AMA

Advanced imaging system for Medical Applications

Objectives

i-TED is a gamma-ray imaging system that was fully developed and successfully applied for nuclear astrophysics experiments at CERN n_TOF in the previous HYMNS ERC CoG. i-TED was designed for highest possible detection sensitivity, and it is also characterized by its modularity, portability and low sensitivity to neutron-induced backgrounds. These characteristics make the developed system potentially very attractive for several emerging applications in health and life science. Indeed, Compton imagers are expected to provide a breakthough innovation potential in the fields of i) ion-range monitoring in hadron therapy, ii) intraoperative Radio-Guided Surgery (RGS), iii) dose-monitoring in boron-neutron capture therapy (BNCT), and iv) theranostics (radioisotopes that serve for both therapy and diagnostics). Thus, the aim of this POC proposal is to perform first proof-of-concept measurements with readily available i-TED Compton cameras for demonstrating their applicability and advantages in two of these fields: (ii) intraoperative RGS and (iii) neutron dose assessment in BNCT. We also aim at addressing the corresponding technical-readiness levels (TRLs) for each application, which seems the most convenient approach for an efficient transfer of the developed technology towards society.

Description

Medical imaging technologies are constantly evolving, offering new ways to improve cancer treatment and surgery. One promising innovation is i-TED, a highly sensitive gamma-ray imaging technology originally developed for nuclear astrophysics experiments at CERN. One of its key advantages is its ability to filter out background noise, making it a strong candidate for medical applications. The ERC-funded AMA project will explore how i-TED can be employed to improve two areas of healthcare: guiding surgeons during cancer-related procedures and monitoring radiation doses in emerging cancer treatments based on neutron capture. Researchers will conduct proof-of-concept studies to demonstrate the potential benefits of the technology and evaluate its readiness for clinical use.