This invention relates to novel scar management products and methods of reducing dermal scars resulting from various types of dermal injuries while simultaneously reducing pruritis. Particularly, this invention relates to scar management products, each of which incorporate an antipruritic agent, that reduce and/or prevent dermal scarring and pruritis.

Embodiments relate to a crosslinked citrate-based elastomer catheter that is biodegradable and kink resistant. Embodiments of the crosslinked citrate-based elastomer material swells when surrounded by fluid (body fluid) so as to anchor the catheter to tissue but not anchor it so much that movement or removal will cause tissue damage. The catheter can be used as a component to a peripheral nerve block device, for example. Embodiments of the catheter can include embedding biodegradable sensors, moieties, shape memory material, etc. to monitor and modulate functions of the catheter and/or peripheral nerve block.

This invention relates to a bone regeneration product comprising at least one stem cell, at least one scaffold, and at least one stem cell. The stem cells suitable for this invention may comprise stem cells suitable for a dense bone regeneration, stem cells suitable for a spongy bone regeneration, or a combination thereof. The bone regeneration product may further comprise a growth factor. This invention also relates to a bone regeneration method and treatment of any bone that has a critical size defect. This invention also relates to a scaffold. This invention further relates to a 3D printed scaffold comprising hydroxyapatite (HA) and tricalcium phosphate (TCP). This invention also relates to a scaffold comprising a polymer. The polymer of this invention may be prepared by using photocurable polymers and/or monomers. The scaffold of this invention may comprise a growth factor and a small molecule. The small molecule N may be a Smurf1 inhibitor.

The invention is directed to a biological bandage derived from fish skin (e.g. tilapia skin) that can be used with healing of wounds such as burn wounds. The edible property of the fish skin biological bandage according to various embodiments makes it suitable for both human and veterinary medicine.

It is provided a composition comprising phytic acid or a pharmaceutically acceptable salt thereof, for use in reducing or preventing microorganisms' proliferation and/or encrustations caused by a urinary tract device implanted in a subject, thereby preventing or treating clinical complications related to microorganisms' proliferation and/or encrustations. The composition can further comprise a urine acidifier such as methionine, a crystallization inhibitor such as theobromine and/or other agents.

A method of promoting wound healing in a patient, the method comprising applying on a wound a biodegradable amino-acid based polymer.

A surgical device includes a substrate and a first coating that covers at least a portion of the substrate. The first coating includes a first polymer. The first coating having antibiotics dispersed in the first polymer such that the first polymer releases the antibiotics as the first polymer degrades. A second coating covers at least a portion of the first coating. The second coating includes a second polymer. The second polymer includes an alginate. The second coating has a hemostatic agent dispersed in the second polymer such that the second polymer releases the hemostatic agent as the second polymer degrades. The hemostatic agent is selected from epinephrine, tranexamic acid, chitosan and oxidized regenerated cellulose. In some embodiments, systems and methods are disclosed.

The present invention provides thin-film forming compositions comprising an antiseptic (e.g., povidone iodine, chlorhexidine, or octenidine), a non-aqueous solvent, and a film-forming material dissolved in the non-aqueous solvent, wherein the composition yields a continuous and flexible protective film upon substantial removal of the solvent. The compositions are useful for the treatment and prevention of infections in wounds, ulcers (e.g., decubitus ulcers and stasis ulcers), cuts, or burns, or against infections from bacterial, mycobacterial, viral, fungal, or amoeba causes, as well as for prevention of such infections in appropriate clinical settings (e.g., as liquid bandages or dressings). Additionally, the compositions of this invention are also useful for the treatment of infections and as a disinfectant skin preparation for pre- and/or post-surgical operations.

Disclosed are adjustable intraocular lenses and methods of adjusting intraocular lenses post-operatively. In one embodiment, an adjustable intraocular lens can comprise an optic portion and a peripheral portion. The peripheral portion can comprise a composite material comprising an energy absorbing constituent and a plurality of expandable components. A base power of the optic portion can be configured to change in response to an external energy directed at the composite material.

Homogenous octenidine solutions and compositions are described. Also described are medical articles (e.g., incise drapes) including octenidine formulations and methods for preparing the same.