Development of a three-dimensional scintillation detector for pencil beam verification in proton therapy patient-specific quality assurance.

Background: Pencil Beam Scanning proton therapy has many advantages from a therapeutic point of view, but raises technical constraints in terms of treatment verification. The treatment relies on a large number of planned pencil beams (PB) (up to thousands), whose delivery is divided in several low-intensity pulses delivered a high frequency (1 kHz in this study).

Purpose: The purpose of this study was to develop a three-dimensional quality assurance system allowing to verify all the PBs' characteristics (position, energy, intensity in terms of delivered monitor unit-MU) of patient treatment plans on a pulse-by-pulse or a PB-by-PB basis.

Assessment of gaze direction during head and neck irradiation and dosimetric impact on the retina, macula and papilla in a cohort of 240 patients with paraoptic tumors.

In a prospective cohort of 240 paraoptic tumors patients treated with protons, there was 10° inter-individual gaze angle variability (up to 30°). In a random 21-patient subset with initial CTs versus and adaptive CTs, 6 (28.57 %) patients had at least twice a 10°-difference in their gaze angle, with > 5 Gy difference on the retina/macula or papilla in 2/21 (9.

Espadon, an R package for automation, exploitation and processing of DICOM files in medical physics and clinical research.

Introduction: One of the main issues in the field of clinical research is to enhance clinical databases with information from imaging (CT, MR, PET-scan), contouring (RTstruct), or produced by TPS such as dose distribution (RTdose) or treatment plans (RTplan). To perform these analyses automatically, we propose the new open-source package "espadon", developed in R environment. This package also opens up numerous perspectives for TPS-independant calculation, automation and processing of DICOM data.

A Comprehensive Analysis of the Relationship Between Dose Rate and Biological Effects in Preclinical and Clinical Studies, From Brachytherapy to Flattening Filter Free Radiation Therapy and FLASH Irradiation.

Purpose: For many years, the effect of dose rate (DR) was considered negligible in external beam radiation therapy (EBRT) until very-high DR (>10 Gy/min) became possible and ultrahigh DR (>40 Gy/s) showed dramatic protection of normal tissues in preclinical experiments. We propose a critical review of preclinical and clinical studies to investigate the biological and clinical effects of DR variation in the range covering brachytherapy to flattening filter free EBRT and FLASH.

Methods And Materials: Preclinical and clinical studies investigating biological and clinical DR effects were reviewed extensively.