Ionizing Radiation Could Harm Cardiovascular Health Even at Low Doses

Ionizing radiation is radiation with enough energy so that during an interaction with an atom, it can remove tightly bound electrons from the orbit of an atom, causing the atom to become charged or ionized.

Certainly it can cause death if we are exposed to too much, and the most recent symbol for it makes it clear to stay away from it. A new study published in the International Journal of Radiation Biology suggests that ionizing radiation, such as x-rays, has a harmful effect on the cardiovascular system even at doses equivalent to recurrent CT imaging.

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‘When atoms in living cells become ionized one of three things usually happen – the cell dies, the cell repairs itself, or the cell mutates incorrectly and can become cancerous.’

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It is known that populations exposed to ionizing radiation in medical or environmental settings have symptoms suggesting an increased risk of cardiovascular disease. However, this research study suggests that low exposure to doses of around 0.5 Gy (the equivalent of repeated CT scans) is associated with a significantly increased risk of cardiovascular damage, up to decades after exposure. This raises questions about the nature of long-term alterations in the heart's vascular system caused by such doses.

Dr Soile Tapio and Dr Omid Azimzadeh of Helmholtz Zentrum München, German Research Center for Environmental Health, and colleagues studied how human coronary artery endothelial cells respond to a relatively low radiation dose of 0.5 Gy and found several permanent alterations in the cells that had the potential to adversely affect their essential functions.

Endothelial cells, which form the inner layer of blood vessels, were found to produce reduced amounts of nitric oxide, an essential molecule in several physiological processes including vascular contraction. Previously, high-dose radiation (16 Gy) has been shown to persistently reduce levels of nitric oxide in the serum of mice, but this is the first study to indicate impaired nitric oxide signaling at much lower doses.

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Cells damaged by low-dose radiation also produced increased amounts of reactive oxygen species (ROS), which are formed as a natural byproduct of normal oxygen metabolism and play an important role in cell signaling. Increased ROS can damage DNA and proteins.

In addition, exposed cardiac endothelial cells were found to have reduced capacity to degrade oxidised proteins and to be aging prematurely. Such harmful changes did not occur immediately (that is, within a day) but first began in the longer term (one to two weeks). As these cells do not divide rapidly in the body, this observed time in the cell culture would correspond to several years in the living organism.

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All these molecular changes are indicative of long-term premature dysfunction and suggest a mechanistic explanation to the epidemiological data showing increased risk of cardiovascular disease after low-dose radiation exposure, the authors conclude.

Source-Eurekalert

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