The present disclosure is directed to blood dotting compositions comprising platelet microparticles, method of using said compositions, and methods of preparing the same.

The present invention provides processes for combined applications of making grooves on an implant surface, applying MgO nanoparticles with PMMA cement, restricting the cement movement by PCL nanofiber and tethering biomolecules with PCL nanofiber to enhance mechanical stability and osseointegration of PMMA cement with bone. This is achieved through enhanced osteoconductive properties, roughness, and less viable fracture originating sites at the bone-cement interface. Such combined applications of nanoparticle and nanofiber on the mechanical stability and osseointegration of cemented implant is heretofore unknown, but as provided by the present invention can solve the debonding problem of cemented implant from bone.

The present invention is directed to hemostatic compositions comprising at least partially integrated agglomerated ORC fibers, fibrinogen, and thrombin and methods of forming a powdered hemostatic composition, comprising the steps of: forming a suspension of a mixture comprising particles of fibrinogen, thrombin, ORC fibers in a non-aqueous low boiling solvent; spraying the suspension through a nozzle onto a substrate, allowing the non-aqueous solvent to evaporate; separating from the substrate and sieving the composition.

The present invention relates to a self-assembling polypeptide, such as a silk polypeptide including a spider silk polypeptide, for use as tissue adhesive. The present invention also relates to the use of a self-assembling polypeptide such as a silk polypeptide as tissue adhesive. Further, the invention is directed to the use of a self-assembling polypeptide such as a silk polypeptide to glue one or more cosmetic compounds on skin, mucosa, and/or hair. Furthermore, the invention is directed to a self-assembling polypeptide such as a silk polypeptide for use in gluing one or more pharmaceutical compounds on tissue, skin, mucosa, and/or hair.

A cell tissue gel, comprising one or more matrix molecules cross-linked with a cross-linking agent, and a quenching agent bound to a reactive group of the cross-linking agent, wherein the quenching agent contains a moiety that is capable of reacting with the reactive group of the cross-linking agent and the one or more matrix molecules contain one or more functional groups that are capable of cross-linking with the reactive group, the amount of the reactive group of the cross-linking agent being equal to or less than a total amount including the amount of the one or more functional groups and the amount of the moiety.

The present invention provides polypeptides comprising or consisting of an amino acid sequence derived from collagen type VI or a fragment, variant, fusion or derivative thereof, or a fusion of said fragment, variant of derivative thereof, wherein the polypeptide, fragment, variant, fusion or derivative is capable of killing or attenuating the growth of microorganisms. Related aspects of the invention provide corresponding isolated nucleic acid molecules, vectors and host cells for making the same. Additionally provided are pharmaceutical compositions comprising a polypeptide of the invention, as well as methods of use of the same in the treatment and/or prevention of microbial infections and in wound care. Also provided are a method of killing microorganisms in vitro and a medical device associated with the pharmaceutical composition.

Methods and materials are provided herein that can be used to separate healthy organs and/or tissues from organs and/or tissues to be subjected to, for example, heat or cold (e.g., during ablation procedures). Methods and materials also are provided herein that can be used to embolize blood vessels.

Bioadhesives and crosslinked gels therefrom are disclosed. The bioadhesives can be applied to a vessel for occluding the vessel. The present disclosure also describes kits that comprise the various components for preparing and applying the bioadhesives. Bioadhesives of the present disclosure include: (i) a biopolymer having one or more first chemically reactive amine groups; (ii) a biocompatible crosslinker having at least two second chemically reactive groups that can chemically react with the one or more first chemically reactive amine groups of the biopolymer; and (iii) a biocompatible rheological modifier.

A method of reinforcing or repairing a bioprosthetic tissue for use as a prosthetic valve leaflet. The method includes evaluating a bioprosthetic tissue, identifying a defect in the bioprosthetic tissue, and selectively applying an adhesive to a surface of the bioprosthetic tissue at the defect prior to implantation in a patient.

Provided are a recombinant polypeptide in which a small leucine-rich proteoglycan mimetic sequence is attached to a terminal of a mussel adhesive protein, a composition for wound healing including the same, a bioadhesive material, and a preparation method thereof. According to the present disclosure, the recombinant polypeptide in which the small leucine-rich proteoglycan mimetic sequence is attached to the terminal of the mussel adhesive protein has an excellent epidermal regeneration effect in which the wound site is uniformly restored by promoting rapid wound healing at the wound site when being applied to the wound site and inducing formation of collagens which are arranged and concentrated at the wound site, and thus can be usefully used as various drugs, cosmetics, and quasi-drugs.