AI Article Synopsis
- Real-time monitoring of radiation therapy beams aimed at patients is challenging due to a lack of external observation methods.
- Researchers discovered that polyester fabrics can serve as effective scintillating materials to visualize radiation beams, producing light outputs comparable to traditional plastic scintillators.
- By using CMOS cameras, clear images of proton beam spots on polyester cloths were captured, paving the way for improved surface beam imaging in radiation therapy.
Article Abstract
In the realm of radiation therapy, a conspicuous obstacle lies in the dearth of external observation concerning radiation beams aimed at the patient. While real-time monitoring of such beams on the patient's surface during therapy holds promise, the imaging of particle beams has thus far proven to be a formidable task. Here, we show our discovery of polyester fabrics and cloths as auspicious scintillating materials, ideally suited for the visualization of radiation beams upon the patient's surface. The light output of polyester fabrics ranged from 10 to 20% of that observed in plastic scintillators. When exposed to spot scanning proton beams, clear beam spots emerged on the surface of the polyester cloths. The movement of these scanning beams was effectively captured using a CMOS camera in a light-shield-free with lights-off environment. The resulting images provided a means for evaluating spills of the proton beams. The inherent flexibility of polyester fabrics and clothing enhances their appeal for applications in the intricate landscape of radiation therapy, promising a bright future for surface beam imaging endeavors.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11169216 | PMC |
| http://dx.doi.org/10.1038/s41598-024-62456-7 | DOI Listing |
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