Embodiments of the disclosure may include a pressure sensitive hydrogel composition. The composition may include a liquid solvent, a polymer, and an acid gas. The composition may be capable of having a fluid phase in which the acid gas is dissolved in the solvent and the polymer is dissolved in the solvent, and the composition may be capable of having a gel phase in which the acid gas is not dissolved in the liquid solvent and the polymer is precipitated out of the solvent. The composition may also include a chemical compound or a pharmaceutical agent that can be released after the composition is delivered to a target tissue region.

This invention relates to protein-based adhesives that are capable to adhere to a substrate in a dry, wet, moist, or an aqueous environment. Particularly, said adhesives comprise a crosslinking agent and an elastin-like polypeptide (ELP) that contain tyrosine, lysine, cysteine, dihydroxyphenylalanine (DOPA) or trihydroxyphenylalanine (TOPA) amino acid residue, or a combination thereof, on the polypeptide chain of said ELP. Among others, the adhesives disclosed herein may find broad applications in medical treatments and surgical operations. Compositions and methods of use are within the scope of this application.

A method of hemostasis includes the step of applying a hemostatic agent to an affected site of a subject, the hemostatic agent consisting of a first agent comprising a gelatin derivative having a hydrophobic group bonded to the gelatin via an imino group, wherein the gelatin derivative has (a) a weight average molecular weight of from 10,000 to 50,000, (b) the hydrophobic group, which is an alkyl group having 6 to 18 carbon atoms; and (c) a molar ratio of imino group/amino group of the gelatin derivative ranging from 1/99 to 30/70; and a second agent including a crosslinking agent for the gelatin derivative.

A method of hemostasis includes the step of applying a hemostatic agent to an affected site of a subject, the hemostatic agent consisting of a first agent comprising a gelatin derivative having a hydrophobic group bonded to the gelatin via an imino group, wherein the gelatin derivative has (a) a weight average molecular weight of from 10,000 to 50,000, (b) the hydrophobic group, which is an alkyl group having 6 to 18 carbon atoms; and (c) a molar ratio of imino group/amino group of the gelatin derivative ranging from 1/99 to 30/70; and a second agent including a crosslinking agent for the gelatin derivative.

Implantable bone compositions are provided. The implantable compositions comprise hydratable bone putties. The hydratable bone putties comprise porous ceramic granules having an average diameter from about 50 m to 800 m. The porous ceramic granules comprise hydroxyapatite and beta-tricalcium phosphate. The implantable bone compositions further include collagen carriers. In some embodiments, the hydratable bone putty can be hydrated to form a non-settable flowable cohesive cement or gel. Methods of making and using the implantable compositions are also provided.

Methods and materials for treating a cerebrospinal fluid leakage are described herein. One method for treating cerebrospinal fluid leakage includes occluding cerebrospinal fluid leakage by administering an effective amount of a self-assembling peptide solution to a target area of a cerebrospinal fluid leakage, where the self-assembling peptide is between 7 amino acids and 32 amino acids in length and the self-assembling peptide solution forms a hydrogel under physiological conditions.

The present invention relates to new plasma or new platelet-rich plasma preparations, new cell dissociation methods, new cell associations or compositions, a method of preparation thereof, a use thereof, devices for the preparation thereof and preparations containing such a platelet-rich plasma preparation and cell associations or compositions. Specifically, the invention provides plasma or platelet-rich plasma alone or in cell composition preparations for use in tissue regeneration and bone regeneration and pain reduction.

The present invention provides tissue sealant compositions and vasculature closure devices useful for the optical detection of tissue seal and/or clot formation. Compositions and devices of the present invention comprise optical dyes which undergo an observable change as the compositions and/or devices are incorporated into a tissue seal and/or clot, for example a change in fluorescence quantum yield and/or a change in visual color including a change in emission and/or absorption wavelength. Tissue sealants and vasculature closure devices of the present invention are useful for visualizing seal and/or clot formation, for example, during or after surgical procedures, after catheter removal, etc. The present invention further provides methods for formation and optical detection of tissue seals or vasculature puncture closures as well as medical kits useful for the formation and optical detection of tissue seals or vasculature puncture closures.

The present invention relates to new plasma or new platelet-rich plasma preparations, new cell dissociation methods, new cell associations or compositions, a method of preparation thereof, a use thereof, devices for the preparation thereof and preparations containing such a platelet-rich plasma preparation and cell associations or compositions. Specifically, the invention provides plasma or platelet-rich plasma alone or in cell composition preparations for use in tissue regeneration and bone regeneration and pain reduction.

The present invention is concerned with a photosynthetic scaffold that delivers oxygen and its uses for tissue engineering and the treatment of ischemia.