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Bench to Bedside: Animal Models of Radiation Induced Musculoskeletal Toxicity.


ABSTRACT: Ionizing radiation is a critical aspect of current cancer therapy. While classically mature bone was thought to be relatively radio-resistant, more recent data have shown this to not be the case. Radiation therapy (RT)-induced bone loss leading to fracture is a source of substantial morbidity. The mechanisms of RT likely involve multiple pathways, including changes in angiogenesis and bone vasculature, osteoblast damage/suppression, and increased osteoclast activity. The majority of bone loss appears to occur rapidly after exposure to ionizing RT, with significant changes in cortical thickness being detectable on computed tomography (CT) within three to four months. Additionally, there is a dose-response relationship. Cortical thinning is especially notable in areas of bone that receive >40 gray (Gy). Methods to mitigate toxicity due to RT-induced bone loss is an area of active investigation. There is an accruing clinical trial investigating the use of risderonate, a bisphosphonate, to prevent rib bone loss in patients undergoing lung stereotactic body radiation therapy (SBRT). Additionally, several other promising therapeutic/preventative approaches are being explored in preclinical studies, including parathyroid hormone (PTH), amifostine, and mechanical loading of irradiated bones.

SUBMITTER: Farris MK 

PROVIDER: S-EPMC7073177 | biostudies-literature | 2020 Feb

REPOSITORIES: biostudies-literature

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Bench to Bedside: Animal Models of Radiation Induced Musculoskeletal Toxicity.

Farris Michael K MK   Helis Corbin A CA   Hughes Ryan T RT   LeCompte Michael C MC   Borg Alexander M AM   Nieto Karina K   Munley Michael T MT   Willey Jeffrey S JS  

Cancers 20200212 2


Ionizing radiation is a critical aspect of current cancer therapy. While classically mature bone was thought to be relatively radio-resistant, more recent data have shown this to not be the case. Radiation therapy (RT)-induced bone loss leading to fracture is a source of substantial morbidity. The mechanisms of RT likely involve multiple pathways, including changes in angiogenesis and bone vasculature, osteoblast damage/suppression, and increased osteoclast activity. The majority of bone loss ap  ...[more]

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