We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

Features Partner Sites Information LinkXpress hp
Sign In
Advertise with Us
GLOBETECH PUBLISHING LLC

Download Mobile App




Ultra-High Resolution Brain PET Scanner Offers Potential for Early Diagnosis of Neurological Conditions

By MedImaging International staff writers
Posted on 03 Jul 2023
Print article
Image: Brain images of a 59-year-old woman acquired using UHR scanner (top) and Discovery MI scanner (bottom) (Photo courtesy of University of Sherbrooke)
Image: Brain images of a 59-year-old woman acquired using UHR scanner (top) and Discovery MI scanner (bottom) (Photo courtesy of University of Sherbrooke)

While PET (Positron Emission Tomography) has been instrumental in studying neurological phenomena and diagnostics, its potential has been somewhat restricted due to the subpar spatial resolution of existing PET systems. Now, amidst the technological improvements in PET instrumentation and a global initiative to enhance brain PET imaging capabilities, scientists have designed and built a novel ultra-high resolution (UHR) brain PET scanner that offers unmatched resolution, paving the way for more precise brainstem studies.

The new UHR-dedicated brain PET system developed by researchers at the University of Sherbrooke (Québec, Canada) could potentially characterize previously unidentifiable brain regions known to contribute to Alzheimer's disease, depressive disorders, visual attention disorders, tinnitus, and other conditions. In contrast to conventional PET scanners, this UHR scanner boasts truly pixelated detectors and achieves a 1.25 mm isotropic spatial resolution. This represents a two-fold improvement over the High Resolution Research Tomograph (HRRT) scanner, the previous gold standard for brain PET imaging for the last two decades. This advancement enables visualization of the radiotracer uptake in the human brain in the range of a few tens of microliters for the first time.

To demonstrate the UHR scanner's ability to delineate small cerebral structures and accurately quantify in vivo tracer concentration, researchers compared it to a whole-body PET scanner. Three patients prescribed an 18F-FDG PET scan underwent their clinical examination on the whole-body PET scanner followed by a brain scan on the UHR scanner. Images from both scanners were compared, and region identification was performed. Standardized uptake values relative to the cerebellum were also calculated. Several brain regions, especially in the brainstem, were readily identifiable visually in UHR images but were not visualized by the whole-body PET scanner. The inferior and superior colliculi, the subthalamic nuclei, and the red nuclei were clearly delineated in the UHR images.

Furthermore, the thalamus, usually seen as a whole in standard PET images, could be visually segmented into smaller nuclei using the UHR scanner. Hypermetabolic regions of the cortex were also noticeable in the UHR images but barely perceivable with the whole-body PET scanner. The first UHR prototype is fully operational and in use for research applications at the Sherbrooke Molecular Imaging Center. In the coming months, additional UHR units will be deployed to brain research centers across North America, and progress will be made toward obtaining necessary regulatory approvals for clinical imaging. The performance of a second UHR model, featuring new detectors to improve the overall resolution across the field of view, will also be tested shortly.

“The UHR scanner is a quantum leap for PET image resolution,” said Vincent Doyon, a master’s student in Radiation Sciences and Biomedical Imaging at the University of Sherbrooke. “Proper visualization of brainstem nuclei will provide the ability to detect early changes associated with many diseases and offer a potential avenue for early diagnosis. This will impact both research and clinical settings.”

Related Links:
University of Sherbrooke

New
Gold Member
X-Ray QA Meter
T3 AD Pro
New
Ultrasound Imaging System
P12 Elite
New
Digital Radiography System
DigiEye 330
Silver Member
Radiographic Positioning Equipment
2-Step Multiview Positioning Platform

Print article

Channels

MRI

view channel
Image: MRI microscopy of mouse and human pancreas with respective histology demonstrating ability of DTI maps to identify pre-malignant lesions (Photo courtesy of Bilreiro C, et al. Investigative Radiology, 2024)

Pioneering MRI Technique Detects Pre-Malignant Pancreatic Lesions for The First Time

Pancreatic cancer is the leading cause of cancer-related fatalities. When the disease is localized, the five-year survival rate is 44%, but once it has spread, the rate drops to around 3%.... Read more

Ultrasound

view channel
Image: A transparent ultrasound transducer-based photoacoustic-ultrasound fusion probe, along with images of a rat’s rectum and a pig’s esophagus (Photo courtesy of POSTECH)

Transparent Ultrasound Transducer for Photoacoustic and Ultrasound Endoscopy to Improve Diagnostic Accuracy

Endoscopic ultrasound is a commonly used tool in gastroenterology for cancer diagnosis; however, it provides limited contrast in soft tissues and only offers structural information, which reduces its diagnostic... Read more

Imaging IT

view channel
Image: The new Medical Imaging Suite makes healthcare imaging data more accessible, interoperable and useful (Photo courtesy of Google Cloud)

New Google Cloud Medical Imaging Suite Makes Imaging Healthcare Data More Accessible

Medical imaging is a critical tool used to diagnose patients, and there are billions of medical images scanned globally each year. Imaging data accounts for about 90% of all healthcare data1 and, until... Read more
Copyright © 2000-2024 Globetech Media. All rights reserved.