The potential use of biogas producing microorganisms in radiation protection

Abdollahi, H. and Atashzar, M. and Amini, M. (2015) The potential use of biogas producing microorganisms in radiation protection. Journal of Medical Hypotheses and Ideas, 9 (2). pp. 67-71.

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Radiation induced injury is a limiting factor in radiation related approaches from earth to space. Inductions of a wide spectrum of damages in radiotherapy patients due to unwanted normal tissues irradiation and space radiation related diseases in astronauts have been caused many limitations in cancer treatment and space missions. There are many radiation protection/mitigation approaches including: physical, chemical, biological and physiological methods. Radiation protection using these methods is expensive and also has many problems including acute toxicities and difficulties in their targeting to normal tissues. Based on experimental and hypothetical data, showing that medical/biological gases have many protective effects such as antioxidant, anti-inflammatory, anti-apoptotic, and induction of radioresistance, we hypothesize that similar gases which have been produced by microorganisms (biogases) have those properties and may be used as radiation mitigators/protectors in radiation related approaches such as radiotherapy, radiation accidents and in space missions. Isolation microorganism in safe laboratory conditions in enough amounts, finding non-toxic dose of microorganisms that provide highest radioprotection percent, dose reduction factor (DRF) calculation to compare the radioprotective efficacy of the microorganisms, finding the best targeting techniques to deliver those microorganisms into normal tissues, genetically manipulations of microorganism to achieve the highest amount of biogases with lowest side effects can be done for testing the hypothesis. © 2015 Tehran University of Medical Sciences.

Item Type: Article
Additional Information: cited By 0
Uncontrolled Keywords: biogas; carbon monoxide; hydrogen; hydrogen sulfide; nitric oxide, Article; bioengineering; biogas producing microorganism; biotechnology; dosimetry; human; microbial metabolism; nonhuman; organism forms; oxidative stress; photolysis; radiation dose reduction; radiation injury; radiation protection; radiolysis; radiosensitivity
Divisions: School of Medicine
Depositing User: Unnamed user with email
Date Deposited: 10 Mar 2017 17:12
Last Modified: 10 Mar 2017 17:12

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