Medscint’s HYPERSCINT scintillation dosimetry solution was presented by its partner, Toyo Medic, at the International Technical Exhibition of Medical Imaging 2025 2025 (ITEM 2025) as part of the Japan Radiology Congress 2025 (JRC 2025) in Yokohama, Japan this April. ITEM 2025 is an international hub for discovering innovative medical advancements, attracting professionals and attendees from various fields, including medical physicists exploring cutting-edge technologies for radiation oncology.
Pioneering Adaptive Radiotherapy Solutions
With the rise of advanced techniques like online Cone Beam Computed Tomography (CTgART), Surface-guided Radiotherapy (SgRT), and Magnetic Resonance-guided Radiotherapy (MRgRT), Adaptive Radiotherapy has emerged as a transformative approach to real-time adaptive treatments. Despite these advancements, accurate dosimetry remains a challenge, particularly in managing complex motion such as respiratory and cardiac movements.
Medscint’s HYPERSCINT detectors tackle these challenges by providing simultaneous spatial, temporal, and motion-integrated dosimetry. Through its innovative hyperspectral technology, HYPERSCINT differentiates between scintillation and Cherenkov emissions, significantly enhancing measurement accuracy and dose delivery safety.
Collaborative Research and Proven Impact
HYPERSCINT’s breakthrough technology has been validated worldwide through extensive studies and research collaborations with leading institutions such as UMC Utrecht and the University of Wisconsin–Madison. Explore more details about the integration of HYPERSCINT detectors in cutting-edge radiotherapy environments:
- Plastic scintillation detectors: real-time dosimetry in the MR-Linac environment
Prescilla Uijtewaal et al. | PHYSICS IN MEDECIN AND BIOLOGY 2024
(HYPERSCINT RP-200 used with UMC Utrecht ELEKTA Unity 1.5T MR-Linac) - Performance characterization of a novel hybrid dosimetry insert for simultaneous spatial, temporal, and motion-included dosimetry for MR-linac
Prescilla Uijtewaal et al. | MEDICAL PHYSICS 2023
(HYPERSCINT RP-200 used with UMC Utrecht ELEKTA Unity 1.5T MR-Linac) - Development and first implementation of a novel multi-modality cardiac motion and dosimetry phantom for radiotherapy applications
Kenneth W. Gregg et al. | MEDICAL PHYSICS 2024
(HYPERSCINT RP-200 used with University of Wisconsin in Madison VIEWRAY MRIdian 0.35T MR-Linac) - WEBINAR – Temporal, spatial, and motion-included scintillation-based QA for an MR-linac
PHYSICS WORLD | 2024
(HYPERSCINT RP-200 used with UMC Utrecht ELEKTA Unity 1.5T MR-Linac) - Plastic scintillation detectors: real-time dosimetry in the MR-Linac environment
PHYSICS WORLD | 2022
These collaborations underline the pivotal role of HYPERSCINT detectors in enhancing precision and safety in modern adaptive radiotherapy.
Discover the Future of Radiation Oncology
Explore how Medscint’s HYPERSCINT solution is revolutionizing adaptive radiotherapy and advancing global radiation oncology research. Stay updated on recent webinars and publications that showcase the application and impact of HYPERSCINT detectors in radiotherapy.