and with all network
• Biopsy guide: Multi-angle disposable
services not actively used by the • Biopsy guide: Fixed-angle,
with a reusable bracket
system closed down. This helps to disposable, or reusable bracket
reduce the risk of a virus attack on 12L-RS Linear Array Probe
Vivid T9. E8C-RS Endo Micro Convex Probe
• Probe presets: Peripheral vascular,
• GE is continuously judging the need abdomen, pediatrics, small organs, • Probe presets: Fetal echo, follicle,
for additional actions to reduce neonatal cephalic, musculoskeletal GYN, OB1, prostate
vulnerability of equipment; this • Biopsy guide: Multi-angle disposable • Biopsy guide: Fixed-angle,
includes vulnerability scanning of with a reusable bracket disposable, or reusable bracket
our products and evaluation of new
security patches for the third-party L6-12-RS Linear Array Probe P2D Pencil Probe
technology used. Microsoft (and • Probe presets: Peripheral vascular, • Probe preset: Cardiac
other) security patches that address abdomen, pediatrics, small organs,
serious issues with Vivid T9 will be neonatal cephalic, musculoskeletal
made available to customers after • Biopsy guide: Multi-angle disposable
GE verification of those patches. with a reusable bracket

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 14 of 16

 PROBE FREQUENCY RANGE CATALOG #
3Sc-RS 1.3 – 4.0 MHz H45041DL
6S-RS 2.0 – 7.0 MHz H45021RP
12S-RS 4.5 – 12.0 MHz H44901AB
6Tc-RS 3.0 – 8.0 MHz H45551ZE
9T-RS 4.0 – 10.0 MHz H45531YM
9L-RS 3.0 – 10.0 MHz H40442LL
12L-RS 4.0 – 13.0 MHz H40402LY
L6-12-RS 4.0 – 13.0 MHz H48062AC
L8-18i-RS 4.5 – 18.0 MHz H40462LF
4C-RS 1.5 – 5.0 MHz H4000SR
C1-5-RS 1.5 – 5.0 MHz H40462LA
8C-RS 3.5 – 10.0 MHz H40402LS
E8Cs-RS 3.5 – 10.0 MHz H48062AF
E8C-RS 3.5 – 11.0 MHz H40402LN
P2D 1.9 – 2.1 MHz H45551CA

Vivid T9 product datasheet – December 2018 – DOC2087422 Page 15 of 16

Product may not be available in all countries and regions.
Full product technical specification is available upon request.
Contact a GE Healthcare Representative for more information.
Please visit www.gehealthcare.com/promotional-locations.

Data subject to change.

© 2018 General Electric Company. DOC2087422

GE, the GE Monogram, imagination at work, Vivid,

EchoPAC, InSite and LOGIQ are registered trademarks
of General Electric Company.

DICOM is the registered trademark of the National

Electrical Manufacturers Association for its standards
publications relating to digital communications of
medical information.

Microsoft, Windows and Excel are trademarks of

Microsoft Corporation.
Tricefy is a trademark of Trice Imaging, Inc.

All other third-party trademarks are the property

of their respective owners.

Reproduction in any form is forbidden without

prior written permission from GE. Nothing in this
material should be used to diagnose or treat any
disease or condition. Readers must consult a
healthcare professional.

About GE Healthcare
GE Healthcare is a leading provider of medical imaging,
monitoring, biomanufacturing, and cell and gene therapy
technologies. GE Healthcare enables precision health
in diagnostics, therapeutics and monitoring through
intelligent devices, data analytics, applications and
services. With over 100 years of experience and leader-
ship in the healthcare industry and more than 50,000
employees globally, GE Healthcare helps healthcare
providers, researchers and life sciences companies in
their mission to improve outcomes for patients around
the world. Follow us on Facebook.com, LinkedIn.com,
Twitter.com and The Pulse.com for latest news, or visit
our website www.gehealthcare.com for more information.

GE Healthcare
9900 Innovation Drive
Wauwatosa, WI 53226
U.S.A.

www.gehealthcare.com

DOC2087422