Radiotherapy remains a cornerstone of oncology care, particularly for rare or orphan cancers and chronic oncologic and rare non oncologic conditions, where precision and individualized treatment planning are necessary. Advances in imaging technologies are crucial to overcome the challenges posed by these cases, especially in achieving accurate tumor delineation and dose delivery. Photon-counting CT (PCCT) represents a transformative step forward in imaging technology. Unlike conventional energy-integrating CT, PCCT offers a) superior spatial resolution, enabling clearer visualization of tumor margins and fine anatomical structures, b) enhanced tissue characterization, allowing better differentiation between tumor tissues and normal tissue; c) spectral imaging capabilities, facilitating improved dose calculations. These attributes are particularly advantageous in high-precision radiotherapy techniques, such as stereotactic body radiotherapy (SBRT) or proton therapy, where small errors in target delineation or dose delivery can significantly impact treatment outcomes. However, very limited data reporting the clinical use of PCCT for RT planning are available.
Study Type
OBSERVATIONAL
Enrollment
500
IRCCS Humanitas Research Hospital
Rozzano, Milan, Italy
RECRUITINGImprove RT target delineation accuracy and differentiation of organs-at-risk (OARs).
During the simulation, the investigator will evaluate the image quality obtained from photon-counting TC imaging compared to conventional imaging techniques, and assess how this improved imaging could enhance radiotherapy treatment planning. The data will be evaluated by indicative scores of imaging quality and treatement planning. minimum scale value is one and indicates a poor quality of the imaging - maximum scale value is five and indicates excellent image quality
Time frame: day 1 (day of simulation TC)
Enhanced dose calculation precision, particularly for proton therapy
During the simulation, the investigator will evaluate the image quality obtained from photon-counting TC imaging compared to conventional imaging techniques, and assess how this improved imaging could enhance radiotherapy treatment planning. The data will be evaluated by indicative scores of imaging quality and treatement planning. minimum scale value is one and indicates a poor quality of the imaging - maximum scale value is five and indicates excellent image quality
Time frame: Day 1 (day of simulation TC)
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