"Characterizing the Effects of Radiation on Muscle Cells" by Lori Caldwell

Selected Works of Elizabeth Vargis

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Characterizing the Effects of Radiation on Muscle Cells

33rd Annual Meeting of the American Society for Gravitational and Space Research

Lori Caldwell, Utah State University
Elizabeth Vargis, Utah State University
Charles Harding, Utah State University
JR Dennison, Utah State Univesity

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Document Type

Conference Poster

Publisher

American Society for Gravitational and Space Research

Location

Seattle, WA

Publication Date

10-25-2017

Disciplines

Condensed Matter Physics and
Physics

Abstract

One of the primary concerns for those spending time in low gravity and high radiation environments is muscle atrophy. A major cause of muscular atrophy is oxidative stress which is amplified by increased levels of ionizing radiation during spaceflight. Additionally, high levels of radiation can damage DNA, increasing the risk of cancer. Utah State University’s Space Environment Test Facility was used to irradiate C2C12 myoblasts and human vascular endothelial cells with a beta-radiation dosage mimicking that on the International Space Station and a 3-year deep space mission.

Citation Information

Lori Caldwell, Elizabeth Vargis, Charles Harding, and JR Dennison, “Characterizing the Effects of Radiation on Muscle Cells,” 33rd Annual Meeting of the American Society for Gravitational and Space Research, Seattle, WA, October 25-28, 2017.