Elucidating the neurological mechanism of the FLASH effect in juvenile mice exposed to hypofractionated radiotherapy.

Barrett D AllenYasaman AlaghbandEniko A KramárNing RuBenoit PetitVeljko GriljMichael S PetronekCasey F PulliamRachel Y KimNgoc-Lien DoanJanet E BaulchMarcelo A WoodClaude BailatDouglas R SpitzMarie-Catherine VozeninCharles L Limoli

Published in: Neuro-oncology (2022)

Hypofractionated FLASH-RT affords significant and long-term normal tissue protection in the radiosensitive juvenile mouse brain when compared to CONV-RT. The capability of FLASH-RT to preserve critical cognitive outcomes and electrophysiological properties over 6-months is noteworthy and highlight its potential for resolving long-standing complications faced by pediatric brain tumor survivors. While care must be exercised before clinical translation is realized, present findings document the marked benefits of FLASH-RT that extend from synapse to cognition and the microvasculature.

Keyphrases

radiation therapy
healthcare
early stage
palliative care
quality improvement
type diabetes
risk factors
locally advanced
white matter
pain management
adipose tissue
high fat diet induced
blood brain barrier
rectal cancer
insulin resistance
wild type