Vivid S70N

beam forming technology. In 4D, Ease of use for the operator in 2D

cSound delivers volume sizes suited imaging is provided by the cSound
for full volume single-beat and technology delivering auto optimized
multi-beat 4D acquisition (option). excellent image quality with little
Using both coherent and harmonic manipulation along with automated
image processing, the system tools like 2D Auto EF, AFI Productivity
provides computational power, Package, Cardiac Auto Doppler and
ease of imaging, workflow flexibility Scan Assist Pro.
and product upgradeability.
Ease of use in 4D imaging is accom-
The Vivid S70N excels in the
plished with a number of GEHC
following areas:
innovations, including Single Beat 4D,
Exceptional image quality on the 4D Views, Advanced 4D User Toolbox
Vivid S70N is created through the use of including FlexiSlice, Advanced 4D User
Ultra Definition Clarity filtering, elevation Quantification Package, 4D Auto LVQ,
compound imaging (considering a 4D Auto MVQ, 4D Auto AVQ, FlexiViews
wider slice for 2D imaging) with the 6VT and View-X.
probe, HD Imaging (balanced resolu-
tion, penetration and image uniformity), Ergonomic features include the
virtual convex (wider field-of-view in “FlexFit” mechanism enabling continu-
the far field) for the linear probes and ous pivoting height adjustment of the
virtual apex (larger field-of-view) for control panel, allowing the user to adjust
the FPA probes. distance to the control panel while
Product Description
providing the adequate legroom for
The Vivid™ S70N combines the proven Probe Technology – The XDclear ™ series
standing or sitting positions. In addition,
breadth and performance of the of probes are designed to help deliver
the articulating monitor arm (horizontal
Vivid product line with the innovative powerful and efficient sound waves,
and vertical), and lightweight transducers
software image processing platform: with high bandwidth and efficiency.
combine to make the Vivid S70N an
cSound.™ The Vivid S70N is GE cardio- XDclear probe technology provides
extremely ergonomic-friendly cardio-
vascular ultrasound’s high-end scanner. impressive deep penetration and high
vascular ultrasound system.
sensitivity while maintaining high spatial
The cSound architecture benefits all resolution. The combination of Single Portability – The Vivid S70N’s compact
Vivid S70N probes and applications. Crystal, Acoustic Amplifier and Cool size and light weight, combined with
The Vivid S70N supports the following Stack technologies is the core technology a fold-down monitor, enables easy
clinical applications: Adult cardiac of the XDclear series of probes.
(2D and 4D transesophageal), coronary, transportation and promotes scanning
pediatric, fetal heart, obstetrics, gyne- Ease of use features make Vivid S70N at the patient site. The battery provides
cology, abdominal, small parts, thyroid, an extremely productive 2D and 4D a transportation mode that keeps
adult and neonatal cephalic, peripheral cardiovascular ultrasound system. the system ready to scan within a few
vascular, musculoskeletal conventional, seconds of being connected to a
The combination of the touch screen
nerves and urology. power outlet.
control with conventional (tactile) buttons
provide intuitive controls, helping the The cSound platform takes GE’s
System Architecture operator maintain focus on the patient Raw Data to a new level. For image
GE’s innovative, programmable and and the ultrasound images during the processing and reconstruction, the
flexible software beamforming tech- exam. The touch screen can also provide Vivid S70N utilizes more than 100 times
nology, cSound, provides exceptional alpha-numeric (A/N) keyboard entry the data compared to the Vivid S6.
image quality and power compared or a dedicated A/N keyboard option
to conventional GE hardware-based can be purchased.

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 1 of 18

Additionally, the Vivid S70N uses the • Four swivel wheels – three wheel LCD Monitor
proven Raw data format technology brakes, one wheel direction lock • 21.5" wide screen High-Definition (HD)
that allows for advanced processing on • Integrated cable management flicker-free LCD display
archived images by applying many of
• Easily accessible removable • 256 shades of gray and 16.7 million
the same scan controls and advanced
air filters for cleaning simultaneous colors available
quantitative tools as are available
during the original exam. • Front and rear handles • Articulated monitor arm
• Rear storage trays/baskets • LCD translation
General Specifications • Hand rest (independent of console)
- 350 mm horizontal bidirectional
Dimensions and Weight
User Interface - 150 mm vertical height adjustment
• Width: 54 cm, 21.4" - Swivel to any viewing direction
• Depth: 76 cm, 30.2" Operator Keyboard
• Fold down and rotation lock
• Height: 132 cm – 167 cm, • Ergonomic FlexFit design with mechanism for transportation
52.0" – 65.7" left/right swivel and up/down
• Horizontal viewing angle of more
• Minimum height with arm-mobility of keyboard and
than 170°
folded screen: 118 cm, 46.5" monitor permitting both physiological
sitting or standing operation • Resolution: 1920 x 1080 pixels
• Weight: <73 kg, 161 lbs
• Touch keyboard with support for • Manual backlight and digital
Electrical Power characters in 12 languages brightness and contrast adjustment
• Drawer type A/N keyboard (option) for excellent viewing in different
• Nominal input voltage:
ambient light conditions
100-240 VAC, 50/60 Hz • Physical keyboard support
• Tint adjustments
• Rated power consumption: 500 VA for international characters
in 7 languages (option) • Separate adjustment for external
monitor brightness/contrast
Operating System • Ergonomic hard key layout
• Windows 7 ®
• Interactive back-lighting of System Overview
application-specific push buttons –
Uninterruptible Power Supply adjustable back-light intensity Probe Presets
• Battery backup for standby • Integrated gel holders • Cardiac
• In case of power failure or accidental • Easy-to-learn user interface with • Stress (optional)
shutdown, when power is restored intelligent keyboard • Abdominal
within less than 20 minutes, the system • Peripheral vascular
• Dedicated rotary for overall gain
automatically turns on instantly, for 2D-mode • Fetal heart
maintaining exact system state prior
to shutdown • Dedicated gain rotary for M-mode, • Pediatrics
CFM or Doppler controlled by • Neonatal cephalic
• For longer periods of power interrup- active mode
tions, the system automatically saves • Adult cephalic
• Image manager on the touch • Small parts
data and changes into “Standby” state
screen for quick review of image
• Thyroid
clipboard contents
Console Design • Musculoskeletal
• Five active probe ports Touch Screen • Urology
• ECG port • 12" ultra-high-resolution, wide screen • Transesophageal
• Integrated HDD format, color, multi-touch LCD screen • OB/GYN
• Multiple USB ports (front/back) • Interactive user-configurable • Intracardiac
dynamic software menu • Coronary (part of QuickApps)
• Integrated DVD-R multi drive (optional)
• Backlight adjustment – automatic by • LVO Contrast
• On-board storage for B/W
light sensor or manual (optional – accessed through QuickApps)
thermal printer
• Touch-panel control of TGC sliders • Advanced vascular/abdominal
• Integrated speakers for
• Touch-panel controls content can contrast (optional)
premium sound
be set to routine or extended usage • Nerves

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 2 of 18

Operating Modes Transducer Types External peripherals
• 2D tissue • Sector phased array • Network printers
• 4D tissue (optional) • Convex array - Color laser printer
- Color video printer with control
• 2D color flow • Linear array
from system
• 4D color flow (optional) • Single crystal matrix array
• 16 GB encrypted memory stick
• 2D angio flow • 2D matrix array (option)
• Three-pedal configurable footswitch
• Color M-mode • 2D matrix array (option)
External outputs
• Tissue velocity M-mode
4D Features • DVI-D
• Continuous wave Doppler (available with 6VT-D probe • Ethernet – 10 Mbps, 100 Mbps,
• Tissue M-mode and the 4D option) 1 Gbps electrically isolated
• Pulsed wave Doppler • Single, dual or multiple cycle • Multiple USB 2.0 ports
• Anatomical M-mode volume acquisition

• Curved anatomical M-mode • Bi-plane acquisition includes tilt Accessories (options)

and rotate • Interface cable for external ECG and
• Tissue velocity imaging
• Tri-plane acquisition external respiratory
• Tissue tracking
• Multi-dimensional • ECG adapter for DIN-type pediatrics
• Tissue synchronization imaging electrode leads
(bi-plane/tri-plane) color acquisition
(optional)
• FlexiSlice with depth mode • Cable storage box
• Strain imaging (optional)
• QuickRotate/Rotate
• Strain rate imaging (optional) Display Modes
• 2 Click crop
• Tissue velocity Doppler • Live and stored display format:
• Flip crop Full size and split screen, both
• Blood flow imaging (option)
• View crop with thumbnails, for still and cine
• B-flow (option)
• Dynamic view crop • Instant-review screen displays 12
• 2D stress (optional)
simultaneous loops/images for a
• FlexiZoom
• AFI Automated Function Imaging quick study review
(optional) • Laser lines
• Selectable display configuration of
• Auto EF (optional) • Depth color render duplex and triplex modes: Side-by-
• 2D virtual apex imaging • Automated 4D left ventricular side or top-bottom during live, digital
• Bi-plane (optional) quantification (LV volume and EF) replay and clipboard image recall

