Jared M. Lippell scite author profile

Jared M. Lippell

2Publications

33Citation Statements Received

63Citation Statements Given

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Hospital for Special Surgery

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Glycation cross-linking induced mechanical–enzymatic cleavage of microscale tendon fibers

2014

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Recent molecular modeling data using collagen peptides predicted that mechanical force transmitted through intermolecular cross-links resulted in collagen triple helix unwinding. These simulations further predicted that this unwinding, referred to as triple helical microunfolding, occurred at forces well below canonical collagen damage mechanisms. Based in large part on these data, we hypothesized that mechanical loading of glycation cross-linked tendon microfibers would result in accelerated collagenolytic enzyme damage. This hypothesis is in stark contrast to reports in literature that indicated that individually mechanical loading or cross-linking each retards enzymatic degradation of collagen substrates. Using our Collagen Enzyme MechanoKinetic Automated Testing (CEMKAT) System we mechanically loaded collagen-rich tendon microfibers that had been chemically cross-linked with sugar and tested for degrading enzyme susceptibility. Our results indicated that cross-linked fibers were >5 times more resistant to enzymatic degradation while unloaded but became highly susceptible to enzyme cleavage when they were stretched by an applied mechanical deformation.

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Covalent Cross-Linking Accelerates Collagen Enzyme Mechano-Kinetic Cleavage: Nanomechanics Predicts Microscale Behavior

Bourne

Lippell

Torzilli

2012

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Fibrillar collagens are an integral structural element of tissues throughout the body and help provide tensile strength. These collagens are highly resistant to degradation other than by a small number of collagenolytic enzymes. Examples of tensile mechanical forces in vivo include expansion and contraction of blood vessels, tension on tendons and ligaments, and compression and swelling of cartilage.

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Jared M. Lippell

Glycation cross-linking induced mechanical–enzymatic cleavage of microscale tendon fibers

Covalent Cross-Linking Accelerates Collagen Enzyme Mechano-Kinetic Cleavage: Nanomechanics Predicts Microscale Behavior

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