Brilliance CT 64-channel scanner

Philips Brilliance CT 64-slice

Brilliance CT 64-channel scanner with Essence Technology

The new Philips Brilliance CT 64-slice is one of the most advanced CT systems in the market. This system can expand clinical boundaries in cardiac, pulmonary, trauma, and pediatric imaging.

 

This system is built on innovative Essence technology that delivers image quality, dose efficiency and rapid reconstruction times. 

 

 

The Brilliance CT 64 channel configuration package embodies completely the philosophies of sense and simplicity applied to more effective patient care. With a range of new and targeted advancements, including low-dose cardiac imaging, 3D volume software and expanded portal capabilities, this system takes the raw capabilities of volume imaging and makes them work harder for patients by making the physician’s work easier. This is the system for those who want the latest CT can offer, and realize productivity is an integral component of results.

 

Top Reasons to Choose Brilliance CT 64-channel configuration

  • Expand clinical boundaries in cardiac, pulmonary, trauma, and pediatric imaging.
  • DoseWise design focuses on lowering radiation dose for patients and staff.
  • Acquire 40mm of coverage in every rotation with submillimeter isotropic accuracy.
  • Best-in-class reconstruction speeds using 3-D cone beam reconstruction.
  • MRC X-ray tube eliminates waiting times between scanning sequences.

 

 

Offering the iDose4 Premium Package – Premium image quality 

 

 

iDose4 and O-MAR off

iDose4 and O-MAR on

 

iDose4 improves image quality* through artifact prevention and increased spatial resolution at low dose. O-MAR reduces artifacts caused by large orthopedic implants. Together they produce high image quality with reduced artifacts.


The iDose4 Premium Package is available for the Brilliance CT 64-channel scanner and across the Ingenuity and iCT families.

CLICK HERE TO SEE MORE! 

 

* Improved image quality is defined by improvements in spatial resolution and/or noise reduction as measured in phantom studies

 

 

©2004- Koninklijke Philips Electronics N.V. All rights reserved.