• Tri-plane (optional) • FlexiViews • Single, dual and quad-screen view

• Bi- and tri-plane with color (optional) • Dynamic multi-slice views • Simultaneous capability
• Live multi-slice views - 2D + PW/CW
• Coded phase inversion
• Dynamic crop - 2D + CFM/TVI + PW
• Compound imaging
- 2D + CFM + CW
• Extended field-of-view (LOGIQ™ View) • Measurement on render
- 2D + CFM/Angio/TVI/SRI/TT/SI/TSI
• 4D full-volume acanning – single Optional 4D Features - 2D + M/AMM/CAMM
beat and multi beat (optional) - 2D + CFM/Angio/TVI/SRI/TT/SI/TSI +
• 4D Auto MVQ
M/AMM/CAMM
Scanning Methods • 4D Auto AVQ
- Real-time duplex or triplex mode
• Electronic sector • View-X
- Compound + M/CFM/PW
• Electronic volume (option) - 4D + CFM (optional with 6VT probe
Peripheral Options
• Electronic convex and 4D option)
Internal peripherals
• Electronic linear - 2D + Bi-plane (optional with
• USB B/W video printer with control 6VT probe and 4D option)
• CW pencil from system (optional)

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 3 of 18

 - 2D + Bi-plane + CFM/TVI/SRI/TT/SI/ • Hospital name • Application/preset name
TSI/AMM/ CAMM (optional with • Date format: Two types selectable – • Measurement results
6VT probe and 4D option) MM/DD/YY, DD/MM/YY • Operator message
- 2D + Tri-plane (optional with • Time format: Two types selectable –
6VT probe and 4D option) • Displayed acoustic output
24 hours, 12 hours
- TIS: Thermal Index Soft Tissue
- 2D + Tri-plane + FM/TVI/SRI/TT/SI/ • Gestational age from LMP/EDD/GA
TSI/AMM/CAMM (optional with - TIC: Thermal Index Cranial (Bone)
• Probe name - TIB: Thermal Index Bone
6VT probe and 4D option)
• Map names • MI: Mechanical index
- 2D + color split screen
(simultaneous mode) • Probe orientation • Power output in dB
• Selectable alternating modes • Depth scale marker • Biopsy guide line and zone
- 2D or compound + PW • Focal zone markers • Heart rate
- 2D + CW • Image depth • Trackball-driven annotation arrows
- 2D or compound + CFM/PW
• Zoom depth • Active mode display
- 2D + CFM + CW
• B-mode • Stress protocol parameters
• Multi-image (split/quad screen)
- Gain
- Live and/or frozen • Parameter annotation follow
- Imaging frequency ASE standard
- Independent cine playback
- Frame averaging
• Timeline display • Free text with word library
• M-mode
- Independent 2D (or compound) + • 4D slice intersection markers
PW/CW/M display - Gain (with 6VT probe and 4D option)
- A choice of display formats with - Frequency
• 4D gauge (with 6VT probe option)
various sizes of 2D + PW/CW/M - Time scale
• 4D viewing angle arrows
• Top/bottom selectable format • Doppler mode (with 6VT probe and 4D option)
• Side/side selectable format - Gain
• 4D geometry viewer
- Angle (with 6VT probe and 4D option)
• 4D display (optional with 6VT probe
and 4D option) - Sample volume size and position
• 4D number of cycles
- Two + one slice and render view - Wall filter (with 6VT probe and 4D option)
- Quad view (three slice and render) - Velocity and/or frequency scale
• Scan plane position indicator and
- Single render view - Spectrum inversion probe temperature are displayed
- Slice-only view • Time scale with all TEE probes
- Live multi-slice - PRF • Image orientation marker
- FlexiSlice (live and replay) - Doppler frequency
- Bi-plane side/side view • Color flow Doppler mode General System Parameters
- Tri-plane view (quad including - Frame rate System Setup
geometry viewer) - Sample volume size • Pre-programmable M& A and
- Crop view - Color scale annotation categories
(three orthogonal slice + render)
- Power • Different user presets per
- Apical slice view
- Color baseline probe/application may be
(three 60 degrees view + render)
- Color threshold marker stored for quick access
- Cine rotate render view
- Bi-plane prepare (two slice + render) - Color gain • User programmable preset capability
• Spectrum inversion with administrator preset protection
Display Annotation • Acoustic frame rate • QuickApps: Factory and user pro-
• Patient name: First, last and middle grammable sub-preset feature that
• CINE gauge, image number/frame
• Patient ID keeps 2D and geometry settings
number
while allowing different color flow
• Additional patient ID • Bodymarks: Multiple human or contrast parameters
• Age, sex and birth date anatomical structures

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• Factory default preset data, • Storage formats: • Simultaneous transfer of DICOM
protected against modification - DICOM®-compressed or uncom- to multiple destinations (optional)
• User Interface languages: English, pressed, single/multi-frame,
LA Spanish, French, German, Italian, with/without raw data, storage Patient Archive
Portuguese (European and Brazilian), via clipboard and/or seamlessly
directly to destination device EchoPAC™/Patient Archive
Russian, Swedish, Norwegian, Danish,
- Transfer/“Save As” JPEG, MPEG, • Integrated EchoPAC functionality
Dutch, Finnish
AVI and VolDicom (with 6VT probe adds connectivity and image
• User-defined annotations analysis capability to scanner
and 4D option) formats
• Body patterns • Storage devices: • Data format fully compatible with
• Customized comment home position offline EchoPAC review/reporting
- USB memory stick: 16 GB
stations of same or newer vintage
- CD-RW storage: 700 MB
Comprehensive User Manual (DVD option required) • Instant access to ultrasound raw
Available on Board - DVD storage: -R (4.7 GB) data provided by the system
Available through touch-panel utility (DVD option required) • Advanced post-processing analysis
page. User manual and service manual - Hard drive image storage: 0.5 TB • Three user levels help organizing
are included on a USB memory device • Compare old images with data security requirements
with each system. A printed user current exam • E-signoff compatibility, with clear
manual is provided. indications in patient management
• Reload of archived data sets
screens and report screen that a
CINE Memory/Image Memory • Activation control of USB devices
report was signed off, and by whom
(for security)
• 2 GB of cine memory and at what time. The signed off
report and exam cannot be changed.
• Selectable cine sequence for Connectivity and DICOM The “Diagnosing Physician” field is
cine review • Ethernet network connection automatically assigned to the user
• Measurements/calculations and • Wireless network connection that did the sign-off
annotations on cine playback
• DICOM 3.0
• Scrolling timeline memory Image and Data Management
• Verify (optional)
• Dual-image cine display • Exceptional workflow with instant
• Print (optional) access data management
• Quad-image cine display
• Store (optional) • DICOM 3.0 support – see DICOM
• CINE gauge and cine image conformance statement for details
• Modality worklist (optional)
number display
• Storage commitment (optional) • Support for transfer of the proprietary
• CINE review loop raw data files within the DICOM
• Modality Performed Procedure Step
• CINE review speed standard
(MPPS) (optional)
• 2D, CFM or TVI data at maximum
• Media exchange
Image Storage frame rate may be reviewed by
• 4D virtual store (with 6VT probe • DICOM spooler (optional) scrolling or by running cine loops
and 4D option) for efficient 4D • DICOM query/retrieve (optional) (can contain more than 1000 images
image management for imaging modes)
• Structured reporting – compatible
• On-board database of patient with adult cardiac, pediatric and • Image clipboard for stamp-size
information from past exams vascular (optional) storage and review of stored
images and loops
• User-selectable ECG and time • Media store of structured reporting
• Built-in patient archive with
gated acquisition available on • InSite™ ExC capability for remote
images/loops, patient information,
touch panel during live service/access
measurements and reports
• User-selectable prospective or • Support of two patients’ IDs in DICOM
• DICOM-SR Standard structured
retrospective capture in config (optional)
reporting mechanism (option)
• Separate DICOM SR and image
storage destinations (optional)

