New uses hydrogel as compensation bolus and to fill air cavities

Introduction Electron beams over an irregular surface produce localized hot and cold spots in the underlying medium due to scattering. This fact usually reduces the quality of the treatments. In practice, such sharp dose edges may be smoothed with an appropriately shaped bolus which has similar prop...

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Bibliographic Details
Published in:Physica medica 2016-09, Vol.32, p.306-306
Main Authors: Perez-Garcia, H, del Castillo, A, Miguel, D, Andrés, C, Agulla, M, Alonso, D, de Frutos, J, Pérez, C, Torres, R
Format: Article
Language:English
Subjects:
Radiology
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Summary:Introduction Electron beams over an irregular surface produce localized hot and cold spots in the underlying medium due to scattering. This fact usually reduces the quality of the treatments. In practice, such sharp dose edges may be smoothed with an appropriately shaped bolus which has similar properties to the tissue when it is irradiated. Purpose To present hydrogel (by Varihesive® ConvaTec) as a compensation bolus for clinical treatments Materials and methods Hydrogel material is radiologically characterized by a CT images using a clinical TC GE HiSpeed Nx/I. HU are measured and Percentage Depth Dose (PDD) is predicted by Eclipse TPS using the Analitytical Anisotropic Algorithm (AAA) v.11.0.31 in water and hydrogel. PDD is measured in water and hydrogel with a Ross chamber (PTW) and compared with previous results (characterized HU-to-ED calibration curves were needed). A practical case of hydrogel use is shown in a vulva cancer treatment: filling skin folds. Results Measured PDD and calculated PDD are very similar to each other. Obtained results show hydrogel and water have equivalent dosimetric properties. In the clinical case analyzed, hydrogel is shaped to the curvature of the patient’s skin where the conventional laminar bolus is not able to cover. Conclusion Hydrogel and water are radiological equivalent materials. Hydrogel can be used as a compensation bolus or to fill air cavities. Disclosure No conflicts of interest to declare.
ISSN:1120-1797
1724-191X
DOI:10.1016/j.ejmp.2016.07.164