The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the tissue-active monomers, including monomers comprising macromolecules, provide abroad set of material choices for synthetic tissue barriers. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

An earpiece includes an earbud that supports at least one electrode, and an ear tip that includes a hydrogel. The ear tip is configured to be coupled to the earbud such that the hydrogel overlies the at least one electrode and such that the hydrogel is disposed between the at least one electrode and the user's skin when the earpiece is worn.

The present disclosure provides technology that can ensure excellent visibility when introducing an embolization agent and that reduces the visibility of said agent after introduction. Provided is an embolization agent having a hydrogel which contains a visualizing agent, and a reaction product of an ethylenically unsaturated monomer, a crosslinking agent, and, as necessary, a bifunctional monomer, where the swelling ratio of the embolization agent is 5-300 times, and the post-swelling CT number of the embolization agent is 50-300 HU and falls below the pre-swelling CT number of the embolization agent.

A method of producing embolic particles includes forming a master batch of embolic particles, wherein the master batch of particles includes a plurality of negatively charged loading sites. The method also includes modifying the master batch of particles to form an activated batch of particles by reacting the master patch of particles with a bridging agent. The activated batch of particles includes a plurality of activated loading sites configured to bond to a negatively charged drug.

A method of producing a medical device having a substrate and a hydrophilic polymer layer, including the steps of: pretreating the substrate by placing the substrate in an alkali solution and heating the substrate at a temperature ranging from 50° C. to 100° C.; and heating a solution containing the pretreated substrate, a hydrophilic polymer having an acidic group and a hydroxyalkyl group, and an organic acid at a temperature ranging from 50° C. to 100° C. Provided is a simple method of producing a medical device imparted with hydrophilicity excellent in durability.

The purpose of the present invention is to provide an adhesion prevention material capable of exhibiting excellent adhesion preventive effect. This adhesion prevention material concurrently uses: (A) a peptide (A-1) having an amino acid sequence-(X-Pro-Y)n-[wherein X represents an arbitrary defined amino acid, Pro represents proline, Y represents hydroxyproline or proline, and n is an integer between 1 and 10] and/or a peptide (A-2) having an amino acid sequence-(Pro-Y)m-[wherein Pro represents proline, Y represents hydroxyproline or proline, and m is an integer between 1-10]; and (B) a gelatin gel. This adhesion prevention material exhibits a dramatically enhanced adhesion preventive effect as compared with the case where the abovementioned components are used individually, and in particular, has a markedly superior effect against adhesion of tendons.

A hydrogel-based biological delivery vehicle used to effectively deliver drug and biological material to tissue or organ sites. More specifically, a hydrogel binding matrix having a biopolymer backbone containing carboxyl groups. Tyramine may be substituted for at least a portion of the carboxyl groups, so that, when hydrogen peroxide is added, it causes creation of covalent bonds between tyramine molecules and cross-links the hydrogel binding matrix, thereby enabling the hydrogel binding matrix to transition from liquid to gel state. The hydrogel binding matrix, in its liquid form, is capable of encapsulating drug reservoirs to create a homogenous liquid with evenly distributed particles containing drugs or target molecules. As the hydrogel binding matrix solidifies into a gel state, the newly created cross-links do not disrupt or react with the drugs or target molecules contained within the drug reservoirs. This hydrogel-based biological delivery vehicle can be used in several medical applications.

An anti-bacterial coating composition for use with a medical implant is disclosed. The anti-bacterial coating composition includes a bacteriophage cocktail that is encapsulated in beads that are embedded within a hydrogel. Also disclosed are kits containing the anti-bacterial coating composition as well as methods of producing and using the coating composition.

A hydrogel-based biological delivery vehicle used to effectively deliver drug and biological material to tissue or organ sites. More specifically, a hydrogel binding matrix having a biopolymer backbone containing carboxyl groups. Tyramine may be substituted for at least a portion of the carboxyl groups, so that, when hydrogen peroxide is added, it causes creation of covalent bonds between tyramine molecules and cross-links the hydrogel binding matrix, thereby enabling the hydrogel binding matrix to transition from liquid to gel state. The hydrogel binding matrix, in its liquid form, is capable of encapsulating drug reservoirs to create a homogenous liquid with evenly distributed particles containing drugs or target molecules. As the hydrogel binding matrix solidifies into a gel state, the newly created cross-links do not disrupt or react with the drugs or target molecules contained within the drug reservoirs. This hydrogel-based biological delivery vehicle can be used in several medical applications.

The present invention relates to peptides capable of forming a gel and to their use in tissue engineering and bioprinting. The present invention furthermore relates to a gel comprising a peptide in accordance with the present invention, to a method of preparing such gel and to the use of such gel. In one embodiment, such gel is a hydrogel. The present invention furthermore relates to a wound dressing or wound healing agent comprising a gel according to the present invention and to a surgical implant or stent comprising a peptide scaffold formed by a gel according to the present invention. Moreover, the present invention also relates to a pharmaceutical and/or cosmetic composition, to a biomedical device or an electronic device comprising the peptide according to the present invention.