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 5 of 18

• Structured findings report tools Insite™ Express Connection (ExC) Tissue Imaging
support efficient text entries with Enables Remote Service and Training General
direct editing of findings text, usability
• Easy, flexible and secure connectivity • Variable transmit frequencies for
improvements, new configuration
configuration. The “Contact GE” resolution/penetration optimization
options and conclusion section
on-screen button directly generates
• User can enter normal values • Display zoom with zoom area control
a real-time service request to the
which are then compared to actual GE online engineering or application • High-Resolution (HR) zoom –
measurements concentrates all image acquisition
specialist. It takes a snapshot
• Configurable HTML-based power into selected Region of
(e.g., error logs, setup files) of the
report function Interest (ROI)
system at the time of the service
• Report templates can be customized request to enable analysis of • Variable contour filtering – for edge
on board problem before customer contact enhancement

• ASE-based default text modules • Virtual Console Observation (VCO) • Depth range up to 36 cm –
(English), user-customizable enables the customer to allow probe specific

• Internal archive data can be desktop screens to be viewed and • Selectable grayscale parameters:
exported to removable image controlled remotely over the encrypted Gain, reject, DDP, clarity, dynamic
storage through DICOM media tunnel to enable real-time training, range and compress – can be
device configuration and clinical adjusted in live, digital replay
• Internal hard disk – for storing and image clipboard recall
application support
programs, application defaults, (probe dependent)
ultrasound images and patient • Operation of Insite Express Connection
archive is dependent on the infrastructure • Automatically calculated TGC curves
being available – check with your reduces operator interaction
• All data storage is based on
ultrasound raw data, allowing to local GE service representative • Automatically calculated lateral gain
change gain, baseline, color maps, • File transfer enables the customer • Smart depth: automatically optimizing
sweep speeds, etc., for recalled (biomed or clinician) to directly transfer transmit pattern parameters according
images and loops system information (e.g., system to scan-depth setting
• DICOM media – read/write images logs, images, parametric data) to
2D Mode
on DICOM format GE product engineering teams (no
patient data transferred) • Sector tilt and width control
• DICOM viewer embedded on media
(optional and selectable in Config) • Software reload provides remote • Frame rate in excess of 1500 fps,
application reconstruction and depending on probe, settings
• Alphanumeric data can be exported
recovery capabilities in the event and applications
in XML format
of system corruption • Coded octave imaging with coded
• JPEG export (“Save As” ) for still frames
phase inversion – 3rd generation
• AVI and MPEG export (“Save As”) Scanning Parameters harmonic tissue imaging providing
for cineloops improved lateral and contrast resolu-
• Infinite number of effective channels
• Specialized file format “Save As” tion over conventional fundamental
• Minimum field-of-view range (depth): imaging. Features help reduce noise,
VolDICOM feature to allow data
import into TomTec Research 0 – 2 cm (zoom) (probe dependent) improve wall definition, and axial
Arena free-standing workstation • Maximum field-of-view range (depth): resolution, making it well suited for
(with 6VT probe and 4D option) 0 – 36 cm (probe dependent) a wide variety of patient groups
• Width range: 10 – 120 degrees • Confocal imaging – allows for
Self-contained DICOM Viewer multiple transmit focal zones over
(optional) • Continuous dynamic receive focus/
range of view and a high vector
continuous dynamic receive aperture density, probes dependent
• Exams can be transferred to CD/DVD
or USB media with an integrated • Adjustable dynamic range, infinite • Automatic tissue optimization –
“EZ DICOM CD viewer ™ ” upper level single keystroke optimizes immedi-
• Self-contained “EZ DICOM CD viewer™ ” • Image reverse: Right/left ately automatically and dynamically
allows to review exams from media different grayscale settings with the
• Image rotation of 0,° 180°
on a standard PC, without installing goal of signal independent uniform
anything on the host PC gain and contrast distribution

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• UD clarity and UD speckle reduce • 256 shades of gray • 2 Click crop for quick and easy
imaging – an advanced image • Colorized 2D-mode, user-selectable extraction of standard and non-
processing technique to remove standard views for visualization
in real-time, digital replay
speckle in real-time examining the of 4D structures seen during or
relative difference between neigh- 4D Mode (option) after the examination
boring pixel values and determining
• Flexi-volumes with customizable • Stereo vision in 4D
whether the grayscale variations
have a sharp difference, follow a acquisition for volume size, volume • Laser lines to help improve the visual
trend, or are random in nature rate or resolution linkage between the 4D-rendered
• HD imaging – real-time simultaneous • Single-beat 4D scanning with view and the 2D slices
acquisition at dual frequencies real-time volume rendering display • Wide range of depth color
compounded to help reduce speckle • Multi-beat 4D scanning for rendering maps
and noise while enhancing resolution high-resolution scanning • QuickRotate and Rotate for a flexible
and contrast
• Adjustable volume sizes for both and easily accessible way of obtaining
• Multiple-angle compound imaging – the desired single- or multi-plane,
single- and multi-beat scanning
multiple co-planar images from dif- two-dimensional views
ferent angles combined into a single • Adjustable volume shape control
image in real-time to help enhance • FlexiViews offer instant access to
• Pre-defined volume sizes for quick
border definition and contrast predefined (factory or user created)
volume setup
resolution, as well as reduce angular 4D views during live mode
• Adjustable number of cycles for
dependence of border or edge as
compared to no-compound imaging
multi-beat scanning 4D Analysis Tools
• FlexiZoom for easy 4D visualization (with 6VT probe and 4D option)
• Elevation compounding
(with 6VT probe) of structures of interest 4D Views
• LOGIQ View: Provides the ability to • 4D scanning supporting variable • Auto alignment to define standard
construct and view a static 2D image octave and fundamental frequencies orientation of acquired 4D data
with wider field-of-view of a given • Coherent volume processing with • Standard views, such as 4CH, 2CH,
transducer. This allows viewing and motion compensation for seamless LAX, mitral valve and aortic valve,
measurements of anatomy that and artifact-free 4D and 2D slices are defined from the standard
is larger than what would fit in a orientation
single image • Variable frame rate settings available
• Automatic display of volume
• Virtual convex allows a wider • Volume optimize control for
renderings and 2D cut planes
field-of-view in the depth and volume rendering transparency
from standard views
aims to enhance image quality and quality setting
on linear probes • Flip crop available for changing 4D Data Cropping
• Virtual apex provides a wider 4D view direction 180 degrees • Flexible tool for standard or dynamic
field-of-view with phased array with mirrored crop volume cropping (with Advanced 4D option)
probes, effective at certain imaging 4D data using up to six different
• D ynamic multi-slice enables
views where a wide near field may crop planes
positioning of the multi-slice,
be preferred
short-axis cut-planes at same • Each crop plane can be moved
• L/R and up/down invert, in live, digital anatomical position throughout without any restrictions
replay or image clipboard recall the heart cycle
• Digital replay for retrospective • The crop plane positions are visible
• Live multi-slice layouts available in both the volume rendering and in
review or automatic looping of
during live 4D acquisition the 2D cut plane displays
images, allowing for adjustment
of parameters such as gain, reject, • FlexiSlice for interactive slicing,
cropping and navigation designed Depth Render
anatomical M-mode, persistence
and replay speed to provide the user with a flexible, • Volume visualization where the
• Data dependent processing performs yet intuitive way of extracting color hue changes according to
temporal processing which helps 2D slices from 4D data sets the distance into the image
reduce random noise but leaves • View crop setting for toggle control • Wide selection of different
motion of significant tissue structures of view plane vs. crop plane render maps
largely unaffected – can be adjusted
even in digital replay

