This invention includes malleable, biodegradable, fibrous compositions for application to a tissue site in order to promote or facilitate new tissue growth. One aspect of this invention is a fibrous component that provides unique mechanical and physical properties. The invention may be created by providing a vessel containing a slurry, said slurry comprising a plurality of natural or synthetic polymer fibers and at least one suspension fluid, wherein the polymer fibers are substantially evenly dispersed and randomly oriented throughout the volume of the suspension fluid; applying a force, e.g., centrifugal, to said vessel containing said slurry, whereupon said force serves to cause said polymer fibers to migrate through the suspension fluid and amass at a furthest extent of the vessel, forming a polymer material, with said polymer material comprising polymer fibers of sufficient length and sufficiently viscous, interlaced, or interlocked to retard dissociation of said polymer fibers.

The present disclosure features adhesive compositions and methods of use thereof related to the medical, veterinary, and dental fields.

The present invention provides novel therapeutic products which are used for treating chronic non healing wounds. The present invention is related to novel therapeutic products generated from peripheral blood mononuclear cells. The present invention also provides a process of preparing the therapeutic products, an aqueous suspension for Injection, gel and patch generated from peripheral blood cells in vitro having wound healing properties.

A new preparation for regenerating tissues or healing wounds, which can be administered to a patient, which comprises serum and globin being insoluble at physiological pH, said preparation being obtained by adding said serum to said globin being insoluble at physiological pH.

An osteogenic composition suitable for use in bone and soft tissue reparative procedures is provided for herein. Methods for preparing osteogenic composition from blood and bone marrow are also provided for. The osteogenic compositions contain therapeutically effective concentrations of one or more osteogenic agents such as BMP-2, TGF-, PDGF and VEGF.

The present invention provides a method of bone regeneration for repairing a bone defect in a subject in need thereof. The method comprises the use of blood aspirate of the mandible bone marrow with the use of xenogen bone support.

An osteogenic composition suitable for use in bone and soft tissue reparative procedures is provided for herein. Methods for preparing osteogenic composition from blood and bone marrow are also provided for. The osteogenic compositions contain therapeutically effective concentrations of one or more osteogenic agents such as BMP-2, TGF-, PDGF and VEGF.

This invention includes malleable, biodegradable, fibrous compositions for application to a tissue site in order to promote or facilitate new tissue growth. One aspect of this invention is a fibrous component that provides unique mechanical and physical properties. The invention may be created by providing a vessel containing a slurry, said slurry comprising a plurality of natural or synthetic polymer fibers and at least one suspension fluid, wherein the polymer fibers are substantially evenly dispersed and randomly oriented throughout the volume of the suspension fluid; applying a force, e.g., centrifugal, to said vessel containing said slurry, whereupon said force serves to cause said polymer fibers to migrate through the suspension fluid and amass at a furthest extent of the vessel, forming a polymer material, with said polymer material comprising polymer fibers of sufficient length and sufficiently viscous, interlaced, or interlocked to retard dissociation of said polymer fibers.

The present disclosure relates to a blood derivatives based nanocomposite materials incorporating comprising oxidized cellulose nanocrystals, methods for their production, and uses thereof. Also disclosed herein is a method for the production of oxidized cellulose nanocrystals with gradients of sulfation degree and their use to modulate the affinity of protein content of blood derivatives/cellulose nanocrystals nanocomposite materials. Therefore, the present disclosure is useful use in regenerative medicine and/or tissue engineering.

A medical implant packaging assembly having an outer tray, an inner tray and a retainer The implant may include a tissue graft. The inner tray is formed from a moisture barrier material whereby the implant may be maintained in a hydrated state, thereby avoiding need for rehydrating steps that are required for dehydrated or cryopreserved implants. The outer tray and inner tray and a retainer are also made of transparent materials, enabling medical personnel to view the implant through these packaging components prior to and during surgery.