Bone metabolism and formation of mice bred in a 2 G environment.

Bone metabolism and formation of mice bred in a 2 G environment. Research Abstract Details 

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Bone metabolism and formation of mice bred in a 2 G environment. Abstract Text:

S Kita,K Iwasaki,R Onishi,M Fujisawa,H Kim,S Shibata,M Ito,

The purpose of this study is to reveal the effect of chronic hypergravity exposure on the bone formation and the bone metabolism when mammals produce offspring in a 2 G environment. We measured the length and width of the thighbone, the length of the pelvis, the width of the pelvic cavity and the width of the fourth cervical vertebra on the second (F2) and the third (F3) generation mice bred in a 2 G environment every ten days from 20 days old to 60 days old in an experiment on bone formation. In an experiment on bone metabolism, we measured calcium and phosphorus in the bones of the F3 in the 2 G group. Ratios of the thighbone length, pelvis length, pelvic cavity width, and fourth cervical vertebra width versus the body length were calculated. These ratios were higher in the 2 G group than the control group during all measuring periods. Calcium and phosphorus concentrations in the thighbone and the lumbar vertebra were lower in the 2 G group than in the control group. However, the calcium and phosphorus concentrations in the cervical vertebrae of the 2G group were higher. These results suggest that the influence of gravity load may vary in the bones.

Bone metabolism and formation of mice bred in a 2 G environment. Publishing Authors By Initials

S Kita,K Iwasaki,R Onishi,M Fujisawa,H Kim,S Shibata,M Ito,

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Bone metabolism and formation of mice bred in a 2 G environment. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Advances in space research : the official journal

VOLUME: 32

Page Numbers: 1453-7

Journal Abbreviation: Adv Space Res

ISSN: 0273-1177

DAY: 4

MONTH: 03

YEAR: 2003

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LANGUAGE: eng

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Grant and Affiliation Information for Bone metabolism and formation of mice bred in a 2 G environment.

AFFILIATION: Faculty of Bioindustry, Tokyo University of Agriculture, Abashiri, Japan. sayakak@med.nihon-u.ac.jp

Country: United States

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MEDLINETA: Adv Space Res

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