Methods for improving the antibacterial characteristics of biomedical implants and related implants manufactured according to such methods. In some implementations, a biomedical implant comprising a silicon nitride ceramic material may be subjected to a surface roughening treatment so as to increase a surface roughness of at least a portion of the biomedical implant to a roughness profile having an arithmetic average of at least about 500 nm Ra. In some implementations, a coating may be applied to a biomedical implant. Such a coating may comprise a silicon nitride ceramic material, and may be applied instead of, or in addition to, the surface roughening treatment process.

A wound dressing system having an oxygen-permeable membrane having a first surface and a second surface with oxygen-permeable pillars extending from the second surface is described.

The invention relates to a biodegradable graphene oxide biocomposite fibrous membrane and a preparation method and uses thereof. The composite fibrous membrane comprises biodegradable graphene oxide biocomposite fibers, each fiber has an outer layer consisting of graphene oxide-biodegradable polymer nanofibers and an inner layer consisting of sodium alginate/polyvinyl alcohol nanocomposite fibers. The biodegradable graphene oxide biocomposite fibrous membrane of the invention has the advantages of good biocompatibility, biodegradability, swellability, bacteriostasis and good mechanical properties and chemical stability.

Methods for improving the antibacterial characteristics of biomedical implants and related implants manufactured according to such methods. In some implementations, a biomedical implant comprising a silicon nitride ceramic material may be subjected to a surface roughening treatment so as to increase a surface roughness of at least a portion of the biomedical implant to a roughness profile having an arithmetic average of at least about 500 nm Ra. In some implementations, a coating may be applied to a biomedical implant. Such a coating may comprise a silicon nitride ceramic material, and may be applied instead of, or in addition to, the surface roughening treatment process.

Disclosed are settable bone cements incorporating silicon nitride in various forms as a component, including powders, granules, particulates, portions, layers and/or coatings of solids and/or particulates of silicon nitride and/or components thereof, that may be useful in joint and/or bone replacement implants used in spinal surgeries, dental surgeries and/or other orthopedic and/or general surgical procedures.

A composition and method for chlorine dioxide production through reaction-diffusion chemistry that facilitates the in situ generation of chlorine dioxide, wherein a dry solid composition of hydroxymethanesulfinic acid monosodium salt dihydrate (abbreviated HMS) and a chlorine dioxide precursor are activated via the addition or absorption of water to produce chlorine dioxide. The dry solid chemical composition comprises dry, safe, transportable reagents that integrate with polymeric materials such as packaging and superabsorbent and stimuli-responsive hydrogel polymers to combine with water to produce chlorine dioxide.

The invention is to provide a hydrogen sulfide sustained releasing dressing and a manufacturing method thereof. The hydrogen sulfide sustained releasing dressing includes a hydrocolloid, a surfactant and sodium hydro sulfide. The manufacturing method includes (a) heating and stirring a hydrocolloid material; (b) adding a surfactant and sodium hydrosulfide into the hydrocolloid material; and (c) injecting the hydrocolloid material containing the surfactant and the sodium hydrosulfide into a mold for thermoforming a hydrogen sulfide sustained releasing dressing.

The present invention belongs to the field of medical materials. A nano-oxide/kaolin composite hemostatic antibacterial material includes an iron oxide/kaolin composite carrier, and zinc oxide supported on the surface of the composite carrier. The present invention further provides the preparation and application of the composite hemostatic antibacterial material. Furthermore, the present invention provides a hemostatic healing-promoting dressing including the composite hemostatic antibacterial material disclosed by the present invention. The present invention surprisingly finds from research that the zinc oxide and iron oxide/kaolin composite carrier have a synergistic effect, and further cooperated with a special loading morphology, the synergistic effect of the two is unexpectedly enhanced, the hemostatic property and antibacterial property of the material are effectively improved, and moreover, the rate of wound healing is further improved.

Illumination devices, and illumination systems comprising illumination devices are provided herein. The illumination device can comprise a metal or other substrate, a living hinge, and a set of lighting elements supported by a set of printed circuit boards and connected via a set of cables. The set of lighting elements can be arranged in a rhomboid or hexagonal configuration. The illumination devices can be, for example, wearable, formed as a container, used with a container, or used inside of a body to illuminate a photosynthetic implant or other object.

A porous material suitable for implant is disclosed comprising a large plurality of substantially spherical intercalated hollows in a polymer. The hollows are formed by combining the polymer with a fugitive material under heat and pressure and subsequently removing the fugitive material to reveal the hollows. Intercalation can be increased by subjecting the fugitive material to a coalescing compacting process prior to combining the fugitive material with the polymer. The porous material can be combined with a solid material such as a solid polymer to fabricate complex implantable materials with a variety of features.