The Effects of Distance and Duration of Exposure to Electromagnetic Radiation of Hair Dryer on Rat Sperm Parameters

Background: As a part of modern life, using electromagnetic field exposure has increased. EMFs might produce a variety of adverse effects on different parts of human body including the reproductive system. The consequences of exposure to the emitted EMFs from a hair dryer on sperm parameters were the major concerns of the present study. Materials and Methods: Fifty four adult Male Sprague-Dawley rats were randomly assigned to 9 groups. Samples from all experimental groups received exposure with two different modes: switch on (hot wind) and switch off (cold wind). Samples of group 1 (control) maintained under experimental conditions without any exposure. The exposure protocol for samples in groups 2 to 9 were 10 cm at 10 min—on, 10 cm at 10 min—off, 10 cm at 20 min—on, 10 cm at 20 min—off, 20 cm at 10 min—on, 20 cm at 10 min—off, 20 cm at 20 min—on, 20 cm at 20 min—off. After exposure sperm motility was analyzed with a light microscope as a blind experiment. Nonparametric tests were used to detect statistically significant differences between different groups. Results: Findings of our study indicated no significant changes in the frequency of sluggish and non-motile sperms of rats in the control group compared to all treatment groups and showed statistically significant differences between the relative frequency of progressive sperms in control group rats compared to all treatment groups except groups 2 and 7. There were no statically significant changes between groups with different time and distance. Sperm count and morphology were not affected by microwave emitted from hair dryer. Conclusion: Exposure to the hair dryer microwaves affects sperm motility, which is amongst the key parameters determining the chance of conceiving.

Commentary regarding “on-orbit sleep problems of astronauts and countermeasures”

This commentary addresses the article by Wu et al. entitled 'On-orbit sleep problems of astronauts and countermeasures'. In this article, the authors discussed the sleep problems of astronauts. Despite its challenging topic, the paper authored by Wu et al. has at least one major shortcoming. This issue is related to the observation that the sleep pattern of astronauts can be disturbed by light flash phenomenon. Since the first report by astronaut E.E. Aldrin in 1969, many astronauts have reported light flashes. These visually perceived flashes of light occurred in different shapes but they apparently moved across the visual field of astronauts and possibly caused, at least to some extent, sleep problems. Moreover, the countermeasures proposed by the authors may improve astronauts’ sleep pattern, but they do not address the root cause of the light flashes(i.e., heavy ion interactions outside the shielding provided by the Earth’s magnetosphere). A possible approach to reducing light flashes is available using the fact that much of the galactic cosmic radiation(GCR) spectrum is composed of ions that can be diverted from the spacecraft using electromagnetic fields. Possible design parameters and the requisite electric and magnetic field strengths to successfully deflect GCR radiation are outlined.

Combination therapy using low dose radiation,plasma exchange,and a robust antiviral may induce synergic beneficial interactions for mitigating severe COVID‐19

Recent studies confirm that current antiviral drugs are not fully effective on coronaviruses.Our research team introduced the idea of radiotherapy at low doses for coronavirus disease 2019(COVID-19)in March 2020.This issue later received much attention from many scientists around the world.Low dose radiation therapy exerts modulatory effects in acute inflammation,potentiate the anti-viral immune responses,and can be localized to the organ affected by inflammatory reactions,such as lungs.The findings of the first clinical trial show that low dose radiation therapy is safe,and reveal early promise of efficacy.Moreover,plasma exchange therapy may be a rescue therapy in severe COVID-19 patients,as it can quickly eliminate the cytokines and chemokines from the circulation.Remdesivir was introduced as an anti-virus agent that prevents viral RNA synthesis and coronavirus replication and reduces the viral load.If antiviral therapy is poor,the virus has ample opportunity to mutate and increase its fitness through adaptive mutations.Given this consideration,instead a single treatment,we preferentially recommend a combination therapy using low dose radiation therapy plasma exchange and a robust antiviral agent(not yet available).This review provides a viewpoint concerning the potential synergistic effects of low dose radiation therapy,plasma exchange therapy and robust antiviral agent in severe acute respiratory syndrome coronavirus type 2(SARS-CoV-2)-infected patients as a more effective strategy for possible treatment of severe COVID-19 patients.

On the immunological limitations of hibernation and synthetic torpor as a supporting technique for astronauts’ radioprotection in deep space missions

Although human hibernation has been introduced as an effective technique in space exploration,there are concerns regarding the intrinsic risks of the approach(i.e.,synthetic torpor)and other factors involved in this procedure.Besides concerns about the brain changes and the state of consciousness during hibernation,an"Achilles heel"of the hibernation is the negative impact of torpor on factors such as the number of circulating leukocytes,complement levels,response to lipopolysaccharides,phagocytotic capacity,cytokine production,lymphocyte proliferation,and antibody production.Moreover,increased virulence of bacteria in deep space can significantly increase the risk of infection.The increased infection risk during long-term space missions with the combined effects of radiation and microgravity affect the astronauts’immune system.With these additional immune system stressors,torpor-induced extraimmunosuppression can be potentially life threatening for astronauts.