Jorge I. Hernandez scite author profile

Piscidins are histidine-enriched antimicrobial peptides that interact with lipid bilayers as amphipathic α-helices. Their activity at acidic and basic pH in vivo makes them promising templates for biomedical applications. This study focuses on p1 and p3, both 22-residue-long piscidins with 68% sequence identity. They share three histidines (H3, H4 and H11) but p1, which is significantly more permeabilizing, has a fourth histidine (H17). This study investigates how variations in amphipathic character associated with histidines affect the permeabilization properties of p1 and p3. First, we show that the permeabilization ability of p3, but not p1, is strongly inhibited at pH 6.0 when the conserved histidines are partially charged and H17 is

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The effect of manufacturing tolerances on the mechanical environment of taper junctions in modular TKR

Snethen

Hernandez

Harman

2019

Journal of the Mechanical Behavior of Biomedical Materials

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Taper design is known to influence corrosive behavior in taper junctions used in modular orthopaedic devices. Manufacturing tolerance of bore-cone tapers is a critical design parameter due to the effect on taper fit, but the effect of variations in manufacturing tolerance on the mechanics of taper junctions has not been well characterized, particularly in modular total knee replacement (TKR). The purpose of this study was to investigate the effect of manufacturing tolerance on stress and micromotion of modular TKR taper junctions. A 3D finite element (FE) model of a modular TKR taper junction was developed and assigned elastoplastic material properties. Model taper geometry was varied by perturbing the angle mismatch by 0.05° between ± 0.25° and represented expected variation in manufacturing tolerance. Stress and micromotion were calculated during dynamic FE simulations for each taper junction geometry under varying activity loads and material combinations. Although an increase in angle mismatch generally resulted in higher stress and micromotion, plastic material behavior disrupted this trend for larger angle mismatches. Model predictions corresponded with corrosion behavior evident in vitro. If the FE results obtained here apply in vivo, the absence of elastoplastic material properties in a taper model may grossly overestimate the micromotion and underestimate corrosion behavior and ion release. It is recommended that manufacturing tolerances of bore-cone tapers in modular TKR designs should produce angle mismatches within 0.1° at the taper junction.

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The Transmembrane State of Antimicrobial Piscidin in Bacterial Cell Membrane Mimics Dramatically Alters the Polar-Nonpolar Segregation of the Bilayer

Cotten

Hernandez

Bogardus

et al. 2015

Biophysical Journal

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molecule and a fluorescence labeled melittin to obtain the lipid bilayer response to an AMP. The same method was applied to spheroplasts to observe the action of AMPs on bacterial membranes. In both cases, we found first the binding of peptides expanded the membrane area. As the membrane area increased tõ 2-3%, the dye molecules began to leak in. After a time, we found the spheroplasts lost their phase contrast indicating the lose of the cell content. The same experiments were repeated with LL37 and magainin. We found that sytox green is not a good indicator of membrane permeability.

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