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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

96 related items for PubMed ID: 16193923

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  • 7. [Effects of simulated weightlessness on ultrastructure of soleus muscle spindle in rats].
    Wu SD, Fan XL, Tang B, Chen MX.
    Space Med Med Eng (Beijing); 2002 Feb; 15(1):32-5. PubMed ID: 11965681
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  • 8. [Change in formation of the somatosensory cortex ultrastructure in rats due to hypergravity in pre- and postnatal ontogenesis].
    Krasnov IB, D'iachkova LN.
    Aviakosm Ekolog Med; 2012 Feb; 46(3):32-5. PubMed ID: 23074948
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  • 9. The mechanisms underlying neuromuscular changes in microgravity environment.
    Kawano F.
    Biol Sci Space; 2004 Nov; 18(3):104-5. PubMed ID: 15858342
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  • 11. Short-term plasticity in primary somatosensory cortex of the rat after hindlimb suspension.
    Langlet C, Canu MH, Picquet F, Falempin M.
    J Gravit Physiol; 1999 Jul; 6(1):P59-60. PubMed ID: 11543027
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  • 15. [Comparative analysis of changes in rats organisms exposed to microgravity and head-down suspension].
    Il'in EA, Kaplanskiĭ AS.
    Aviakosm Ekolog Med; 1998 Jul; 32(6):43-50. PubMed ID: 9934442
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  • 17. The molecular chaperone HSP47 rapidly senses gravitational changes in myoblasts.
    Oguro A, Sakurai T, Fujita Y, Lee S, Kubota H, Nagata K, Atomi Y.
    Genes Cells; 2006 Nov; 11(11):1253-65. PubMed ID: 17054723
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  • 18. Changes of bone morphology in response to hindlimb suspension of rats.
    Ohira Y, Kawano F, Wang XD, Sudoh M, Ishihara A.
    Biol Sci Space; 2003 Oct; 17(3):225-6. PubMed ID: 14676388
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  • 19. Daily head-up tilt, standing or centrifugation can prevent vasoreactivity changes in arteries of simulated weightless rats.
    Zhang LN, Gao F, Ma J, Zhang LF.
    J Gravit Physiol; 2000 Jul; 7(2):P143-4. PubMed ID: 12697492
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