Lauren Wood Zaseck scite author profile

Lauren Wood Zaseck

3Publications

34Citation Statements Received

0Citation Statements Given

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Affiliations

Michigan Department of Transportation, University of Michigan–Ann Arbor

Publications

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Rapamycin Attenuates Age-associated Changes in Tibialis Anterior Tendon Viscoelastic Properties

Zaseck¹,

Miller²,

Brooks

2016

GERONA

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Rapamycin extends mouse life span, but the extent to which rapamycin prevents aging-associated changes in specific tissues remains unclear. Stiffness increases and collagen turnover decreases in mouse tendon with aging; thus, our aim was to determine the effect of long-term rapamycin treatment on the mechanical and structural properties of tendons from old mice. Tendons were harvested from female UM-HET3 mice maintained on a standard chow diet for 4 (adult) or 22 (old) months or fed chow containing polymer-encapsulated rapamycin (eRAPA) from 9 to 22 months of age (old RAPA). Stiffness was twofold higher for tendons of old compared with adult mice, but in old RAPA mice, tendon stiffness was maintained at a value not different from that of adults. Additionally, expression of collagen decreased, expression of matrix metalloproteinase-8 increased, and total hydroxyproline content trended toward decreased levels in tendons of old eRAPA-fed mice compared with controls. Finally, age-associated calcification of Achilles tendons and accompanying elevations in expression of chondrocyte and osteoblast markers were all lower in old eRAPA-fed mice. These results suggest that long-term administration of rapamycin alters the molecular pathways responsible for aging of tendon extracellular matrix, resulting in tissue that is structurally and mechanically similar to tendons in adult mice.

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The influence of pre-existing rib fractures on Global Human Body Models Consortium thorax response in frontal and oblique impact

Zaseck

Chen

et al. 2018

Journal of Biomechanics

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Anatomically-based skeletal coordinate systems for use with impact biomechanics data intended for anthropomorphic test device development

Slykhouse

Zaseck

Miller

et al. 2019

Journal of Biomechanics

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