Singapore

Synapse® 3D

NEW

Provides a 3D analysis solution taking advantage of Fujifilm's imaging technology.

Cardiovascular

Created in partnership with cardiologists and cardiovascular specialists, Synapse 3D offers indispensable tools for cardiology care without complexity of use. The cardiovascular offering comprises advanced cardiology applications expertly crafted to analyze image findings and support clinical assessments.

  • Comprehensive structured cardiology reports meet the Society of Cardiovascular Computed Tomography (SCCT) and American Heart Association (AHA) guidelines and are integrated with Synapse Cardiogy PACS's structured reports.
  • You can perform coronary analysis using Fujifilm's award-winning*1 automatic vessel segmentation and analysis algorithm.

4-Chamber Analysis

An application that extracts left and right ventricles, atria, and myocardial regions from CT images consisting of multiple time phases; calculates cardiac function parameters such as ventricular ejection fraction; and enables observation of transitions in ventricular and atrial volume.

Aortic Valve Analysis (TAVR)

An application for transcatheter aortic valve replacement (TAVR) planning used to measure various aspects of the aortic valve by extracting the heart and aortic regions. The software also confirms the size of the aorta and the performance and calcification of the aortic valve to support an aortic valve replacement.

Calcium Scoring

An application that displays calcified areas and volumes of the coronary arteries by color and calculates the quantitative value of calcification by using the Agatston score method.

Cardiac Ablation Analysis

An application that extracts left and right ventricles, atria, and myocardial regions from CT images consisting of multiple time phases. The software also extracts the pulmonary vein in preoperative simulation for ablation and in postoperative observation.

Cardiac Function CT

An application that allows cardiac function analysis by automatically or manually obtaining the contours of ventricle and myocardium from CT images constructed by multiple time phases. Cardiac function CT calculates ejection fraction, end-diastolic volume, end-systolic volume, stroke volume, etc.

Cardiac Function MR

An application that allows cardiac function analysis by automatically or manually obtaining the contours of ventricle and myocardium from MR images constructed by multiple time phases. Cardiac function MR calculates ejection fraction, end-diastolic volume, end-systolic volume, stroke volume, etc.

Cardiac Fusion

An application for viewing fusion of cardiac anatomy from CT or MR and functional analysis such as MR, CT, or SPECT.

Coronary Analysis CT

An application that automatically extracts and labels coronary arteries and performs analysis of stenosis measurements, plaque quantification, and virtual stent grafts for procedural planning. Auto-generated paths are easily modified and many displays are available to suit any reading style.

Coronary Analysis MR

An application that automatically extracts and labels coronary arteries and performs analysis of stenosis measurements and virtual stent grafts for procedural planning. Auto-generated paths are easily modified, and many displays are available to suit any reading style.

Cardiac Perfusion CT

An application that analyzes myocardial blood flow using multiphase 3D heart images. Myocardial blood volume (MBV), myocardial blood flow (MBF), time to peak (TTP), peak enhancement (PE), and peak enhancement ratio (PER) are calculated.

Delayed Enhancement MR

An application used to analyze myocardial viability. Measurements for delayed enhancement include area and volume. Displays of the enhanced area can be overlaid in the bull's-eye map. Short axis display uses enhanced area, mean intensity, and ratio inner and outer wall.

Flow Analysis MR

An application that calculates blood-flow volume and the flow velocity per heart rate of a user-defined ROI.

 *1 Kirişli HA, et al., Standardized evaluation framework for evaluating coronary artery stenosis detection, stenosis quantification and lumen segmentation algorithms in computed tomography angiography, Medical Image Analysis, 2013.