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Stereo Render • Digital replay for retrospective review • Simultaneous display of grayscale
• Volume visualization by stereoscopic of spectral data 2D and 2D with color flow
display necessitates the use of • Several top-bottom formats, side-by- • Color invert – user-selectable in live
red/cyan stereoscopic glasses side format and time-motion-only and digital replay
for StereoVision format – can be adjusted in live or • Variable color baseline –
digital replay user-selectable in live and
MultiSlice
• Selectable horizontal scroll speed: digital replay
• Simultaneous display of 5, 6, 7, 9 1, 2, 3, 4, 6, 8, 12, 16 seconds • Multi-variate color priority function
or 12 slices extracted from the 4D across display gives delineation of disturbed flows
volume data (tissue and/or color)
• Horizontal scroll can be adjusted even across bright areas of the
• Combination of short axis and long in live or digital replay 2D-mode image
axis standard views.
• Color Doppler frequency can be
• Available in live (with Advanced 4D Anatomical M-mode
changed independently from 2D
option) and replay • M-mode cursor can be adjusted
at any plane Color Flow Imaging
FlexiSlice
• Curved anatomical M-mode – • The cSound platform with its parallel
• Simultaneous display of three free (curved) drawing of M-mode beamformer architecture allows a
independent random slices through generated from the cursor combination of ultra-high frame
the 4D volume (tissue and color) independent from the axial plane rate and increased lateral resolution
• Can be activated from live, digital compared to previous generation
FlexiViews
replay or image clipboard recall GE scanners
• Provides instant access to predefined
• Anatomical color and tissue • Very high digital signal processing
(factory or user created) 4D views
velocity M-mode power, maintaining high frame rates
during live mode
• M& A capability with large ROI's even for very low
• May provide more consistent data PRF settings
while reducing scanning time
Color Doppler Imaging • Frame rate in excess of 700 fps,
General depending on probe and settings
Multi-dimensional Mode
(with 6VT-D probe and 4D option) • Steerable color Doppler available • Variable ROI size in width and depth
• Bi-plane scanning: Two independent with all imaging probes – max • User-selectable radial and lateral
simultaneous scan planes where one steering angle is probe dependent averaging to help reduce statistical
of them can be rotated and tilted freely • Trackball-controlled ROI uncertainty in the color velocity and
• Bi-plane prepare mode for ease of • Removal of color map from the variance estimates
obtaining bi-plane views from 4D tissue during digital replay • Data Dependent Processing (DDP)
render data sets • Digital replay for retrospective performs temporal processing and
• Tri-plane: Three independent review of color or color M-mode display smoothing to help reduce loss
simultaneous scan planes that data allowing for adjustment of of transient events of hemodynamic
can be rotated freely parameters such as encoding significance
principle, color priority and color • Digital replay for retrospective review
• Both bi-plane and tri-plane scanning
gain even on stored data or automatic looping of color images,
is possible in all color Doppler modes
• PRF settings – user-selectable allowing for adjustment of parameters
M-mode such as DDP, encoding principle,
• Advanced regression wall filter gives
baseline shift, color maps, color
• Trackball steers M-mode line efficient suppression of wall clutter
priority and color gain even on
available with all imaging • For each encoding principle, multiple frozen/recalled data
probes – max steering angle color maps can be selected in live
is probe dependent • Application-dependent, multi-variate
and digital replay – variance maps
motion discriminator helps reduce
• Simultaneous real-time available
flash artifacts
2D- and M-mode • More than 65,000 simultaneous
colors processed, providing a smooth • Dedicated coronary flow application
• M-mode PRF 1 kHz – image data
acquired is combined to give display two-dimensional color maps • Multiple-angle compound imaging in
high-quality recording regardless containing a multitude of color hues 2D mode is maintained while in color
of display scroll speed Doppler mode

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 8 of 18

4D Color Doppler Imaging • Real-time 2D image while in • Tissue color overlay can be removed to
(with 6VT-D probe and 4D option) color M-mode show just the 2D image, still retaining
• Single-beat 4D color flow scanning • Same controls and functions available the tissue velocity information

• Volume size control to change the as in standard 2D color Doppler • Quantitative profiles for TVI, tissue
size of the color ROI tracking, strain and strain rate can
Anatomical Color M-mode be derived
• Multi-beat 4D color flow scanning
using ECG stitching for increased • GE-patented, any plane color • Time markers for valve events derived
volume rate M-mode display derived from from any TM mode help simplify
color Doppler cine loop understanding of signals in velocity
• Adjustable number of cycles for
multi beat scanning • Also applicable to tissue traces or curved anatomical M-mode
velocity Imaging
• Variable volume rate settings Tissue Tracking Mode
available • M& A capability
• Real-time display of the time integral
• Flip crop available for changing of TVI for quantitative display of
4D view direction 180 degrees with B-flow
myocardial systolic displacement
mirrored crop volume • B-flow is a digital imaging technique
that provides real-time visualization • Myocardial displacement is calculated
• View-crop setting for toggle control and displayed as a color-coded
of view plane vs. crop plane of vascular hemodynamics by directly
visualizing blood reflectors and overlay on the grayscale and M-mode
• Stereo vision in 4D color image – different colors represent
presenting this information in a
• T issue transparency control grayscale display different displacement ranges
• Flow transparency control • Use of GE-patented techniques to Tissue Synchronization Imaging Mode
• Seamless transition from 2D boost blood echoes, and to help (option, enabled by Advanced QScan)
color to 4D color keeping ROI preferentially suppress non-moving • Parametric imaging which gives
size and position tissue signals information about synchronicity
• B-flow is available for most vascular of myocardial motion
Multi-Dimensional and shared service applications • Myocardial segments colored
Color Doppler Imaging
according to time to peak velocity,
(with 6VT-D probe and 4D option) Blood Flow Imaging green for early and red for late peak
• Bi-plane and tri-plane scanning • Combines color Doppler with
with all color Doppler and tissue • Waveform trace available to
grayscale speckle imaging
velocity modes obtain quantitative time to peak
• Helps improve delineation of blood measurement from TSI Image
Color Angio flow without bleeding into tissue or • Available in live scanning, as well as
vessel wall
• Angle-independent mode for an offline calculation derived from
visualization of small vessels with tissue Doppler data
Blood Flow Angio Imaging
increased sensitivity compared • Additional features in combination
• Combines angio with grayscale
to standard color flow of previous with multi-dimensional imaging option
GE products speckle imaging
• Simultaneous acquisition of tri-plane
Color M-mode Tissue Velocity Imaging TSI images covering all standard
Tissue Velocity Imaging Mode segments in apical views
• Variable ROI length and position –
user-selectable • Myocardial Doppler imaging with • Efficient segment specific TSI time
color overlay on tissue image measurements
• User-selectable radial averaging to
help reduce statistical uncertainty • Tissue Doppler data can be acquired • Immediate bulls-eye report
in the color velocity and variance in background during regular • Automatic calculated TSI
estimates 2D imaging synchrony indexes
• Selectable horizontal scroll speed: • The velocity of myocardial segments • TSI surface mapping
1, 2, 3, 4, 6, 8, 12, 16 seconds after entire heart cycle can be
across display – can be adjusted • LV synchronization report template
displayed in one single image
during live, digital replay or image • CRT programming protocol
clipboard recall

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 9 of 18

Strain/Strain Rate Mode • Dynamic reject gives consistent • Digital velocity tracking Doppler
(option, enabled by Advanced QScan) suppression of background – employs processing in range and
• Tissue deformation (strain) and rate user-selectable in real-time, digital time for high-quality spectral displays
of deformation (strain rate) are cal- replay or image clipboard recall • Adjustable sample volume size of
culated and displayed as real-time, • Digital replay for retrospective 1-16 mm (probe dependent)
color-coded overlay on the 2D image review of spectral Doppler data • Maximum sample volume depth 30 cm
• Cine compound calculates and • Several top-bottom formats,
displays cineloops generated from side-by-side format and time- CW Doppler
a temporal averaging of multiple motion-only format – can be • Highly sensitive steerable CW available
consecutive heart cycles adjusted in live or digital replay with all phased array probes
• Anatomical M-mode and curved • Selectable horizontal scroll speed:
Tissue Velocity Doppler
anatomical M-mode displays 1, 2, 3, 4, 6, 8, 12, 16 seconds across
(SI and SRI) display – can be adjusted in live or
Contrast 1, 2
digital replay
Spectral Doppler LVO Contrast1
• Adjustable spectral Doppler display (optional – accessed through QuickApps)
General parameters: Gain, reject, compress,
• Enables contrast applications intended
• Operates in PW, HPRF and CW modes color maps – can be adjusted in live for imaging of the left ventricle
or digital replay
• Trackball steerable Doppler available • LV contrast (M5Sc-D, 6VT-D probes)
with all imaging probes – max steering • User-adjustable baseline shift – enhances delineation of the LV border
angle is probe dependent in live, digital replay and image in combination with ultrasound
• Selectable Doppler frequency for clipboard recall contrast agents. The implementation
enhanced optimization • Adjustable velocity scale of GE's Coded Phase Inversion (CPI)
provides high-resolution detection
• High-quality, real-time duplex or • Wall filters with range 10-2000 Hz
of contrast in the LV cavity and
triplex operation in all Doppler (velocity scale dependent) excellent suppression of myocardial
modes, CW and PW, and for • Angle correction with automatic tissue signals
all velocity settings adjustment of velocity scale – • LVO stress (M5Sc-D probe) provides
• Frame rate control for optimized in live, digital replay and image enhanced delineation of the LV
use of acquisition power between clipboard recall border when contrast is used as
spectrum, 2D and color Doppler part of an exercise stress exam,
• Auto Doppler angle
modes in duplex or triplex modes preserving an adequately long
• Stereo speakers mounted in the
• Very fast and flexible spectrum continuous capture buffer length
front panel
analysis with an equivalent DFT
rate of 0.2 ms • Display annotations of frequency, Liver Contrast1, 2 (optional)
mode, scales, Nyquist limit, wall filter Imaging of the liver for characterization
• Automatic Spectrum Optimization
setting, angle correction, acoustic of focal liver lesions.
(ASO) provides a single press,
power indices
automatic, real-time optimization Physiological Traces
of PW or CW spectrum scale, and • Compound in duplex
• Integrated three-lead ECG module
baseline display
PW/HPRF Doppler • Automatic QRS complex detection
• Dynamic gain compensation for
display of flows with varying signal • Automatic HPRF Doppler maintains • External ECG lead input
strengths over the cardiac cycle to its sensitivity even for shallow depths • Internally generated respiratory
help improve ease of use and with the highest PRF's trace using ECG leads
• ECG lead selection
• Adjustable ECG QRS markers

