A bioactive filamentary structure includes a sheath coated with a mixture of synthetic bone graft particles and a polymer solution forming a scaffold structure. In forming such a structure, synthetic bone graft particles and a polymer solution are applied around a filamentary structure. A polymer is precipitated from the polymer solution such that the synthetic bone graft particles and the polymer coat the filamentary structure and the polymer is adhered to the synthetic bone graft particles to retain the graft particles.

This invention is directed to a multi-layered tissue graft comprising a collagen layer and at least one separated and washed placental tissue component and/or umbilical cord component, wherein the collagen is human collagen substantially free of non-human antigens.

The present disclosure provides tissue products produced from extracellular tissue matrices. The tissue products can include acellular extracellular matrices including combinations of different tissue types. The combination can harness various properties of the different tissues to provide improved composite structures with desired mechanical and/or biologic properties.

A system for deploying an implant cut from a biological tissue into an eye of a patient including a delivery device and a nose cone assembly, a tubular shaft projecting from the distal end region of the nose cone and comprising a lumen. Related devices, systems, and methods are provided.

Improved allografts having controlled and consistent properties and useful for soft tissue repair, including breast reconstruction, and other surgical procedures, are disclosed. In one embodiment, an improved acellular dermal matrix (ADM) is produced from a skin sample, where the ADM consists essentially of a single dermal tissue type (e.g., papillary or reticular) and comprises a collagen matrix having substantially uniform density and porosity. In another embodiment, two ADMs are produced from the same dermal tissue type (e.g., papillary or reticular) of the same skin sample, each of which consists essentially of reticular dermis, and comprises a collagen matrix having substantially uniform density and porosity. All such improved ADMs are suitable for use in breast reconstruction and other tissue repair and modification surgery procedures.

The present invention provides a birth tissue derived implant for treating a subject. The birth tissue derived implant comprises a birth tissue and an agent exogenous to the birth tissue. The birth tissue is isolated from an amniotic sac, an umbilical cord or a placental plate. A method is also provided for repairing a defective tissue in a subject. The repair method comprises delivering the birth tissue derived implant to a surface of the defective tissue in the subject. The defective tissue may be an ocular membrane, a synovium, tendon, ligament, nerve, a cartilage or a bone. A method is further provided for preparing the birth tissue derived implant. The preparation method may comprise devitalizing or decellularizing a birth tissue from an amniotic sac, an umbilical cord or a placental plate, and adding an agent to the devitalized or decellularized birth tissue.

An acellular product may be derived from human placenta and may be used in various scenarios for wound healing. Because the product may be acellular, the product may be processed for storage and transportation with minimal degradation. The product may include various scaffolding such as biomaterials or human tissue, and the scaffolding may be infused with various plasmas and agents. The cell-free treatment may maintain the biological activity of many therapeutic agents found within cells and may possess multiple structural components to support cellular attachment. The structural components or scaffolds may function as a reservoir of highly diffusible chemotactic and cellular-programming factors that may be useful to treat injury and disease.