Details

Philips EPIQ 71 Features EPIQ 7 features an uncompromised level of clinical performance to meet the challenges of today’s most demanding general imaging practices. Philips proprietary nSIGHT Imaging architecture introduces a totally different approach to forming ultrasound images without compromise. No other premium ultrasound system can run the complete suite of the world’s most innovative ultrasound transducers. EPIQ 7 architecture supports our Philips exclusive Anatomical Intelligence Ultrasound (AIUS), designed to elevate the ultrasound system from a passive to an actively adaptive device. nSIGHT Imaging is a totally different approach to ultrasound Anatomical Intelligence turns images into answers xMATRIX for leading-edge ultrasound transducer technology iSCAN for automatic image optimization Advanced workflow for superb ergonomics, amazing mobility Excellent ergonomics may help reduce repetitive stress injuries Tablet-light touch interface for easier navigation Multimodality DICOM is integrated for easy reviewing Fast and effective image fusion and needle navigation Philips EPIQ 7 Specifications General Imaging Q-Apps Intima Media Thickness (IMT) General Imaging 3D Quantification (GI 3DQ) Region of Interest (ROI) MicroVascular Imaging (MVI) Vascular Plaque Quantification (VPQ) Cardiology Q-Apps Strain Quantification (SQ) Cardiac 3D Quantification (3DQ) Cardiac 3D Advanced Quantification (3DQ Advanced) CMQ Stress Mitral Valve NavigationA.I. (MVNA.I.) Automated 2D Cardiac QuantificationA.I. (a2DQA.I.) Automated Cardiac Motion QuantificationA.I. (aCMQA.I.) General Lightweight: 230 lbs Highly ergonomic xMATRIX transducer technology Stress Echo with automatic modes 12” Tablet-like touchscreen user interface AutoDoppler High-resolution 21.5” LCD wide screen monitor 4 probe connectors with fast switch capability PureWave-Crystal-Technology nSIGHT: clear, precise imaging throughout the image while keeping higher framerates SmartExam and Real Time iSCAN (Autoscan) PureWave transducers 4D TEE Shear Wave and strain-based elastography 2D LV quantification