1 Schering developed harmonic imaging for supporting contrast agent imaging. Automatic Optimization
2 GE Healthcare's Vivid scanner is designed for compatibility with commercially available contrast • Dynamic optimization of B-mode
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
image to improve contrast resolution,
available before the contrast agent is approved for use. Advanced contrast features are only TGC and grayscale (soft or sharp,
enabled on systems for delivery in countries or regions where the agents are approved for use or user-selectable)
for investigational or research use.

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 10 of 18

• Auto-spectral optimize – dynamic I ntima Media Thickness (IMT) 4D Auto AVQ (optional, requires
adjustments of baseline, and PRF Measurements (optional) 4D option to enable – used with 6VT probe)
(on live image) and angle correction • Automatic measurements • Automated alignment, segmentation
(patent pending) of carotid artery and measurement of aortic annulus
Measurement and Analysis Intima-Media Thickness (IMT) on from volumetric data sets
(M& A) any acquired frame • Editing by point and click
• Personalized measurement • On-board IMT package facilitates • User approval of final results
protocols allow individual set non-interrupted workflow – fully
and order of M& A items integrated with M& A, worksheet, • Fully integrated in M& A system
archiving and reporting functions with results in worksheet
• Measurements can be labeled
seamlessly by using protocols • Algorithm provides robust, quick, View-X (optional, used with 6VT probe
or post assignments reliable measurements which can and 4D option)
• Measurements assignable to be stored to the on-board archive
• 
Interface between a cath system
protocol capability for review and reporting
and the Vivid scanner, such that the
• Parameter annotation follow • IMT measurement can be made from cath x-ray image can be shown on
ASE standard frozen images or images retrieved the Vivid scanner screen, together
from archive with the ultrasound image (picture-
• Seamless data storage and
report creation • IMT package supports measure- in-picture)
ments of different regions of
• User-assignable parameters
the intima in the carotid vessel Quantitative Analysis Package
• Comprehensive set of cardiac (e.g., Lt./Rt./CCA/ICA etc.) (Q-Analysis) (optional)
measurements and calculations
• Frame for IMT measurement can • Traces for tissue velocity or derived
to help assess dimensions, flow
be selected in relation to the parameters (strain rate, strain,
properties and other functional
ECG waveform displacement) inside defined regions
parameters of the heart
of interest as function of time
• Comprehensive set of shared service Z-Scores
measurements and calculations • Contrast analysis with traces for
• Limited implementation of z-scores
covering vascular, abdominal, obstetrics grayscale intensity or angio power
for a set of predefined pediatric
and other application areas inside defined regions of interest
dimension measurements
• Configuration package to set up as function of time
a customized set and sequence 4D Auto LVQ (included with • Curved anatomical M-mode display
of measurements to use, defining 4D option – used with 6VT probe) allowing an M-mode along an
user-defined measurements and • Automated measurement of LV arbitrary curve in a 2D image
changing settings for the factory- volume and EF from volumetric data • Sample-area points may be dynami-
defined measurements
• Automated identification of cally anchored to move with the
• Stress echo support allowing wall standard views tissue when running the cineloop
motion scoring and automatic stress
• Validation of detected boundaries • Cine compound displays cineloops
level labeling of measurements
• LV volume waveform for entire generated from a temporal averaging
• Support for measuring on of multiple consecutive heart cycles
cardiac cycle
DICOM images
• ED and ES automatically selected
• Cardiac Auto Doppler automatically Automated Function Imaging (AFI)
from volume waveform (max/min)
provides Doppler measurement (optional)
results for the most common param- • Editing by point and click
• Parametric imaging tool which
eters, with minimal user guidance • User approval of final results gives quantitative data for global
• Automatic Doppler trace functionality • Fully integrated into M& A system and segmental wall motion
for use in non-cardiac applications with results in worksheet
• Allows comprehensive assessment
in both live and replay
4D Auto MVQ (optional, requires at a glance by combining three
• Worksheet for review, edit and 4D option to enable – used with 6VT probe) longitudinal views into one
deletion of performed measurements comprehensive bulls-eye view
• GE's fully integrated semiautomated
• Reporting support allowing a
mitral valve quantification package • Integrated into M& A package with
configurable set of measurements
offers the ability to visualize the specialized report templates
to be shown in the exam report
mitral valve and include quantitative • 2D strain based data moves into
• DICOM SR export of measurement data results into the patient exam clinical practice

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 11 of 18

• Simplified workflow with fully OB Measurements/Calculations • Fetal graphical trending
automated ROI tracing (if configured), • Gestational age by: • Growth percentiles
quick tips and combined display of
- GS (Gestational Sac) • Multi-gestational calculations (four)
traces from all segments
- CRL (Crown Rump Length)
• Fetal qualitative description
Automated Ejection-Fraction - FL (Femur Length) (anatomical survey)
Calculation (AutoEF) (optional) - BPD (Biparietal Diameter)
• Fetal environmental description
• Automated EF measurement tool - AC (Abdominal Circumference) (biophysical profile)
based on 2D-speckle tracking - HC (Head Circumference)
• Programmable OB tables
algorithm and on Simpson - APTD x TTD (Anterior/Posterior
Trunk Diameter by Transverse • Over 20 selectable OB calculations
• Integrated into M& A package with
worksheet summary Trunk Diameter) • Expanded worksheets
- LV (Length of Vertebra)
Generic Measurements - FTA GYN Measurements/Calculations
• BSA (Body Surface Area) (Fetal Trunk Cross-sectional Area) • Right ovary length, width, height
- HL (Humerus Length) • Left ovary length, width, height
• MaxPG (Maximum Pressure Gradient)
- BD (Binocular Distance)
• MeanPG (Mean Pressure Gradient) • Uterus length, width, height
- FT (Foot Length)
• % Stenosis (Stenosis Ratio) • Cervix length, trace
- OFD (Occipital Frontal Diameter)
• PI (Pulsatility Index) - TAD • Ovarian volume
• RI (Resistivity Index) (Transverse Abdominal Diameter) • ENDO (endometrial thickness)
- TCD • Ovarian RI
• HR (Heart Rate) – beats/minute
(Transverse Cerebellum Diameter)
• A /B Ratio (Velocities Ratio) • Uterine RI
- THD (Thorax Transverse Diameter)
• TAMAX (Time Averaged Maximum - TIB (Tibia Length) • Follicular measurements
Velocity) – Trace method is Peak - ULNA (Ulna Length) • Summary reports
or Manual
• Estimated Fetal Weight (EFW) by:
• TAMIN (Time Averaged Minimum Vascular Calculations
- AC, BPD
Velocity) – Trace method is Floor - AC, BPD, FL • RT ECA (Right External Carotid
• TAMEAN (Time Averaged Mean Artery Velocity)
- AC, BPD, FL, HC
Velocity) – Trace method is Mean - AC, FL • RT CCA (Right Common Carotid
• Volume Artery Velocity)
- AC, FL, HC
- AC, HC • RT BIFURC (Right Carotid
OB/GYN Application Module - EFBW Bifurcation Velocity)
• OB package for fetal growth • Calculations and Ratios • RT ICA (Right Internal Carotid
analysis containing more than Artery Velocity)
- FL/BPD
100 biometry tables
- FL/AC • RT ICA/CCA (Right Internal Carotid
• Dedicated OB/GYN reports - FL/HC Artery Velocity/Common Carotid
• Fetal graphical growth charts - HC/AC Artery Velocity Ratio)

