N. Vana scite author profile

Space radiation hazards are recognized as a key concern for human space flight. For long-term interplanetary missions, they constitute a potentially limiting factor since current protection limits for low-Earth orbit missions may be approached or even exceeded. In such a situation, an accurate risk assessment requires knowledge of equivalent doses in critical radiosensitive organs rather than only skin doses or ambient doses from area monitoring. To achieve this, the MATROSHKA experiment uses a human phantom torso equipped with dedicated detector systems. We measured for the first time the doses from the diverse components of ionizing space radiation at the surface and at different locations inside the phantom positioned outside the International Space Station, thereby simulating an extravehicular activity of an astronaut. The relationships between the skin and organ absorbed doses obtained in such an exposure show a steep gradient between the doses in the uppermost layer of the skin and the deep organs with a ratio close to 20. This decrease due to the body self-shielding and a concomitant increase of the radiation quality factor by 1.7 highlight the complexities of an adequate dosimetry of space radiation. The depth-dose distributions established by MATROSHKA serve as benchmarks for space radiation models and radiation transport calculations that are needed for mission planning.

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A meta-analysis for neurobehavioural effects due to electromagnetic field exposure emitted by GSM mobile phones

Barth

Winker

Ponocny‐Seliger

et al. 2007

Occup Environ Med

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Absorbed Dose Measurement and LET Determination with TLDs in Space

Vana¹,

Schoner²,

Fugger³

et al. 1996

Radiation Protection Dosimetry

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Effects of extremely low‐frequency magnetic field exposure on cognitive functions: results of a meta‐analysis

Barth

Ponocny

Ponocny‐Seliger

et al. 2009

Bioelectromagnetics

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There is extensive literature on possible effects of extremely low-frequency magnetic fields (ELF-MFs) on human cognitive functions. However, due to methodological deficits (e.g., low statistical power, small sample sizes) findings have been inconsistent. In the current study we try to overcome these problems by carrying out a meta-analysis. Literature research revealed 17 studies. Nine of these were included in the meta-analysis because they fulfilled minimum requirements (e.g., at least single-blind experimental study design and documentation of means and standard deviation of the dependent variables). All of the studies used a 50 Hz magnetic field exposure. Small but significant effect sizes could be detected in two cognitive dimensions: in the hard level of visual duration discrimination, task-exposed subjects performed better than controls; at the intermediate level however, exposed subjects performed worse. Additionally, a significant improvement of correct responses was observed in the dimension of "flexibility" under exposure. However, due to the small number of studies per performance dimensions and the resulting instability of estimates, these findings have to be treated with extreme caution. Taken together, the results of the meta-analysis provide little evidence that ELF-MFs have any effects on cognitive functions.

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The LET Dependence of LiF:Mg,Ti Dosemeters and its Application for LET Measurements in Mixed Radiation Fields

Schoner¹,

Vana²,

Fugger³

1999

Radiation Protection Dosimetry

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N. Vana

Astronaut's Organ Doses Inferred from Measurements in a Human Phantom Outside the International Space Station

A meta-analysis for neurobehavioural effects due to electromagnetic field exposure emitted by GSM mobile phones

Absorbed Dose Measurement and LET Determination with TLDs in Space

Effects of extremely low‐frequency magnetic field exposure on cognitive functions: results of a meta‐analysis

The LET Dependence of LiF:Mg,Ti Dosemeters and its Application for LET Measurements in Mixed Radiation Fields

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