Margin enhancement with HDVI™
High Definition Volume Imaging™ (HDVI™) is a volume rendering technology that improves visualization of edges and small structures in volume data. HDVI™ provides upgraded marginal expression and image saturation with dedicated image sets for 3D/4D.
※ Optional Extra
Improved structural description with AmbientLight
Creating intricately graduated shadows, AmbientLight improves depth expression of the surface. This 3D rendering feature is especially useful to see a fetal face or hands in detail.
CrystalLive™ Color, Samsung's advanced blood flow imaging technologies in color mode, enhances the visualization and hemodynamics of the blood flow.
5D Follicle™ (Follicle measurement)
5D Follicle™ identifies and measures multiple ovarian follicles for rapid assessment of follicular size and status during gynecology examinations.
CEUS+ can be used in 3D/4D for effective examination for patency of the fallopian tube and morphology of uterus and endometrium.
* 'CEUS+ in 3D/4D' is not the name of function. 'CEUS+' is the name of function.
'CEUS+' is not commercially available in all countries.
BiometryAssist™(Fetal biometry estimation)
A semi-automatic technology for biometric measurement,BiometryAssistant™, enables users to measure the growthof the fetus more quickly and with greater accuracy whilemaintaining exam consistency.
5D Limb Vol.™ (Fetal weight estimation)
5D Limb Vol™. is a semi-automated tool to quickly and accurately measure upper arm or thigh volumes from 3 simple seed points on a single volume data set. These measurements can then be used to calculate an accurate estimation of fetal weight as well as provide additional information regarding fetal nutritional status.
5D CNS+™ (Fetal brain measurement)
5D CNS+™ uses intelligent navigation to provide 6 measurements from 3 transverse views of the fetal brain to enhance measurement reproducibility andstreamline workflow.It includes axial, sagittal and coronal views with 9 planes.
5D NT™ (Nuchal translucency measurement)
5D NT™ allows the user to obtain the true mid-sagittal planeautomatically by rotating and auto-zooming the image.This advanced technology is especially useful when facingdifficult cases involving fetal position.
5D Heart Color™ (Fetal heart examination)
5D Heart Color™ uses STIC volume datasets.Color Doppler sonography is demonstrated in 9 standard fetalechocardiography views in a single display.
RealisticVue™ displays high resolution 3D anatomy with exceptional detail and realistic depth perception.User selectable light source direction creates intricately graduated shadows forbetter defined anatomical structures.
CrystalVue™ is an advanced volume rendering technology that enhances visualization of both internaland external structures in a single rendered image using a unique combination of intensity,gradient and position.
CrystalVue Flow™ provides increased depth perception of vascular structures and displays vessels in a range of different imaging planes.CrystalVue Flow™ adds improved spatial precision of hemodynamicflow to morphological information and provides a deeper understandingof relational anatomy and neighboring vessels.
E-Cervix™ (ElastoScan™ for Cervix)
E-cervix™ shows the strain ratio between the internal and external orifices of the uterus using the vibrations caused by the natural internal movements.* This technology could increase reproducibility and reduce inter-observer variance using the sum of 50 elastographic images acquired over 3.5 seconds.* Neighboring vessels' movements, Fetus' movements, and others.
S-Detect™ (S-Detect™ for breast)
S-Detect™ for Breast helps standardize reporting and classification of suspicious breast lesions by incorporating BIRADS ® ATLAS* (Breast Imaging-Reporting and Data System, Atlas) into the tool. When the user selects a region of interest, S-Detect™ for Breast automatically defines the lesion boundaries, provides lexicon classification options and images export for an enhanced and streamlined workflow.
* Registered trademark of the American College of Radiology. All rights reserved.
IOTA-ADNEX(Ovarian tumor classification)
Samsung has adopted the ADNEX* model for classifying ovarian tumors as proposed by the IOTA** group and named it IOTA-ADNEXNow all ultrasound procedures, from initial scan to the final report, can be carried out using the same system.It even fills in 2 ultrasound predictors*** automatically, as soon as they are measured,and provides a report that classifies the results according to the ADNEX model 5-level classificationfor ovarian tumors to help users make the appropriate decisionsfor managing the patient's condition.
* Assessment of Different Neoplasias in the adneXa
** International Ovarian Tumor Analysis
*** 2 ultrasound predictors:
1) Maximal Diameter of the Lesion (mm),
2) Maximal Diameter of the Largest Solid Part (mm)
The noise reduction filter improves edge enhancement and creates sharper 2D images for optimal diagnostic performance. The integration of specialized Samsung technology results in a notable improvement in image quality.
This new harmonic technology improves image clarity, near to far.Reducing signal noise, S-Harmonic provides more uniform ultrasound images.
Imaging becomes Even Betterwith S-Vue™ transducer
(Single Crystal Technology)
S-Vue™ transducers provide more efficient piezoelectric properties, resulting in wider bandwidths that enable better penetration and higher quality resolution on even challenging patients.* Compared with the conventional Samsung transducers.
* The image is for illustrational purposes only and might differ from the actual performance of the device.