• Growth percentiles - CI (Cephalic Index) • LT ECA, LT CCA, LT BIFURC, LT ICA,
- AFI (Amniotic Fluid Index) LT ICA/CCA (same as above, for Left
• Multi-gestational calculations
Carotid Artery)
(up to four) - CTAR (Cardio-Thoracic Area Ratio)
• Measurements/calculations by: • A /B Ratio (Velocities Ratio)
• Programmable OB tables
ASUM, ASUM 2001, Berkowitz, • % Stenosis (Stenosis Ratio)
• Expanded worksheets Bertagnoli, Brenner, Campbell, CFEF,
• S/D Ratio (Systolic Velocity/Diastolic
• User-selectable fetal growth Chitty, Eik-Nes, Ericksen, Goldstein,
Velocities Ratio)
parameters based on European, Hadlock, Hansmann, Hellman, Hill,
American or Asian methods charts Hohler, Jeanty, JSUM, Kurtz, Mayden, • PI (Pulsatility Index)
Mercer, Merz, Moore, Nelson, Osaka • RI (Resistivity Index)
• GYN package for ovary and uterus
University, Paris, Rempen, Robinson,
measurements and reporting • HR (Heart Rate) – beats/minute
Shepard, Shepard/Warsoff, Tokyo
University, Tokyo/Shinozuka, Yarkoni

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 12 of 18

Cardiac Measurements • AV max PG • VSs (Interventricular Septum
(Aortic Valve Peak Pressure Gradient) Thickness, Systolic, 2D)
• %FS (LV Fractional Shortening)
• AV mean PG • LA Diam (Left Atrium Diameter, 2D)
• %IVS Thck (IVS Fractional Shortening)
(Aortic Valve Mean Pressure Gradient) • LA Major (Left Atrium Major)
• %LVPW Thck (LV Posterior
• AV SV (Stroke Volume by Aortic Flow) • LA Minor (Left Atrium Minor)
Wall Fractional Shortening)
• AV Vmax (Aortic Valve Peak Velocity)
• Ao Arch Diam (Aortic Arch Diameter) • L A/Ao (LA Diameter to
• AV Vmean (AV Mean Velocity) AoRoot Diameter Ratio, 2D)
• Ao asc (Ascending Aortic Diameter)
• AV VTI • LAAd (A2C) (Left Atrium Area, Apical 2C)
• Ao Desc Diam
(Aortic Valve Velocity Time Integral)
(Descending Aortic Diameter) • LAEDV (A-L)
• AVA (Vmax) (AV Area by Continuity (LA End Diastolic Volume, Area-Length)
• Ao Isthmus (Aortic Isthmus)
Equation by Peak V)
• Ao Root Diam (Aortic Root Diameter) • L AEDV Index (A-L) (LA End Diastolic
• AVA (VTI) (AV Area by Continuity Volume Index, Area-Length)
• AR ERO Equation VTI)
(PISA: Regurgitant Orifice Area) • L AESV (A-L) (LA End Systolic Volume,
• AVA Planimetry (Aortic Valve Area) Area-Length)
• AR Flow (PISA: Regurgitant Flow) • AVET (Aortic Valve Ejection Time) • L AESV Index (A-L) (LA End Systolic
• AR PHT (AV Insuf. Pressure Half Time) • CO (Teich) Volume Index, Area-Length)
• AR Rad (PISA: Radius of Aliased Point) (Cardiac Output, M-mode, Teicholtz) • LAEDV MOD
• AR RF (Regurgitant Fraction • D-E Excursion (LA End Diastolic Volume MOD)
over the Aortic Valve) (MV Anterior Leaflet Excursion) • LAESV MOD
• AR RV • E’ Avg (Averaged early diastolic (LA End Systolic Volume MOD)
(PISA: Regurgitant Volume Flow) mitral valve annular velocity) • LIMP (Left Index of
• AR Vel (PISA: Aliased Velocity) • E’ Lat (Early diastolic mitral valve Myocardial Performance)
lateral annular velocity)
• AR Vmax (Aortic Insuf. Peak Velocity) • LVA (s) (Left Ventricular Area,
• E’ Sept (Early diastolic mitral valve Systolic, 2CH)
• AR VTI
septal annular velocity)
(Aortic Insuf. Velocity Time Integral) • LVAd (A2C) (Left Ventricular Area,
• E/E’ Avg Diastolic, 2CH)
• ARed max PG (Aortic Insuf.
(Mitral inflow E velocity to E’ Avg ratio)
End-Diastole Pressure Gradient) • LVAd (sax) (LV area, SAX, Diastolic)
• E/E’ Lat
• ARed Vmax (Aortic Insuf. • LVAend (d) (LV Endocardial Area, SAX)
(Mitral inflow E velocity to E’ Lat ratio)
End-Diastolic Velocity) • LVAepi (d) (LV Epicardial Area, SAX)
• E/E’ Sept
• AV Acc Slope • LVAs (A4C)
(Mitral inflow E velocity to E’ Sept ratio)
(Aortic Valve Flow Acceleration) (Left Ventricular Area, Systolic, 4CH)
• EDV (Cube) (Left Ventricle Volume,
• AV Acc Time • LVAs (sax) (LV area, SAX, Systolic)
Diastolic, 2D, Cubic)
(Aortic Valve Acceleration Time)
• EF (A-L A2C) (Ejection Fraction 2CH, • LVd Mass (LV Mass, Diastolic, 2D)
• AV AccT/ET (AV Acceleration Single Plane, Area-Length)
to Ejection Time Ratio) • LVd Mass (LV Mass, Diastolic, M-mode)
• E-F Slope (Mitral Valve E-F Slope) • LVd Mass Index
• AV EOA I (VTI) (Aortic Valve
Effective Orifice Area Index • EPSS (E-Point-to-Septum Separation, (LV Mass Index, Diastolic, 2D)
by Continuity Equation VTI) M-mode) • LVEDV (A-L A2C) (LV Volume, Diastolic,
• AV EOA I Vmax (Aortic Valve • ERO (Effective Regurgitant Orifice) 2CH, Area-Length)
Effective Orifice Area Index • ESV (Cube) (Left Ventricle Volume, • LVESV (A-L A2C) (LV Volume, Systolic,
by Continuity Equation Peak V) Systolic, 2D, Cubic) 2CH, Area-Length)
• AV CO (Cardiac Output by Aortic Flow) • HR (Heart Rate, 2D, Teicholtz) • LVET (Left Ventricle Ejection Time)
• AV Cusp • IVC (Inferior Vena Cava) • LVIDd
(Aortic Valve Cusp Separation, 2D) • IVCT (Isovolumic Contraction Time) (LV Internal Dimension, Diastolic, 2D)
• AV Dec Time • IVRT (Isovolumic Relaxation Time) • LVIDs
(Aortic Valve Deceleration Time) (LV Internal Dimension, Systolic, 2D)
• IVSd (Interventricular Septum
• AV Diam (Aortic Diameter, 2D)
Thickness, Diastolic, 2D)

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 13 of 18

• LVLd (apical) • MR VTI • P Vein D (Pulmonary Vein
(Left Ventricular Length, Diastolic, 2D) (Mitral Regurg. Velocity Time Integral) End-Diastolic Peak Velocity)
• LVLs (apical) • MV A Dur • P Vein S (Pulmonary Vein
(Left Ventricular Length, Systolic, 2D) (Mitral Valve A-Wave Duration) Systolic Peak Velocity)
• LVOT Area • MV A Velocity (MV Velocity Peak A) • PAEDP
(Left Ventricle Outflow Tract Area) • MV Acc Slope (Pulmonary Artery Diastolic Pressure)
• LVOT CO (Mitral Valve Flow Acceleration) • PE(d) (Pericard Effusion, M-mode)
(Cardiac Output by Aortic Flow) • MV Acc Time • PEs (Pericard Effusion, 2D)
• LVOT Diam (Left Ventricular Outflow (Mitral Valve Acceleration Time) • PR max PG (Pulmonic Insuf.
Tract Diameter) • MV Acc/Dec Time Peak Pressure Gradient)
• LVOT max PG (MV: Acc.Time/Decel.Time Ratio) • PR mean PG (Pulmonic Insuf.
(LVOT Peak Pressure Gradient) • MV an diam Mean Pressure Gradient)
• LVOT mean PG (Mitral Valve Annulus Diameter, 2D) • PR PHT
(LVOT Mean Pressure Gradient) • MV CO (Cardiac Output by Mitral Flow) (Pulmonic Insuf. Pressure Half Time)
• LVOT SI • MV Dec Slope • PR Vmax
(Stroke Volume Index by Aortic Flow) (Mitral Valve Flow Deceleration) (Pulmonic Insuf. Peak Velocity)
• LVOT SV • MV Dec Time • PR VTI (Pulmonic Insuf.
(Stroke Volume by Aortic Flow) (Mitral Valve Deceleration Time) Velocity Time Integral)
• LVOT Vmax (LVOT Peak Velocity) • MV E Velocity (MV Velocity Peak E) • PRend max PG (Pulmonic Insuf.
• LVOT Vmean (LVOT Mean Velocity) • MV E/A Ratio End-Diastole Pressure Gradient)

