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Αλέξανδρος Γ. Σφακιανάκης

Tuesday, November 8, 2022

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

alexandrossfakianakis shared this article with you from Inoreader
Abstract
Background
Ultra-high dose-rate radiotherapy (FLASH-RT) affords improvements in the therapeutic index by minimizing normal tissue toxicities without compromising anti-tumor efficacy compared to conventional dose rate radiotherapy (CONV-RT). To investigate the translational potential of FLASH-RT to human pediatric medulloblastoma brain tumor, we used a radiosensitive juvenile mouse model to assess adverse long-term neurological outcomes.
Methods
Cohorts of three-week-old male and female C57Bl/6 mice exposed to hypofractionated (2×10 Gy, FLASH-RT or CONV-RT) whole brain irradiation and unirradiated controls underwent behavioral testing to ascertain cognitive status four months post-treatment. Animals were sacrificed 6 months post-irradiation and tissues analyzed for neurological and cerebrovascular decrements.
Results
The neurological impact of FLASH-RT was analyzed over a 6-month follow-up. FLASH-RT ameliorated neuroco gnitive decrements induced by CONV-RT and preserved synaptic plasticity and integrity at the electrophysiological (long-term potentiation), molecular (synaptophysin) and structural (Bassoon/Homer-1 bouton) levels in multiple brain regions. The benefits of FLASH-RT were also linked to reduced neuroinflammation (activated microglia) and a preservation of cerebrovascular structure, by maintaining aquaporin-4 levels and minimizing microglia colocalized to vessels.
Conclusions
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 benefit s of FLASH-RT that extend from synapse to cognition and the microvasculature.
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