Solid State Integrated Gamma, X-ray and Particle Detector

Description:

 Portable, Low-Power, Light-Weight Solid State Integrated Gamma, X-ray and Particle Detector with improved sensitivity and resolution  

 

 Background: 

Positron Emission Tomography (PET) is a proven and powerful research and clinical tool that uses molecular biomarkers for imaging the function and metabolism of the human body and brain. These biomarkers can be tailored to a high degree of specificity to highlight abnormal metabolism and uptake and are often used to diagnose diseases such as brain tumor, strokes, neuron-damaging disease (dementia), and other neurological disorders (addiction, schizophrenia, etc.). However, it suffers a number of critical limitations that restrict its full research and clinical potential.

 

 Technology Overview:  

This system allows for Improved sensitivity and resolution in the detection of energetic photons or particles including gamma rays, x-rays, charged and neutral particles. Our detector is light weight, low power, and portable. It also has improved depth of interaction resolution for the detection of coincident events. This is especially important in positron emission tomography (PET) a method used in medical imaging. Our system is completely compatible with the magnetic fields of MRI making MRI/PET easier and less expensive to implement. Our system is also compatible with other methods especially for brain studies such as EEG, and MEG. Our system is ideal for such studies and in one configuration will be worn by human adults using a backpack supporting system. In this way, PET images will be recorded on fully functioning human patients. This capability does not exist in any current systems. 

 

https://binghamton.technologypublisher.com/files/sites/rb457.jpeg

https://unsplash.com/photos/f2aDTqfnqfE

 

 Advantages:  

  • Improved sensitivity and resolution
  • Improved time resolution.
  • Lighter weight.
  • Portability ­ systems based on this detector will be easy to move and setup in any location in a short time.
  • Lower power requirements ­ battery operation possible.
  • Ease of operation especially in adverse environments.
  • Ease of operation in magnetic fields.

 

 

 Intellectual Property Summary: 

Patent rights available for licensing. 

 

Patent Information:
For Information, Contact:
Scott Hancock
Senior Director, Technology Transfer
Binghamton University
(607) 777-5874
shancock@binghamton.edu
Inventors:
James Turner
Steven Czarnecki
Mark Poliks
Keywords:
#SUNYresearch
Technologies
© 2024. All Rights Reserved. Powered by Inteum