Endurance exercise attenuates juvenile irradiation-induced skeletal muscle functional decline and mitochondrial stress

被引：0

作者：

Thomas N. O’Connor

Jacob G. Kallenbach

Haley M. Orciuoli

Nicole D. Paris

John F. Bachman

Carl J. Johnston

Eric Hernady

Jacqueline P. Williams

Robert T. Dirksen

Joe V. Chakkalakal

机构：

[1] Genetics,Department of Biomedical Genetics

[2] Development and Stem Cells Graduate Program,Department of Pharmacology and Physiology

[3] University of Rochester Medical Center,Department of Biomedical Engineering

[4] University of Rochester Medical Center,Department of Biology, Biological Sciences

[5] University of Rochester Medical Center,Department of Pathology and Laboratory Medicine

[6] University of Rochester,Department of Pediatrics

[7] Cell Biology of Disease Graduate Program,Department of Environmental Medicine

[8] University of Rochester Medical Center,Department of Orthopaedic Surgery and Cell Biology

[9] University of Rochester Medical Center,undefined

[10] University of Rochester Medical Center,undefined

[11] Duke University,undefined

来源：

Skeletal Muscle | / 12卷

关键词：

Radiation; Exercise; Muscle; Physiology; Calcium handling; Oxidative/nitrosative stress; Mitochondria;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

引用

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[1] Endurance exercise attenuates juvenile irradiation-induced skeletal muscle functional decline and mitochondrial stress
O'Connor, Thomas N.
Kallenbach, Jacob G.
Orciuoli, Haley M.
Paris, Nicole D.
Bachman, John F.
Johnston, Carl J.
Hernady, Eric
Williams, Jacqueline P.
Dirksen, Robert T.
Chakkalakal, Joe V.
SKELETAL MUSCLE, 2022, 12 (01)
[2] Exercise attenuates juvenile irradiation-induced skeletal muscle decline by improving calcium handling and decreasing mitochondrial stress: Calcium Signaling and Excitation-Contraction in Cardiac, Skeletal and Smooth Muscle
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Kallenbach, Jacob G.
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[3] Elevated Mitochondrial Oxidative Stress Blunts Skeletal Muscle Adaptations to Endurance Exercise
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[9] Estradiol Attenuates Oxidative Stress, Skeletal Muscle Apoptosis, and Exercise-Induced Muscle Injury in Females
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