Extremity CBCT System Reduces Metal Artifacts
By MedImaging International staff writers Posted on 04 Dec 2017 |
Image: A knee being imaged with the OnSight 3D extremity system (Photo courtesy of Carestream Health).
A compact cone beam computerized tomography (CBCT) system that can image extremities at the point of care (POC) now offers advanced metal artifact reduction software.
The Carestream Health (Rochester, NY, USA) OnSight 3D Extremity System is designed to capture high-quality three dimensional (3D) images at the POC via an easily accessible open bore that allows both upper and lower extremity screening, including weight-bearing studies that are not possible with traditional CT. System features include large field isotropic images that can reveal subtle or occult fractures; reduced doses compared to conventional CT systems; image acquisition of the extremity in a single 25-second rotation; and a small footprint and simplified design that cut time and cost of system installation.
An optional software upgrade offers advanced metal and scatters correction algorithms and reduced noise uses iterative reconstruction techniques from the original scan in order to eliminate the need for additional imaging studies; image processing can be easily adjusted and optimized according to the amount of metal present via an intuitive touch screen interface. For added flexibility, the metal artifact reduction software can be activated prior to the scan or may be applied after the original reconstruction is complete.
“Carestream’s second generation of software takes our state-of-the-art original metal reduction software to a new level,” said Helen Titus, worldwide marketing director for ultrasound and CT at Carestream. “It provides enhanced flexibility, depending on the metal content present and reduces the visual distortion caused by screws, implants, rods, and other metal objects to create improved visibility and diagnostic confidence.”
During CBCT, the region of interest is centered in the field of view. A single 200-degree rotation acquires a volumetric data set used to produce a digital volume composed of 3D voxels of the anatomical data, which can then be manipulated and visualized. CBCT has recently become more practical thanks to the introduction of large-area high-speed digital X-ray imagers, such as hydrogenated amorphous silicon (a-Si:H) based flat-panel detectors.
The Carestream Health (Rochester, NY, USA) OnSight 3D Extremity System is designed to capture high-quality three dimensional (3D) images at the POC via an easily accessible open bore that allows both upper and lower extremity screening, including weight-bearing studies that are not possible with traditional CT. System features include large field isotropic images that can reveal subtle or occult fractures; reduced doses compared to conventional CT systems; image acquisition of the extremity in a single 25-second rotation; and a small footprint and simplified design that cut time and cost of system installation.
An optional software upgrade offers advanced metal and scatters correction algorithms and reduced noise uses iterative reconstruction techniques from the original scan in order to eliminate the need for additional imaging studies; image processing can be easily adjusted and optimized according to the amount of metal present via an intuitive touch screen interface. For added flexibility, the metal artifact reduction software can be activated prior to the scan or may be applied after the original reconstruction is complete.
“Carestream’s second generation of software takes our state-of-the-art original metal reduction software to a new level,” said Helen Titus, worldwide marketing director for ultrasound and CT at Carestream. “It provides enhanced flexibility, depending on the metal content present and reduces the visual distortion caused by screws, implants, rods, and other metal objects to create improved visibility and diagnostic confidence.”
During CBCT, the region of interest is centered in the field of view. A single 200-degree rotation acquires a volumetric data set used to produce a digital volume composed of 3D voxels of the anatomical data, which can then be manipulated and visualized. CBCT has recently become more practical thanks to the introduction of large-area high-speed digital X-ray imagers, such as hydrogenated amorphous silicon (a-Si:H) based flat-panel detectors.
Latest General/Advanced Imaging News
- PET Scans Reveal Hidden Inflammation in Multiple Sclerosis Patients
- Artificial Intelligence Evaluates Cardiovascular Risk from CT Scans
- New AI Method Captures Uncertainty in Medical Images
- CT Coronary Angiography Reduces Need for Invasive Tests to Diagnose Coronary Artery Disease
- Novel Blood Test Could Reduce Need for PET Imaging of Patients with Alzheimer’s
- CT-Based Deep Learning Algorithm Accurately Differentiates Benign From Malignant Vertebral Fractures
- Minimally Invasive Procedure Could Help Patients Avoid Thyroid Surgery
- Self-Driving Mobile C-Arm Reduces Imaging Time during Surgery
- AR Application Turns Medical Scans Into Holograms for Assistance in Surgical Planning
- Imaging Technology Provides Ground-Breaking New Approach for Diagnosing and Treating Bowel Cancer
- CT Coronary Calcium Scoring Predicts Heart Attacks and Strokes
- AI Model Detects 90% of Lymphatic Cancer Cases from PET and CT Images
- Breakthrough Technology Revolutionizes Breast Imaging
- State-Of-The-Art System Enhances Accuracy of Image-Guided Diagnostic and Interventional Procedures
- Catheter-Based Device with New Cardiovascular Imaging Approach Offers Unprecedented View of Dangerous Plaques
- AI Model Draws Maps to Accurately Identify Tumors and Diseases in Medical Images