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Selection of an appropriate animal model for study of bone loss in weightlessnessProlonged weightlessness in space flight results in a slow progressive demineralization of bone accompanied by an increased calcium output in the urine resulting in negative calcium balances. This possibly irreversible bone loss may constitute a serious limiting factor to long duration manned space flight. A number of preventative measures have been suggested, i.e., exercise during flight, dietary calcium supplements, use of specific prophylactic drugs. In order to facilitate research in these areas it is necessary to develop appropriate ground-based animal models that simulate the human condition of osteoporsis. An appropriate animal model would permit bone density studies, calcium balance studies, biochemical analyses, ground-based simulation models of weightlessness (bed rest, restraint, immobilization) and the planning of inflight experiments. Several animal models have been proposed in the biomedical research literature, but have inherent deficiencies. The purpose of this project was to evaluate models in the literature and determine which of these most closely simulates the phenomenon of bone loss in humans with regard to growth, bone remodeling, structural, chemical and mineralization similarities to human. This was accomplished by a comprehensive computer assisted literature search and report. Three animal models were examined closely for their relative suitability: the albino rat, monkey, and Beagle.
Document ID
19860021964
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Wolinsky, I.
(Houston Univ. TX, United States)
Date Acquired
August 12, 2013
Publication Date
July 1, 1986
Publication Information
Publication: NASA. Johnson Space Center NASA/American Society for Engineering Educatio
Subject Category
Space Biology
Accession Number
86N31436
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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