Technical note: A small animal irradiation platform for investigating the dependence of the FLASH effect on electron beam parameters.

Background: The recent rediscovery of the FLASH effect, a normal tissue sparing phenomenon observed in ultra-high dose rate (UHDR) irradiations, has instigated a surge of research endeavors aiming to close the gap between experimental observation and clinical treatment. However, the dependences of the FLASH effect and its underpinning mechanisms on beam parameters are not well known, and large-scale in vivo studies using murine models of human cancer are needed for these investigations.

Purpose: To commission a high-throughput, variable dose rate platform providing uniform electron fields (≥15 cm diameter) at conventional (CONV) and UHDRs for in vivo investigations of the FLASH effect and its dependences on pulsed electron beam parameters.

Animal Model Considerations for Medical Countermeasure Development for Radiation and Sulfur Mustard Exposures: Animal models for radiation and HD exposures.

Development of medical countermeasures (MCM) to mitigate and/ or treat the pulmonary complications associated with exposure to chemical, radiological, and/ or nuclear weapons is a national, public health preparedness posture priority in the United States (US). Pulmonary exposure to either sulfur mustard vapor or radiation causes oxidative damage, vascular injury, hyperinflammation, and pro-fibrotic signaling cascades that lead to life-threatening and potentially debilitating lung disease. There is no MCM currently approved by the US Food and Drug Administration (FDA) to mitigate and/ or treat lung injury caused by sulfur mustard or radiation exposure.

A Dose of Reality: How 20 Years of Incomplete Physics and Dosimetry Reporting in Radiobiology Studies May Have Contributed to the Reproducibility Crisis.

Purpose: A large proportion of preclinical or translational studies using radiation have poor replicability. For a study involving radiation exposure to be replicable, interpretable, and comparable, its experimental methodology must be well reported, particularly in terms of irradiation protocol, including the amount, rate, quality, and geometry of radiation delivery. Here we perform the first large-scale literature review of the current state of reporting of essential experimental physics and dosimetry details in the scientific literature.