Hugh A. Benhardt scite author profile

Hugh A. Benhardt

3Publications

55Citation Statements Received

283Citation Statements Given

How they've been cited

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379

269

Affiliations

Texas A&M University

Publications

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The Role of Mechanical Loading in Ligament Tissue Engineering

Benhardt

Cosgriff‐Hernandez

2009

Tissue Engineering Part B: Reviews

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Tissue-engineered ligaments have received growing interest as a promising alternative for ligament reconstruction when traditional transplants are unavailable or fail. Mechanical stimulation was recently identified as a critical component in engineering load-bearing tissues. It is well established that living tissue responds to altered loads through endogenous changes in cellular behavior, tissue organization, and bulk mechanical properties. Without the appropriate biomechanical cues, new tissue formation lacks the necessary collagenous organization and alignment for sufficient load-bearing capacity. Therefore, tissue engineers utilize mechanical conditioning to guide tissue remodeling and improve the performance of ligament grafts. This review provides a comparative analysis of the response of ligament and tendon fibroblasts to mechanical loading in current bioreactor studies. The differential effect of mechanical stimulation on cellular processes such as protease production, matrix protein synthesis, and cell proliferation is examined in the context of tissue engineering design.

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Synthesis of Collagenase‐Sensitive Polyureas for Ligament Tissue Engineering

Benhardt

Sears

Touchet

et al. 2011

Macromolecular Bioscience

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Recently, poly(ester urethanes) were investigated for use as ligament grafts due to their exceptional mechanical properties and highly tunable structure; however, these grafts are susceptible to hydrolytic degradation that occurs independent of tissue regeneration. To address this limitation, polyureas containing collagen-derived peptides were synthesized which enable cellular release of proteases to dictate degradation rate. It is hypothesized that this cell-responsive design will facilitate load transfer from the biodegradable scaffold to neotissue at a rate that promotes proper tissue orientation and function while maintaining construct integrity.

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Polyurethanes: Resorbable

Dempsey¹,

Benhardt²,

Cosgriff‐Hernandez³

2016

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Hugh A. Benhardt

The Role of Mechanical Loading in Ligament Tissue Engineering

Synthesis of Collagenase‐Sensitive Polyureas for Ligament Tissue Engineering

Polyurethanes: Resorbable

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