Tuesday, 27 March 2012

iE33 xMATRIX Echocardiography System

iE33 xMATRIX Echocardiography System

An imaging revelation
Combining unprecedented 2D and 3D image quality in the same transducer and a host of easy-to-use quantification, clinical performance, and information management tools, the new iE33 xMATRIX echo system addresses the clinical needs of managing patients with cardiac disease, including heart failure, valvular disease, and congenital heart disease.

Innovation and Technology
 xMatrix

xMATRIX uses breakthrough array technology with elements smaller than a human hair, providing volume acquisitions of the beating heart with truly remarkable image quality. Our xMATRIX transducers are ergonomically designed and harness the power of 150 computer boards.


 PureWave

PureWave crystal technology improves penetration in difficult-to-image patients; revealing details of fine structures and increasing exam efficiency.


 Digital Broadband Beamforming

Broadband beamforming uses the full range of ultrasound frequencies to capture the entire tissue signature information, preserving the quantity and quality of data through capture and preservation of the entire bandwidth of ultrasound signals.


 Live 3D Echo

Live 3D Echo imaging brings you true real-time, 3D volume rendering, live, and instantaneously. Live 3D is expanding the clinical utility of echo by taking echo to places it’s never been before – into surgical planning, the EP lab and beyond.


XRES

XRES adaptive image processing reduces artifacts and improves margin and border definition.


 QLAB

QLAB provides automated and objective methods for quantifying ultrasound data to improve your workflow A full suite of plug-ins is available to customize QLAB’s capabilities to suit your needs.


 SonoCT

SonoCT imaging technology uses transmit beam-steering techniques to obtain coplanar, tomographic images from different viewing angles, then combines these micro-angulated images into a single compounded image at real-time frame rates.

 Tissue Aberration Correction

Tissue aberration correction technology corrects for speed of sound changes through adipose tissue, sharpens spatial resolution, reduces the effects of acoustic beam distortion, and improves tissue uniformity throughout the depth of view.


 Q-Station
 
Cardiac workstation software
Philips new Q-Station workflow software enables you to streamline your echocardiography data management, and perform advanced analysis and quantification of Philips echo data. Q-Station combines a suite of capabilities for a full range of off-cart functions, allowing you to design workflow around your needs.

 
Q-Station is cardiac workstation software ideal for:
  • Reviewing echo and stress echo exams
  • Analyzing 2D and 3D image data using QLAB plug-ins
  • Saving secondary captures of QLAB 2D and 3D images
  • Wall motion scoring using 17-segment model
  • Reviewing measurements made on the cart
  • Integrating ECG results from Philips StressVue systems
  • Reporting findings and comments
  • Saving results to connected devices


iE33 xMATRIX Echocardiography System





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