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Literature DB >> 14593437

The hazards of space travel.

Richard B Setlow¹.

Abstract

Mesh：

Year: 2003 PMID： 14593437 PMCID： PMC1326386 DOI： 10.1038/sj.embor.embor7400016

Source DB: PubMed Journal: EMBO Rep ISSN： 1469-221X Impact factor: 8.807

× No keyword cloud information.

5 in total

Review 1. The U.S. National Research Council's views of the radiation hazards in space.

Authors: R B Setlow
Journal: Mutat Res Date: 1999-12-06 Impact factor: 2.433

2. Combined effects of space flight factors and radiation on humans.

Authors: P Todd; M J Pecaut; M Fleshner
Journal: Mutat Res Date: 1999-12-06 Impact factor: 2.433

3. Galactic cosmic rays and cell-hit frequencies outside the magnetosphere.

Authors: S B Curtis; J R Letaw
Journal: Adv Space Res Date: 1989 Impact factor: 2.152

4. The potential impact of bystander effects on radiation risks in a Mars mission.

Authors: D J Brenner; C D Elliston
Journal: Radiat Res Date: 2001-11 Impact factor: 2.841

5. Space exploration. One nuclear leap to Mars?

Authors: Richard Stone
Journal: Science Date: 2003-08-15 Impact factor: 47.728

5 in total

14 in total

1. Base damage immediately upstream from double-strand break ends is a more severe impediment to nonhomologous end joining than blocked 3'-termini.

Authors: Kamal Datta; Shubhadeep Purkayastha; Ronald D Neumann; Elzbieta Pastwa; Thomas A Winters
Journal: Radiat Res Date: 2011-01 Impact factor: 2.841

2. Biological Effects of Space Radiation and Development of Effective Countermeasures.

Authors: Ann R Kennedy
Journal: Life Sci Space Res (Amst) Date: 2014-04-01

3. A method for detailed movement pattern analysis of tadpole startle response.

Authors: Kasra Zarei; Karen L Elliott; Sanam Zarei; Bernd Fritzsch; James H J Buchholz
Journal: J Exp Anal Behav Date: 2017-06-27 Impact factor: 2.468

4. Germ cell mutagenesis in medaka fish after exposures to high-energy cosmic ray nuclei: A human model.

Authors: Atsuko Shimada; Akihiro Shima; Kumie Nojima; Yo Seino; Richard B Setlow
Journal: Proc Natl Acad Sci U S A Date: 2005-04-13 Impact factor: 11.205

5. Exposure to heavy ion radiation induces persistent oxidative stress in mouse intestine.

Authors: Kamal Datta; Shubhankar Suman; Bhaskar V S Kallakury; Albert J Fornace
Journal: PLoS One Date: 2012-08-24 Impact factor: 3.240

6. Neurocytotoxic effects of iron-ions on the developing brain measured in vivo using medaka (Oryzias latipes), a vertebrate model.

Authors: Takako Yasuda; Shoji Oda; Hiroshi Yasuda; Yusuke Hibi; Kazunori Anzai; Hiroshi Mitani
Journal: Int J Radiat Biol Date: 2011-07-19 Impact factor: 2.694

7. Therapeutic and space radiation exposure of mouse brain causes impaired DNA repair response and premature senescence by chronic oxidant production.

Authors: Shubhankar Suman; Olga C Rodriguez; Thomas A Winters; Albert J Fornace; Chris Albanese; Kamal Datta
Journal: Aging (Albany NY) Date: 2013-08 Impact factor: 5.682

8. Hindlimb suspension and SPE-like radiation impairs clearance of bacterial infections.

Authors: Minghong Li; Veronica Holmes; Yu Zhou; Houping Ni; Jenine K Sanzari; Ann R Kennedy; Drew Weissman
Journal: PLoS One Date: 2014-01-15 Impact factor: 3.240

9. Heavy ion radiation exposure triggered higher intestinal tumor frequency and greater β-catenin activation than γ radiation in APC(Min/+) mice.

Authors: Kamal Datta; Shubhankar Suman; Bhaskar V S Kallakury; Albert J Fornace
Journal: PLoS One Date: 2013-03-21 Impact factor: 3.240

10. A systems biology pipeline identifies new immune and disease related molecular signatures and networks in human cells during microgravity exposure.

Authors: Sayak Mukhopadhyay; Rohini Saha; Anbarasi Palanisamy; Madhurima Ghosh; Anupriya Biswas; Saheli Roy; Arijit Pal; Kathakali Sarkar; Sangram Bagh
Journal: Sci Rep Date: 2016-05-17 Impact factor: 4.379