A method of detecting the presence or absence of a sealant applied to a textile graft includes the steps of: providing a textile graft having a first surface and an opposed second surface; providing a water soluble masking agent; applying the water soluble masking agent to at least a portion of the first surface of the textile graft; providing a sealant solution; providing a visual indicator; applying the water insoluble sealing agent and the visual indicator to the second surface of the textile graft; and removing the water soluble masking agent after the step of applying sealing solution. The second surface has visual indication of the visual indicator and the first surface is substantially free of visual indication of the visual indicator. An implantable textile graft includes the selectively applied visual indicator.

The present disclosure relates to compressed bone compositions, bone implants, and variants thereof. The present disclosure also relates to methods of preparing compressed bone compositions, bone implants, and variants thereof. The present disclosure also relates to methods of using the bone compositions, bone implants and variants thereof.

An implantable medical device is provided. The device comprises a drug release layer, wherein the drug release layer comprises a naked nucleic acid dispersed within a polymer matrix. The polymer matrix includes an ethylene vinyl acetate copolymer and has a melting temperature of from about 20° C. to about 100° C. as determined in accordance with ASTM D3418-15 and a melt flow index of from about 0.2 to about 100 gram per 10 minutes as determined in accordance with ASTM D1238-20 at a temperature of 190° C. and a load of 2.16 kilograms.

An improved composition for a thermoplastic elastomer that is used in a product that touches the skin. The thermoplastic elastomer contains a styrene block copolymer, a plasticizing oil, and CBD oil. The plasticizing oil and the CBD oil, in combination, comprise at least eighty percent of the thermoplastic elastomer by weight. The plasticizing oil and the CBD oil have the same, or similar, molecular weights. In that manner, the plasticizing oil and the CBD oil can form a homogenous mixture. The CBD oil saturates the thermoplastic elastomer and will slowly bloom out of the thermoplastic elastomer over time. The migration of the CBD oil brings the CBD oil to the exposed surfaces of the thermoplastic elastomer, therein enabling the CBD oil to be absorbed by the skin.

The present disclosure relates to compressed bone compositions, bone implants, and variants thereof. The present disclosure also relates to methods of preparing compressed bone compositions, bone implants, and variants thereof. The present disclosure also relates to methods of using the bone compositions, bone implants and variants thereof.

Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.

Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.

The present technology relates to polymer implants. In some embodiments, the polymer implant may have a volume having minimum cross-sectional dimension of 400 μm. The polymer implant may be configured to be implanted within a mammalian body for at least 3 days without undergoing core acidification.

Soft tissue grafts, packaged soft tissue grafts, and methods of making and using soft tissue grafts are disclosed. One soft tissue graft includes processed tissue material having first and second opposed surfaces. The first and second opposed surfaces are bounded by first and second edges. The first edge has a concave shape that curves toward the second edge. The second edge has a convex shape that curves away from the first edge. The first surface comprises a plurality of apertures. At least one of the apertures is formed from a multi-directional separation in the first surface. One method of making a soft tissue graft includes positioning a cutting die on a surface of tissue material, pressing the cutting die into the tissue material to cut the tissue material, and processing the cut tissue material to create processed tissue material.

Biodegradable antimicrobial films are provided that are solid at room temperature and substantially liquefy in situ after implantation into a mammal, such as a human patient. Methods of using the films to cover a medical device, such as a breast implant, prior to insertion into a subject are also provided.