Molecular and Cellular Biology of Moderate-Dose (1–10 Gy) Radiation and Potential Mechanisms of Radiation Protection: Report of a Workshop at Bethesda, Maryland, December 17–18, 2001<sup>1</sup>

Coleman, C. Norman; Blakely, William F.; Fike, John R.; MacVittie, Thomas J.; Metting, N. F.; Mitchell, James B.; Moulder, John E.; Preston, R. Julian; Seed, Thomas M.; Stone, Helen B.; Tofilon, Philip J.; Wong, Rosemary

doi:10.1667/rr3021

Cited by 152 publications

(125 citation statements)

References 139 publications

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“…The extent to which exposure to 10 Gy TBI, a potentially survivable dose in a radiation accident or radiological terrorism event (22), could result in injury to the cardiovascular system is unknown. In this situation, the entire body rather than a single organ such as the heart would be exposed to a single, possibly heterogeneous dose of radiation.…”

Section: Radiological Terrorismmentioning

confidence: 99%

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Radiation as a Risk Factor for Cardiovascular Disease

Baker

Moulder

Hopewell

2011

Antioxidants & Redox Signaling

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107

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Humans are continually exposed to ionizing radiation from terrestrial sources. The two major contributors to radiation exposure of the U.S. population are ubiquitous background radiation and medical exposure of patients. From the early 1980s to 2006, the average dose per individual in the United States for all sources of radiation increased by a factor of 1.7-6.2 mSv, with this increase due to the growth of medical imaging procedures. Radiation can place individuals at an increased risk of developing cardiovascular disease. Excess risk of cardiovascular disease occurs a long time after exposure to lower doses of radiation as demonstrated in Japanese atomic bomb survivors. This review examines sources of radiation (atomic bombs, radiation accidents, radiological terrorism, cancer treatment, space exploration, radiosurgery for cardiac arrhythmia, and computed tomography) and the risk for developing cardiovascular disease. The evidence presented suggests an association between cardiovascular disease and exposure to low-to-moderate levels of radiation, as well as the well-known association at high doses. Studies are needed to define the extent that diagnostic and therapeutic radiation results in increased risk factors for cardiovascular disease, to understand the mechanisms involved, and to develop strategies to mitigate or treat radiation-induced cardiovascular disease. Antioxid. Redox Signal. 15, 1945Signal. 15, -1956

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Section: Radiological Terrorismmentioning

confidence: 99%

“…There is an immediate need for a practical therapy to prevent, mitigate, and/or treat radiation-induced injury to the heart after irradiation (22). The U.S. National Institutes of …”

Section: Potential For Medical Countermeasures To Prevent Mitigate mentioning

confidence: 99%

Radiation as a Risk Factor for Cardiovascular Disease

Baker

Moulder

Hopewell

2011

Antioxidants & Redox Signaling

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107

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“…The deleterious effects of ionizing radiation in biological systems are mainly mediated through the generation of reactive oxygen species (ROS) in cells as a result of water radiolysis [6]. ROS and oxidative stress may contribute to radiation-induced cytotoxicity and to metabolic and morphologic changes in animals and humans during radiotherapy, experimentation, or even space flight [7].…”

Section: Introductionmentioning

confidence: 99%

Effect of Gamma Ray on Reactive Oxygen Species at Experimental Animals

Km¹

2017

OMICS J Radiol

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The present study was designed to investigate the oxidative stress, which is due to the effect of low doses of gamma irradiation. Animals were divided into 6 groups, where the first group kept as control group, while 2 nd , 3 rd , 4 th , 5 th and 6 th groups were exposed to gamma ray at 1.5 Gy, 2 Gy, 2.5 Gy, 3 Gy and 3.5 Gy once weekly for one month respectively. Rats were subjected to gamma radiation and nitric oxides (NO), superoxide dismutase (SOD), malondialdehyde, alanine aminotransferase (ALT), aspartate aminotransferase (AST) and white blood cells (WBCs) were measured. SOD recorded highly significant decrease with percent change -22.7%, -25.01%, -55.01% -55.4% and -56.38% respectively in groups which were exposed to 1.5, 2, 2.5, 3 and 3.5 Gy. MDA serum level have a significant increase in groups which were exposed to successive doses of 1.5 Gy, 2 Gy, 2.5 Gy, 3 Gy and 3.5 Gy respectively with percent change 25.7% , 41.8% 59.1% 65.6% 75.8% consequently as compared to control group. Nitric oxide serum level is markedly showed highly significant increase in rats exposed to successive dose of 1.5, Gy, 2 Gy, 2.5 Gy, 3 Gy and 3.5 Gy respectively with percent change 59.69%, 74.17%, 87.1%, 120.1% and 130.6% consequently as compared to control group. ALT and AST recorded highly significant increase in rats exposure to successive doses of 1.5, Gy, 2 Gy, 2.5 Gy, 3 Gy and 3.5 Gy respectively. On the other hand WBCs recorded highly significant decreased in rats exposed to successive dose of 1.5, Gy, 2 Gy, 2.5 Gy, 3 Gy and 3.5 Gy respectively. WBCs recorded percent change -26.11%, -32.3%, -47.8%, -50.1% and -53.6% respectively as compared to control group.

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“…In principle, endogenous hematopoietic recovery could occur in humans after exposures to up to 9 or 10 Gy (single fraction); however, an extended period of pancytopenia begins as early as 4 to 7 days after significantly lower doses (13) and, to survive, a prolonged regimen of intensive supportive care, including broad-spectrum antibiotics and frequent transfusion of blood components, must be administered. Despite improvements in supportive care together with treatment using cytokines such as granulocyte colony-stimulating factor (G-CSF) ANIMAL MODELS FOR MEDICAL COUNTERMEASURES 561 and stem cell factor (SCF), mortality from accidental radiation exposures of .5 Gy remains high (39,48). One explanation is the increased risk of overwhelming opportunistic infections, primarily bacterial pathogens translocated from the gastrointestinal tract.…”

Section: Time-dose Relationships and End Pointsmentioning

confidence: 99%

Protection against Radiation-Induced Bone Marrow and Intestinal Injuries by Cordyceps sinensis, a Chinese Herbal Medicine

et al. 2006

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Molecular and Cellular Biology of Moderate-Dose (1–10 Gy) Radiation and Potential Mechanisms of Radiation Protection: Report of a Workshop at Bethesda, Maryland, December 17–18, 2001¹

Cited by 152 publications

References 139 publications

Radiation as a Risk Factor for Cardiovascular Disease

Radiation as a Risk Factor for Cardiovascular Disease

Effect of Gamma Ray on Reactive Oxygen Species at Experimental Animals

Protection against Radiation-Induced Bone Marrow and Intestinal Injuries by Cordyceps sinensis, a Chinese Herbal Medicine

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Molecular and Cellular Biology of Moderate-Dose (1–10 Gy) Radiation and Potential Mechanisms of Radiation Protection: Report of a Workshop at Bethesda, Maryland, December 17–18, 20011

Cited by 152 publications

References 139 publications

Radiation as a Risk Factor for Cardiovascular Disease

Radiation as a Risk Factor for Cardiovascular Disease

Effect of Gamma Ray on Reactive Oxygen Species at Experimental Animals

Protection against Radiation-Induced Bone Marrow and Intestinal Injuries by Cordyceps sinensis, a Chinese Herbal Medicine

Contact Info

Product

Resources

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Molecular and Cellular Biology of Moderate-Dose (1–10 Gy) Radiation and Potential Mechanisms of Radiation Protection: Report of a Workshop at Bethesda, Maryland, December 17–18, 2001¹