World’s First Total-Body PET Scanner Takes A Big Step Forward using SensL SiPM’s for Innovative Cancer Detection System
The following was released by University California-Davis:
Davis, CA – January 17, 2017
World’s First Total-Body PET Scanner Takes A Big Step Forward
The UC Davis-based EXPLORER consortium, which aims to build a revolutionary total-body PET (positron emission tomography) scanner, has announced the selection of two industry partners to help build the prototype device. They are United Imaging Healthcare America, a North American subsidiary of Shanghai United Imaging Healthcare, and SensL Technologies of Cork, Ireland.
Positron emission tomography, or PET, scanning uses short-lived radioactive tracers to show how organs and tissues are functioning in the body, while magnetic resonance imaging (MRI) and computed tomography (CT) scans mostly show anatomy. PET scans are widely used to diagnose and track a variety of illnesses, including cancer, heart disease and Alzheimer’s disease.
The EXPLORER scanner will have over 560,000 detector elements and can view all organs of the body simultaneously, with a 40-fold increase in effective signal over current technology. That would both improve image quality and reduce radiation exposure to patients over conventional PET scanners, which can only image a small segment of the body at a time.
Impact on diagnostics and treatment
Total-body PET has the potential to impact clinical diagnostics, enable new fields of research and facilitate development of cures for a wide range of human diseases.
“A system with this detection sensitivity will dramatically improve our ability to study cancer and other diseases as well as advance diagnostic capabilities in our industry,” said lead researcher Simon Cherry, professor in the UC Davis Department of Biomedical Engineering.
The EXPLORER consortium selected United Imaging Healthcare (UIH) America to build the first prototype total-body PET scanner after an extensive review of potential commercial partners.
“We are very proud to be selected to be part of the EXPLORER consortium and provide the system design support required to deliver a system capable of outstanding performance,” said Hongdi Li, CEO of UIH America.
The detector technology in the scanner will incorporate the latest generation solid-state silicon photomultiplier light sensors, instead of the vacuum-based photomultiplier tubes used in conventional PET scanners.
“The use of silicon photomultiplier technology is rapidly replacing older photomultiplier tube technologies and provides improved resolution for a system of this scale,” said Bryan Campbell, CEO of SensL, which will supply the detectors.
“We believe we have gathered leaders in the medical imaging field to quickly and cost effectively bring this technology to reality in an exciting and innovative way,” said Ramsey Badawi, professor of radiology at UC Davis and co-leader of the project.
Delivery of the prototype scanner is expected in 2018.
The EXPLORER consortium was formed in 2011 with the goal of building the first total-body PET scanner and also includes research groups at the University of Pennsylvania and the Lawrence Berkeley National Laboratory. Following initial feasibility studies, in September 2015 the consortium received a major grant from the National Institutes of Health to build the first prototype device.
See explorer.ucdavis.edu for more information.
About United Imaging Healthcare America
UIH America is a wholly-owned North American subsidiary of Shanghai United Imaging Healthcare, an innovative medical solutions provider with wide portfolio of products and services including a full line of advanced diagnostic imaging and radiation therapy equipment, comprehensive medical IT solutions, technical training and services. The company is dedicated to improving and expanding access to affordable healthcare services through technological advancements and innovations. Visit www.united-imaging.com for more information.
About SensL Technologies,
SensL is the world’s leading supplier of silicon photomultipliers (SiPM). These are large SPAD array sensors that are used to detect and measure light. SiPM’s are now widely utilized in numerous applications including medical imaging and radiation identification in hazard and threat detection. Emerging use of SiPM technology is in light detection and ranging (LiDAR) for automotive driver assist systems (ADAS) for vehicle safety where long distance identification is critical in difficult scenarios. SensL’s products replace legacy vacuum tube photomultiplier tubes (PMTs) and complex avalanche photodiodes (APDs) with a solid-state alternative that is lower cost, more uniform, and provides dramatically improved system integration benefits. Visit sensl.com for more information.