HD Volume Imaging™
High Volume Imaging™ (HDVI™) delivers increased accuracy and efficiency to clinical procedures through its superior image quality.
The clearer contrast provides enhanced tissue differentiation, edge depiction and speckle reduction to enable more confident and
consistent diagnosis. In addition, it improves the clarity of multi-slice, C-plane and subtle lesion images. The sharper definition enables
earlier detection of conditions such as foetal brain defects and more precise views of the walls and valves of the foetal heart.
Volume NT & IT™
Volume NT & IT™ is the latest tool for undertaking NT(Nuchal Translucency) and IT(Intracranial Translucency) examinations.
This innovative new 3D technology enables clinicians to detect the true mid-sagittal view from 3D data, combining it with an
automated NT and IT measurement. The technology facilitates scanning and capturing the mid-sagittal plane during the first
trimester to easily define the region of the NT and IT for measurement, leading to increased accuracy in foetal diagnosis
at an earlier stage.
VSI™, SFVI™, Smooth Cut™, FAD™
The new suite of 3D imaging tools results in more comprehensive and realistic images which lead to increased accuracy
in scans and diagnosis. Face Auto Detection™ (FAD™) is a one-touch operation which removes volume data that obscures
foetal details whilst unwanted noise is eliminated using Smart Filter Volume Imaging™ (SFVI™). Volume Shade Imaging™ (VSI™)
improves visualisation by displaying detailed images of skin tones and shading. For added clarity, Smooth Cut™ erases
extraneous objects that impair visibility.
Dynamic MR Plus™
The Dynamic MR Plus™ is a 2D image feature which enhances detection and contrast resolution while decreasing
speckle echoes. The resulting improvement in image quality is particularly useful when evaluating superficial structures
such as thyroid, vessels, pelvic and abdominal anatomy. The rapid and accurate detection that Dynamic MR Plus™
delivers enables your organisation to make diagnosis with increased confidence.
Wider Dynamic Range
Dynamic Range is the ratio of the brightest portion of the image to the darkest. The Wide Dynamic Range (WDR)
function has been developed to provide clear images where there are both very bright and very dark areas
simultaneously in view. WDR captures and displays the two zones in the same frame so that detail is defined in both,
enabling enhanced diagnosis accuracy.
Speckle Reduction Filter™ (SRF™)
Speckle noise is a granular noise that increases the mean grey level of a local area. Reduction of this is vital for
accurate image interpretation. Speckle Reduction Filter™ (SRF™) improves image quality by reducing or eliminating
the unnecessary echoes from ultrasound images. Flexibility is enhanced by the ability of the user to select the degree
to which the reduction is implemented, enabling greater control of the process
Full Spectrum Imaging™ (FSI™)
Full Spectrum Imaging™ (FSI™) produces the penetration capabilities associated with the lower frequencies,
while still maintaining the fine pixel uniformity associated with the higher frequencies. This combination consistently
delivers superior quality images, even in the most challenging diagnostic circumstances. The resulting clarity delivers
improvements in accuracy and efficiency for greater confidence in your diagnostic procedures.
Spatial Compounding Image™ (SCI™)
The Spatial Compounding Image™ (SCI™) controls ultrasound beams electronically by steering. SCI™ compounds
numerous scan lines to deliver significantly clearer definition in soft tissue planes, with reduced speckle and other noise.
The improvement in detail, compared with conventional equipment, enables more rapid diagnosis with higher levels of
accuracy which leads to increased confidence and an improved service for your patients.
ElastoScan™ translates stiff and soft tissue information into grey scale image. This technology delivers improved
definition of any alteration in the stiffness in tissue state, allowing the operator to utilise the information in the image
to deliver increased accuracy in diagnosis. Combined with other innovative features, Cervix ElastoScan™ enables
timely and more detailed cervical scan results which will benefit your organisation and its patients.
3D eXtended Imaging™(3D XI™)
3D eXtended Imaging™(3D XI™) is comprised of a suite of three innovative imaging applications: Multi-Slice View™,
Oblique View™ and Volume CT™ . Each of these performs specific imaging tasks and combine to give a more
comprehensive and holistic overview. This technology allows complete and precise control over 3D/4D volume
data manipulation. The enhanced clarity that this brings to the images enables your organisation to offer
maximum diagnostic accuracy and a more comprehensive service to your patients.
3D MXI™ is an innovative, cutting-edge 3D image processing technology developed by Samsung to provide
a comprehensive suite of imaging tools. It encompasses Multi Volume Slice™, MirrorView™, Multi-OVIX™,
and 3D OH™. Using it enables health professionals to easily view, examine and diagnose 3D volume data.
The convenience offered by this suite of tools results in faster diagnosis with higher levels of accuracy.
The QuickScan™ has been designed to maximise workflow efficiency by automatically optimising key
imaging parameters at the touch of a button. The resulting increase in efficiency allows your organisation
to offer patients an improved service with faster and more accurate diagnosis. This reliable and safe system
helps your clinic or hospital to deliver a superior patient experience.
An integrated, real-time DVD recording feature, ADVR™ enables the Accuvix XG to record DVDs
in real time while allowing simultaneous scanning and recording. The key benefit to your organisation is the ability for
users to have complete control over the selection of recording areas. The results are sharp, accurate recordings that
enable practitioners to deliver confident and timely diagnosis.
Fully adjustable system, Wide LED touch-screen, 19-inch HD LCD Monitor
and articulating monitor arm, Portability