• LVOT VTI (LVOT Velocity Time Integral) (Mitral Valve E-Peak to A-Peak Ratio) • PRend Vmax (Pulmonic Insuf.
• MV max PG End-Diastolic Velocity)
• LVPWd (Left Ventricular Posterior Wall
(Mitral Valve Peak Pressure Gradient) • Pulmonic Diam
Thickness, Diastolic, 2D)
• MV mean PG (Pulmonary Artery Diameter, 2D)
• LVPWs (Left Ventricular Posterior Wall
(Mitral Valve Mean Pressure Gradient) • PV Acc Slope
Thickness, Systolic, 2D)
• MV PHT (Pulmonic Valve Flow Acceleration)
• LVs Mass (LV Mass, Systolic, 2D)
(Mitral Valve Pressure Half Time) • PV Acc Time
• LVs Mass Index (Pulmonic Valve Acceleration Time)
• MV Reg Frac
(LV Mass Index, Systolic, 2D) • PV Acc Time/ET Ratio (PV Acceleration
(Mitral Valve Regurgitant Fraction)
• LAAd (A2C) (Left Atrium Area, Apical 2C) to Ejection Time Ratio)
• MV SI
• MCO (Mitral Valve closure to Opening) (Stroke Volume Index by Mitral Flow) • PV an diam
(Pulmonic Valve Annulus Diameter, 2D)
• MP Area (Mitral Valve Prosthesis) • MV SV (Stroke Volume by Mitral Flow)
• PV Ann Area (Pulmonic Valve Area)
• MR Acc Time • MV Time to Peak
(MV Regurg. Flow Acceleration) (Mitral Valve Time to Peak) • PV CO
(Cardiac Output by Pulmonic Flow)
• MR ERO • MV Vmax (Mitral Valve Peak Velocity)
• PV max PG (Pulmonic Valve
(PISA: Regurgitant Orifice Area) • MV Vmean (MV Mean Velocity) Peak Pressure Gradient)
• MR Flow (PISA: Regurgitant Flow) • MV VTI • PV mean PG (Pulmonic Valve
• MR max PG (Mitral Valve Velocity Time Integral) Mean Pressure Gradient)
(Mitral Regurg. Peak Pressure Gradient) • MVA (Mitral Valve Area) • PV SV
• MR Rad (PISA: Radius of Aliased Point) • MVA By PHT (Stroke Volume by Pulmonic Flow)
• MR RF (Regurgitant fraction (Mitral Valve Area according to PHT) • PV Vmax
over the Mitral Valve) • MVA by plan (Mitral Valve Area, 2D) (Pulmonary Artery Peak Velocity)
• MR RV (PISA: Regurgitant Volume Flow) • PV Vmean (PV Mean Velocity)
• MVET (Mitral Valve Ejection Time)
• MR Vel (PISA: Aliased Velocity) • PV VTI
• P Vein A (Pulmonary Vein Velocity
(Pulmonic Valve Velocity Time Integral)
• MR Vmax (Mitral Regurg. Peak Velocity) Peak A) – reverse
• PVA (VTI) (Pulmonary Artery
• MR Vmean • P Vein A Dur
Velocity Time Integral)
(Mitral Regurg. Mean Velocity) (Pulmonary Vein A-Wave Duration)

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 14 of 18

• PVein S/D Ratio • RVOT SI (LV Stroke Volume Index • SV (Teich)
(Pulmonary Vein SD Ratio) by Pulmonic Flow) (LV Stroke Volume, 2D, Teicholtz)
• PVET (Pulmonic Valve Ejection Time) • RVOT SV (Stroke Volume • SV (Teich)
• PVPEP by Pulmonic Flow) (LV Stroke Volume, M-mode, Teicholtz)
(Pulmonic Valve Pre-Ejection Period) • RVOT Vmax (RVOT Peak Velocity) • Systemic Diam
• PVPEP/ET Ratio (PV Pre-Ejection • RVOT Vmean (RVOT Mean Velocity) (Systemic Vein Diameter, 2D)
to Ejection Time Ratio) • Systemic Vmax
• RVOT VTI (RVOT Velocity Time Integral)
• Qp/Qs (Systemic Vein Peak Velocity)
(Pulmonic-to-Systemic Flow Ratio) • RVSP
(Right Ventricle Systolic Pressure) • Systemic VTI
• RA Major (Right Atrium Major, 2D) (Systemic Vein Velocity Time Integral)
• RVWd (Right Ventricle Wall Thickness,
• RA Minor (Right Atrium Minor, 2D) • TAPSE (Tricuspid Annular Plane
Diastolic, M-mode)
• RAA (d) Systolic Excursion)
• RVWs (Right Ventricle Wall Thickness,
(Right Atrium Area, 2D, Diastole) • TCO
Systolic, M-mode)
• RAA (s) (Tricuspid Valve Closure to Opening)
(Right Atrium Area, 2D, Systole) • RAA (d)
(Right Atrium Area, 2D, Diastole) • TR max PG (Tricuspid Regurg.
• RAEDV A2C (Right Atrium End Peak Pressure Gradient)
Diastolic Volume, Apical 2 Chamber) • RAA (s)
(Right Atrium Area, 2D, Systole) • TR mean PG (Tricuspid Regurg.
• RAESV A-L Mean Pressure Gradient)
(RA End Systole Volume [A-L]) • SI (A-L A2C) (LV Stroke Index,
Single Plane, 2CH, Area-Length) • TR Vmax
• RALd (Right Atrium Length, Diastole) (Tricuspid Regurg. Peak Velocity)
• RALs (RA Length, Systole) • SI (A-L A4C) (LV Stroke Index,
Single Plane, 4CH, Area-Length) • TR Vmean
• RIMP (Right Index of (Tricuspid Regurg. Mean Velocity)
Myocardial Performance) • SI (Bi-plane)
(LV Stroke Index, Bi-plane, MOD) • TR VTI (Tricuspid Regurgitation
• RJA (A4C) (Regurgitant Jet Area) Velocity Time Integral)
• SI (bullet)
• RJA/LAA • T V A dur
(LV Stroke Index, Bi-plane, Bullet)
(Regurgitant Jet Area ratio RJA/LAA) (Tricuspid Valve A-Wave Duration)
• SI (MOD A2C) (LV Stroke Index,
• RV Major (Right Ventricle Major) • TV A Velocity (Tricuspid Valve A Velocity)
Single Plane, 2CH, MOD)
• RV Minor (Right Ventricle Minor) • T V Acc Time
• SI (MOD A4C) (LV Stroke Index,
• RV S’ (Tricuspid annulus systolic Single Plane, 4CH, MOD) (Tricuspid Valve Time to Peak)
excursion velocity) • TV Ann Area (Tricuspid Valve Area)
• SI (Teich) (LV Stroke Index,
• RVAWd (Right Ventricle Teicholtz, 2D) • T V ann diam (Tricuspid Valve Annulus
Wall Thickness, Diastolic, 2D) Diameter, 2D)
• SI (Teich) (LV Stroke Index,
• RVAWs (Right Ventricle Teicholtz, M-mode) • TV Area (Tricuspid Valve Area, 2D)
Wall Thickness, Systolic, 2D)
• SV (A-L A2C) (LV Stroke Volume, • TV CO
• RVET (Right Ventricle Ejection Time) Single Plane, 2CH, Area-Length) (Cardiac Output by Tricuspid Flow)
• RVIDd (Right Ventricle Diameter, • SV (A-L A4C) (LV Stroke Volume, • T V Dec Slope
Diastolic, 2D) Single Plane, 4CH, Area-Length) (Tricuspid Valve Flow Deceleration)
• RVIDs • SV (Bi-plane) (LV Stroke Volume, • TV E Velocity (Tricuspid Valve E Velocity)
(Right Ventricle Diameter, Systolic, 2D) Bi-plane, MOD) • T V E/A Ratio (Tricuspid Valve
• RVOT Area • SV (bullet) (LV Stroke Volume, E-Peak to A-Peak Ratio)
(Right Ventricle Outflow Tract Area) Bi-plane, Bullet) • T V max PG (Tricuspid Valve
• RVOT Diam • SV (MOD A2C) (LV Stroke Volume, Peak Pressure Gradient)
(RV Output Tract Diameter, 2D) Single-plane, 2CH, MOD) – Simpson • T V mean PG (Tricuspid Valve
• RVOT Diam (RV Output • SV (MOD A4C) (LV Stroke Volume, Mean Pressure Gradient)
Tract Diameter, M-Mode) Single-plane, 4CH, MOD) – Simpson • T V mean PG (Tricuspid Valve
• RVOT max PG • SV (Cube) (LV Stroke Volume, 2D, Cubic) Mean Pressure Gradient)
(RVOT Peak Pressure Gradient)
• SV (Cube) • TV PHT
• RVOT meanPG (LV Stroke Volume, M-mode, Cubic) (Tricuspid Valve Pressure Half Time)
(RVOT Mean Pressure Gradient)

