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

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 μm to 800 μm. 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.

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.

Coated and expanded, nanofiber structures are provided and methods of use thereof.

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, agitating and shearing said suspension in a high shear mixing reactor, adding water to allow particles to agglomerate, allowing the non-aqueous solvent to evaporate, drying and sieving the composition; and thus forming the powdered hemostatic composition.

Disclosed herein are hemostatic materials and methods of production and use thereof.

The present invention relates to a self-assembling polypeptide, such as a spider silk polypeptide, for use as a coating material to form a uniform coating around an implant for the purpose of reducing or preventing capsular fibrosis associated with the use of such an implant in the human body.

The present invention relates to a self-assembling polypeptide, such as a spider silk polypeptide, for use as a coating material to form a uniform coating around an implant for the purpose of reducing or preventing capsular fibrosis associated with the use of such an implant in the human body.

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.

Disclosed are a biosealant system and method for treatment of a pulmonary air leak comprising applying the biosealant system to the locus of the air leak.