Durwood E. Bach scite author profile

Durwood E. Bach

2Publications

41Citation Statements Received

41Citation Statements Given

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Affiliations

Medical University of South Carolina, Walter Reed Army Institute of Research, United States Army

Publications

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Effect of Mechanical Loading on Electrical Conductivity in Porcine TMJ Discs

et al. 2011

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The objective of this study was to examine the impact of mechanical loading on solute transport in porcine temporomandibular joint (TMJ) discs using the electrical conductivity method. The electrical conductivity, as well as ion diffusivity, of TMJ discs was determined under confined compression with 3 strains in 5 disc regions. The average electrical conductivity over the 5 regions (mean ± SD) at 0% strain was 3.10 ± 0.68 mS/cm, decreased to 2.76 ± 0.58 mS/cm (-11.0%) at 10% strain, and 2.38 ± 0.55 mS/cm (-22.2%) at 20% compressive strain. Correspondingly, the average relative ion diffusivity (mean ± SD) at 0% strain was 0.273 ± 0.055, decreased to 0.253 ± 0.048 (-7.3%) at 10% strain, and 0.231 ± 0.048 (-15.4%) at 20% compressive strain. These results indicated that compressive strain impeded solute transport in the TMJ disc. Furthermore, our results showed that the transport properties of TMJ discs were regiondependent. The electrical conductivity and ion diffusivity in the anterior region were significantly higher than in the posterior region. This regional difference is likely due to the significant differences of tissue hydration between these 2 regions. This study provides important insight into the electrical and solute transport behaviors in TMJ discs under mechanical loading and aids in the understanding of TMJ pathophysiology related to tissue nutrition.

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Evaluation of Biodegradable Ampicillin Anhydrate Microcapsules for Local Treatment of Experimental Staphylococcal Osteomyelitis

Jacob

Setterstrom

Bach

et al. 1991

Clinical Orthopaedics and Related Research

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Durwood E. Bach

Effect of Mechanical Loading on Electrical Conductivity in Porcine TMJ Discs

Evaluation of Biodegradable Ampicillin Anhydrate Microcapsules for Local Treatment of Experimental Staphylococcal Osteomyelitis

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