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Michael Doube et al.
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Charles H. Turner et al.
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Colin W. Taylor et al.
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Differences in the mechanical behavior of cortical bone between compression and tension when subjected to progressive loading
Jeffry S. Nyman et al.
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Matthew J. Silva et al.
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Susan K. Grimston et al.
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Laoise M. McNamara et al.
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Botox induced muscle paralysis rapidly degrades bone
SE Warner et al.
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M Zayzafoon
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Calcineurin/NFAT signaling in osteoblasts regulates bone mass
Monte M. Winslow et al.
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MJ Silva et al.
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S Srinivasan et al.
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S Srinivasan et al.
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KCL Lee et al.
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DM Cullen et al.
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