Tissue processing techniques are described involving association of tissue with a form under pressure to more precisely adapt the crosslinked tissue to the form. Pressure can be applied through holding of the issue on a porous form with suction on the form maintain tight adherence of the tissue on the form. In some embodiments, the tissue on the form is placed with the crosslinking solution in a bag that is then vacuum sealed to have the evacuated bag hold the tissue on the form. Whether or not the tissue is crosslinked on a form, glutaraldehyde can be used for crosslinking in a substantially unpolymerized state to achieve distinct crosslinked tissue properties.

Compositions comprising unseparated amnion/chorion derived from the placenta and methods of preparing and using those compositions are provided. Washing or preservation of placental tissue according to the methods of the disclosure may allow for one or more benefits such as more efficient removal of blood remnants, retention of wound healing and tissue regeneration components, better handling characteristics, increased absorption potential, or improved healing capacity. The present invention also includes methods of healing a wound of the skin, eye, nerve, tendon, or dura comprising applying the compositions of the invention to the wound.

A scaffold-free nerve conduit and a method of making the scaffold-free nerve conduit are provided. A nerve-repair method using the scaffold-free nerve conduit also is provided.

A system and method for tissue fabrication involves the use of charge manipulation between two biomaterials to generate a shrinking response, which effectively enhances the resolution of bioprinted hydrogels. The charge manipulation can be utilized to generate tissue engineered thin, membranous tissues, such as the periosteum, which is approximately one hundred microns in thickness. Thin membranous tissues in the body also have relatively complex anatomies containing multiple cell populations, and no prior strategies allow for the effective and biomimetic generation of these tissues, which can have significant impact on tissue regeneration.

A bone gel composition consists of cortical bone. The cortical bone is made from cut pieces freeze-dried then ground into particles and demineralized then freeze-dried. A volume of the particles is placed in a solution of sterile water to create a mixture, the water volume being at least twice the particle volume, the mixture is autoclaved under heat and pressure to form a gelatin, the resulting bone gel is formed into sheets having a thickness (t).

There is disclosed an acellular dermal matrix (ADM) graft stored as a packaged ADM graft pocket product prepared by a process that includes providing a portion of ADM tissue having a thickness between 1 mm and 2 mm. The process includes scoring the portion of the ADM tissue into a pre-defined shape to form the domed shape ADM graft. The process includes verifying the thickness of the domed shape ADM graft; shaping the domed shape ADM graft to form an ADM graft pocket configured to receive a breast implant. The process includes packaging the ADM graft pocket to form a packaged ADM graft pocket. The process includes irradiating the packaged ADM graft pocket to a sterility assurance level of a desired level to form the packaged ADM graft pocket product. Other embodiments are also disclosed.

Soft tissue repair grafts are provided for supporting, covering, and/or retaining an implant positioned in the body of a subject. The grafts are particularly suitable for use for pre-pectoral breast reconstruction with a breast implant or tissue expander. The grafts include positional notches for more accurate positioning in a subject. The grafts also include at least one cuff element which is folded to form a reinforced folded edge for suturing the graft more securely to adjacent tissues than previously known grafts. The grafts also include a plurality of arcuate slots which form a plurality of circular patterns arranged concentrically about a focal point, thereby enabling the grafts to expand without tearing and to conform more closely to the implant and/or adjacent body tissues such as the breast pocket, than previously known grafts. Acellular dermal matrices are particularly suitable for making the soft tissue repair grafts.

A method for preparing placenta membrane tissue grafts for medical use, includes obtaining a placenta from a subject, cleaning the placenta, separating the chorion tissue from the amniotic membrane, mounting a selected layer of either the chorion tissue or the amniotic membrane onto a drying fixture, dehydrating the selected layer on the drying fixture, and cutting the selected layer into a plurality of tissue grafts. Preferably, the drying fixture includes grooves or raised edges that define the outer contours of each desired tissue graft, after they are cut, and further includes raised or indented logos that emboss the middle area of the tissue grafts during dehydration and that enables an end user to distinguish the top from the bottom side of the graft. The grafts are comprised of single layers of amnion or chorion, multiple layers of amnion or chorion, or multiple layers of a combination of amnion and chorion.

Soft tissue grafts, packaged soft tissue grafts, and methods of making and using soft tissue grafts are disclosed. One soft tissue graft includes processed tissue material having first and second opposed surfaces. The first and second opposed surfaces are bounded by first and second edges. The first edge has a concave shape that curves toward the second edge. The second edge has a convex shape that curves away from the first edge. The first surface comprises a plurality of apertures. At least one of the apertures is formed from a multi-directional separation in the first surface. One method of making a soft tissue graft includes positioning a cutting die on a surface of tissue material, pressing the cutting die into the tissue material to cut the tissue material, and processing the cut tissue material to create processed tissue material.

The present disclosure provides methods for producing bioengineered tissue along with an apparatus and other relevant compositions employed in generation thereof.