Influence of fiber dimensions on the mechanical properties of silica glass nanofibers.

The understanding of the mechanical properties in glass nanofibers remains a challenge. As the fiber diameter decreases, surface-to-volume atom fraction increases, making the impact of surface defects more significant. To elucidate these effects, we employed classical molecular dynamics (MD) simulations to investigate how fiber dimensions and the surface layer influence the mechanical properties of silica glass nanofibers.

Subcutaneous and Topical Tranexamic Acid Use During Rhytidectomy.

Objective: Tranexamic acid is a potential rhytidectomy adjunct; however, its route of administration, benefits, and safety remain a topic of debate. The purpose of this study is to analyze the effects of topical and subcutaneous TXA during rhytidectomy.

Methods: This is a retrospective, 3-arm analysis of a single surgeon's practice from Aug.

Cobalt containing glass fibres and their synergistic effect on the HIF-1 pathway for wound healing applications.

Chronic wounds are a major healthcare problem, but their healing may be improved by developing biomaterials which can stimulate angiogenesis, e.g. by activating the Hypoxia Inducible Factor (HIF) pathway.

Laser-Deposited Beta Type Ti-42Nb Alloy with Anisotropic Mechanical Properties for Pioneering Biomedical Implants with a Very Low Elastic Modulus.

Present commercial titanium alloy implants have an elastic modulus higher than 100 GPa, whereas that of the cortical bone is much smaller (17−28 GPa). This elastic modulus mismatch produces a stress shielding effect and the resorption of the bone surrounding the implant. In the present work, a <100> fiber texture is developed in β type Ti-42Nb (wt%) alloy ingots generated by laser-directed energy deposition (LDED) in order to achieve anisotropic mechanical properties.