New Generation High-end Color Doppler Ultrasound
Ultra-Fine Ultrasonic Wave technology is
based on VINNO's RF platform, Ultra-Fine Ultrasonic Wave technology adopts the echo adaptive decoding technology which includes artiﬁcial intelligence judgment and adaptive matching method.
Real-time Auto Breast Lesion Detection
The application of VAid technology is currently the focus of the entire society and is constantly evolving in various medical ﬁelds. Through VINNO's independent research and development of core algorithm, automatic lesion detection can be realized. Provide complete solutions for hospitals and medical centers.
The new generation VSpeckle technology combines adaptive echo decoding technology and speckle reduction technology together to remove speckles more eﬀectively and obtain clearer image.
Higher Definition of Structure Border
More tissue details display
most real signals acquisition
Shear wave Elastography Imaging(VShear): A non-invasive method to detect the velocity of the shear-waves propagated through the targeted area and provide quantitative tissue characteristic information
strain rate imaging
Strain Imaging is the quantiﬁcation of myocardial deformation, either using Tissue Doppler Imaging (TDI) or Speckle Tracking on 2D image (2DTT). Each sample point is tracked frame-to-frame over the cardiac cycle, their dimensional spatio-temporal displacement information is computed to obtain Strain. Positive Strain values are lengthening, thickening, or clockwise rotation. Negative Strain values are shortening, thinning or counter-clockwise rotation. The beneﬁts of strain imaging technology is its ability to diﬀerentiate between active and passive movement of myocardial segments, to quantify intraventricular dyssynchrony and to evaluate components of myocardial function, such as longitudinal myocardial shortening, that are not visually assessable, it allows comprehensive assessment of myocardial function and the spectrum of potential clinical applications is very wide.
Stress Echocardiography is a non-invasive, dynamic evaluation of myocardial structure and its function under an external stress (exercise or pharmacology). External stresses increase the regional wall motions and thickening thereby increases 3-5 times blood supply to the myocardium to meet the demand in normal individuals. The non-ischaemic dilated or Hypertrophic Cardiomyopathy patients will have less demand due to pathology and ischaemia leads to regional wall motion dysfunction. Thereby, stress echo helps in functional assessment [differentiating active movement from passive/tethering] and structural changes [differentiation thickening/scar/aneurysm- regional bulging] which are more pronounced during stress, can be visually assessed and objectively observed [less subjective compared to standard Echo]. A baseline scan is compared to peak/stages of stress and a standardized wall motion score is performed. Basically, two fundamental types of information can be gathered: tissue viability and coronary ﬂow reserve
premium 4D Imaging
HQ Grad, HQ Silhouette Mode
Volume image navigation in diﬀerent angles by ﬁnger
Touch Panel Operation
Easy text position change by dragging operation
Fast index of patient information Vivid thumbnail images display area
Various Probe Selections for Widerange Clinical Applications
advanced features designed for efficiency