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4D robust optimization including uncertainties in time structures can reduce the interplay effect in proton pencil beam scanning radiation therapy
Interplay effects in PB-PT, can be reduced by generating "time structures" that align to different time-points of the breathing cycle, delivering accurately the...
Fattori Commissioning and QA for PBS PT optic tracking
The commissioning and quality assurance of a clinical protocol for respiratory gating in pencil beam scanning proton therapy for cancer patients with moving...
Evaluation of interplay and organ motion effects by means of 4D dose reconstruction and accumulation
An approach to assess target dose homogeneity of interplay effects in PB-PT for daily adaptive PT. A log-based 4D reconstruction and accumulation from daily...
Commissioning of a fluoroscopic-based real-time markerless tumor tracking system in a superconducting rotating gantry for carbon-ion pencil beam scanning treatment
Multi-burst imaging: markerless tracking using x-ray imaging was developed for clinical use in the carbon-ion PBS gantry room of NIRS (Chiba, Japan). All...
Pencil-beam scanning proton therapy for the treatment of glomus jugulare tumours.
This study by the group from Prague, Czech Republic, reported early outcomes of 12 patients with glomus jugulare tumours (GJT) treated with IMPT to a median...
Advanced pencil beam scanning Bragg peak FLASH-RT delivery technique can enhance lung cancer planning treatment outcomes compared to conventional multiple-energy proton PBS techniques.
Published in the Green Journal, this study by the group of New York Proton Center compared the dosimetric quality between an PBS Bragg peak FLASH and...