Novel System Upgrades CRT Imaging Devices to LCD Display
By MedImaging International staff writers Posted on 29 Jun 2016 |
Image: A Siemens vascular room with older CRT and the new Modalixx LCD side by side (Photo courtesy of Ampronix).
The Modalixx LCD display system is compatible with Cath Lab, magnetic resonance imaging (MRI), computerized tomography (CT), radiofrequency (RF) treatment rooms, Mobile C-Arms, positron emission tomography (PET) scanners, and nuclear medicine modalities. The technology allows Modalixx to convert small matrix pictures from analog to two megapixel digital images, thus converting medical renderings without compromising the integrity of images, allowing medical professionals to zoom-in or zoom-out at their choosing.
The system can replace all types of modality CRT's, offering in return brighter resolutions, lower power consumption, and no radiation emissions. Modalixx can synchronize to an existing technology set-up, and receive any video signal parameters; with inputs ranging from one to five BNCs and 15 pin D-Sub connectors, a range of analog connectivity is provided. Optional docking solutions are available for mounting the Modalixx LCD display on almost any medical modality system.
“Ampronix is at the crossroads of this new age. We believe it is imperative to make the best technology at with the lowest possible price point whenever possible,” said Jamie Nguyen, senior communications specialist at Ampronix. “Our Modalixx display screens were created so health organizations only need to replace CRT screens instead of entire modalities, allowing clients to both save time and lives.”
The Modalixx LCD display system is a product of Ampronix (Irvine, CA, USA), and is compatible with systems from Eizo, GE, Phillips, Siemens, and Toshiba, among others.
Related Links:
Ampronix
The system can replace all types of modality CRT's, offering in return brighter resolutions, lower power consumption, and no radiation emissions. Modalixx can synchronize to an existing technology set-up, and receive any video signal parameters; with inputs ranging from one to five BNCs and 15 pin D-Sub connectors, a range of analog connectivity is provided. Optional docking solutions are available for mounting the Modalixx LCD display on almost any medical modality system.
“Ampronix is at the crossroads of this new age. We believe it is imperative to make the best technology at with the lowest possible price point whenever possible,” said Jamie Nguyen, senior communications specialist at Ampronix. “Our Modalixx display screens were created so health organizations only need to replace CRT screens instead of entire modalities, allowing clients to both save time and lives.”
The Modalixx LCD display system is a product of Ampronix (Irvine, CA, USA), and is compatible with systems from Eizo, GE, Phillips, Siemens, and Toshiba, among others.
Related Links:
Ampronix
Latest Radiography News
- Novel Breast Imaging System Proves As Effective As Mammography
- AI Assistance Improves Breast-Cancer Screening by Reducing False Positives
- AI Could Boost Clinical Adoption of Chest DDR
- 3D Mammography Almost Halves Breast Cancer Incidence between Two Screening Tests
- AI Model Predicts 5-Year Breast Cancer Risk from Mammograms
- Deep Learning Framework Detects Fractures in X-Ray Images With 99% Accuracy
- Direct AI-Based Medical X-Ray Imaging System a Paradigm-Shift from Conventional DR and CT
- Chest X-Ray AI Solution Automatically Identifies, Categorizes and Highlights Suspicious Areas
- AI Diagnoses Wrist Fractures As Well As Radiologists
- Annual Mammography Beginning At 40 Cuts Breast Cancer Mortality By 42%
- 3D Human GPS Powered By Light Paves Way for Radiation-Free Minimally-Invasive Surgery
- Novel AI Technology to Revolutionize Cancer Detection in Dense Breasts
- AI Solution Provides Radiologists with 'Second Pair' Of Eyes to Detect Breast Cancers
- AI Helps General Radiologists Achieve Specialist-Level Performance in Interpreting Mammograms
- Novel Imaging Technique Could Transform Breast Cancer Detection
- Computer Program Combines AI and Heat-Imaging Technology for Early Breast Cancer Detection