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 15 of 18

• TV SV Protocol Examinations Features • Template editor
(Stroke Volume by Tricuspid Flow) (enabled with stress option)
• User-configurable protocol templates
• TV Vmean (TV Mean Velocity) • Wall motion scoring: Analysis
• Configure protocol name, number
by wall motion in individual
• TV VTI of levels and views, name of level
myocardial segments
(Tricuspid Valve Velocity Time Integral) and views and several other protocol
• Show reference: Show a reference settings (smart stress, show reference,
• VSD max PG
image from baseline or previous scan mode, preview of store, timer
(VSD Peak Pressure Gradient)
level during acquisition handling, etc.)
• VSD Vmax (VSD Peak Velocity)
• Smart stress: Automatically set up
Please refer to the Reference Manual various scanning parameters Safety Conformance
for the full list of measurements and (for instance geometry, frequency,
calculations for all applications. • The Vivid S70N is built to meet
gain, etc.) according to same
the requirements of:
projection on previous level
Annotations • IEC60601-2-37
• Scan mode settings: Scan mode
Body Marks may be specified for individual • IEC60601-1
• Body mark icons for location and views in the protocol • IEC60601-1-2
position of probe • Preview of store: Show running • IEC60601-1-6
• Easy selection of body marks from loops as preview before storing
to the examination • UL60601-1
touch panel
• NEMA UD3
Text Annotations Continuous Capture
• The European Medical Devices
• Easy selection of text annotations • Continuously acquire large amounts Directive (MDD) 93/42/EEC (CE Mark)
from touch panel of 2D image data, and selection of pro-
jection views for analysis afterwards • Directive 2011/65/EU on the
Scan Assist Pro (optional) restriction of use of certain
• The entire continuous capture recording hazardous substances
• Customizable automations that may be kept in memory while it is
assist the user through each step possible to store new images outside • The Vivid S70N ultrasound unit is
of the scan the protocol template, or the entire a Class I device, with BF (probes)
• Facilitates consistency and recording can be stored to file and CF (ECG leads) applied parts
reduce keystrokes according to IEC60601-1
• Selection of projection views on
• Supports selection of all modes, all scanner or EchoPAC when the • The Vivid S70N ultrasound unit
measurements and dual annotations entire recording is stored to file meets the EMC requirements in
IEC/EN60601-1-2:2007 Class B
• Imaging attributes: Octave, Steer,
Wall Motion Scoring
Dual/Quad screen, Compound,
LOGIQ View, Zoom, Depth, Scale • As part of the measurement and Security
and Baseline analysis package one can access Virus Protection
a wall motion assessment module,
• On-line or off-line protocol editor To reduce virus vulnerability, Vivid S70N
providing analysis/scoring of
• Image acquisition according to individual myocardial segments is configured with a minimal set of open
predefined protocol templates ports and with all network services
• For use with all stress modalities not actively used by the system closed
• Various factory protocol templates
down. This helps to significantly reduce
• User-configurable protocol templates Cardiac Resynchronization the risk of a virus attack on Vivid S70N.
Therapy (CRT) Programming
Stress Echo (optional) Protocols GE is continuously judging the need for
Supported Protocol Examinations additional actions to reduce vulnerability
• CRT protocols require Stress and
of equipment; this includes vulnerability
• 2D pharmacological stress echo Advanced QScan
scanning of our products and evaluation
• 2D bicycle stress echo • Tailored acquisition protocol for data of new security patches for the 3rd-party
• 2D continuous capture stress echo needed for programming of AV and technology used. Microsoft ® (and other)
(treadmill stress echo) VV delays in biventricular pacemakers security patches that address serious
• Cardiac resynchronization therapy • Image acquisition of a set of projection issues with Vivid S70N will be made
programming protocols views with various scan mode settings available to customers after GE
(available with the Advanced QScan option) verification of those patches.

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 16 of 18

User Policies C1-6-D XDclear Single Crystal Curved P2D Pencil Probe
• Secure and advanced user password Array Probe (Convex) • Probe preset: Cardiac
and login scheme according to user's • Probe presets: Abdomen, OB/GYN,
urology, vascular, fetal heart P6D Pencil Probe
password requirements
contrast (optional) • Probe preset: Vascular
LDAP • Biopsy guide: Multi-angle, disposable 6Tc-RS TEE Probe
• Users can log in to the system with a reusable bracket
• Probe presets: Cardiac, coronary,
by using the same user credentials
C2-9-D XDclear Single Crystal Curved LVO contrast (optional)
as used for domain connected
computers Array Probe (Convex)
6VT-D Active Matrix 4D Volume TEE
• Probe presets: Abdomen, OB/GYN, Probe (4D and multi-plane only with
Disc Encryption urology, fetal heart 4D option)
• O ptional encryption of the • Biopsy guide: Multi-angle disposable • Probe presets: Cardiac,
scanner's E drive containing with reusable bracket LVO contrast (optional), coronary
patient identifiable data
C3-10-D XDclear
9T-RS TEE Probe
Transducers Single Crystal Curved Array Probe
• Probe preset: Pediatric
M5Sc-D XDclear Active Matrix Single (Micro Convex)
Crystal Phased Array Probe • Probe presets: Neonatal head, Wideband Probes
• Probe presets: Cardiac adult, pediatric, vascular, abdomen, pediatric,
• Electronic selection between four
abdomen, fetal heart, transcranial, musculoskeletal, nerves
solid-state and one stand-alone
coronary, stress, LVO contrast (optional),
IC5-9-D Convex (Endocavity) Probe Doppler probe connectors
LVO stress, OB/GYN, vascular
• Probe presets: OB/GYN, urology, • Three probe sockets are DLP type
• Biopsy guide: Multi-angle disposable
fetal heart • One RS probe socket for support
with a reusable bracket
• Biopsy guide: Single angle, of TEE and ICE probes
6S-D Phased Array Probe disposable bracket
• Probe presets: Pediatric, cardiac,
coronary, neonatal head,
PROBE FREQUENCY RANGE CATALOG #
fetal heart, abdominal
M5Sc-D (Sector) 1.5 – 4.6 MHz H44901AE
12S-D Phased Array Probe 6S-D (Sector) 2.4 – 8.0 MHz H45021RR
• Probe presets: Pediatric, cardiac, 12S-D (Sector) 4.0 – 12.0 MHz H45021RT
coronary, neonatal head, vascular
9L-D (Linear) 2.4 – 10.0 MHz H40442LM
(incl. carotid, LEA, LEV, UEA, UEV),
abdomen 11L-D (Linear) 4.5 – 12.0 MHz H40432LN
C1-6-D (Convex) 1.4 – 6.0 MHz H40472LT
9L-D Linear Array Probe
C2-9-D (Convex) 2.3 – 8.4 MHZ H40462LN
• Probe presets: Vascular (incl. carotid,
C3-10-D (Micro Convex) 3.0 – 10.0 MHz H40482LB
LEA, LEV, UEA, UEV), musculoskeletal,
nerves, small parts, thyroid IC5-9-D (Convex
3.3 – 8.6 MHz H40442LK
contrast (optional) Endocavity) Probe
P2D (Pencil) 2.0 MHz H4830JE
• Biopsy guide: Multi-angle disposable
with a reusable bracket P6D (Pencil) 6.3 MHz H4830JG
6Tc-RS (TEE) 3.0 – 8.0 MHz H45551ZE
11L-D Linear Array Probe
6VT-D (Volume TEE) 1 3.0 – 8.0 MHz H45581BJ
• Probe presets: Vascular, small parts,
breast, thyroid, scrotal, musculo- 9T-RS (TEE) 3.0 – 10.0 MHz H45531YM
skeletal, nerves 1 Also 6VT-D with catalog # H45561TA is supported.
• Biopsy guide: Multi-angle disposable
with reusable bracket

Vivid S70N product datasheet – June 2017 – DOC1986766 Page 17 of 18

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.

© 2017 General Electric Company. DOC1986766

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

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of General Electric Company.

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permission from GE. Nothing in this material should be used
to diagnose or treat any disease or condition. Readers must
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DOC1986766