Abstract: Disclosed are compositions comprising a minced chorionic matrix, a homogenized amniotic matrix, and a homogenized umbilical cord (UC) matrix, wherein the minced chorionic matrix comprises viable cells, wherein the composition does not comprise trophoblasts. Disclosed are compositions comprising isolated, viable chorionic cells, a homogenized amniotic matrix, and a homogenized UC matrix, wherein the composition does not comprise trophoblasts. Disclosed are compositions comprising a minced chorionic matrix and a homogenized UC matrix, wherein the minced chorionic matrix comprises viable cells, wherein the composition does not comprise trophoblasts or an amniotic matrix. Disclosed are compositions comprising isolated, viable chorionic cells and a homogenized UC matrix, wherein the composition does not comprise trophoblasts or an amniotic matrix.

Abstract: Disclosed are methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are lyophilized tissues prepared using the disclosed methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are methods of treating a wound or tissue defect comprising administering a reconstituted lyophilized tissue to the wound or tissue defect.

Abstract: Disclosed are compositions comprising a non-homogenized chorionic matrix, a homogenized amniotic matrix and a homogenized UC (UC) matrix, wherein the non-homogenized chorionic matrix comprises viable cells. Disclosed are methods of making the compositions disclosed herein comprising preparing a non-homogenized chorionic matrix, preparing a homogenized amniotic matrix, preparing a homogenized UC matrix, and combining the non-homogenized chorionic matrix, the non-homogenized chorionic matrix, and the homogenized UC matrix. Disclosed are methods of treating a tissue injury or chronic pain comprising administering any of the disclosed compositions to an area of a subject comprising a tissue injury.

Abstract: A support assembly for supporting a biological product (e.g., membrane) in an operative position. The support assembly has a base and a cover. A membrane receiving portion of the base defines a plurality of perforations that extend between top and bottom surfaces of the product receiving portion. The cover is releasably coupled to the base in a product-covering position in which the cover overlies the product receiving portion of the base. In the operative position, the biological product engages the top surface of the product receiving portion and the bottom surface of the cover.

Abstract: Disclosed are methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are lyophilized tissues prepared using the disclosed methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are methods of treating a wound or tissue defect comprising administering a reconstituted lyophilized tissue to the wound or tissue defect.

Abstract: Disclosed are compositions comprising a meniscal tissue. For example, disclosed are compositions comprising a meniscal tissue, wherein the meniscal tissue comprises one or more engineered channels. Disclosed are compositions comprising a meniscal tissue comprising viable cells native to the meniscal tissue and devitalized blood vessels. Disclosed are compositions comprising a previously cryopreserved meniscal tissue, wherein after cryopreservation and subsequent thawing the meniscal tissue comprises a) cells native to the meniscal tissue and greater than 30% of the cells are viable, b) extracellular matrix that is native to the meniscal tissue, c) one or more growth factors that are native to the meniscal tissue, and d) depleted amounts of one or more types of functional immunogenic cells. Also disclosed are methods of producing and using these compositions comprising meniscal tissue.

Abstract: A support assembly for supporting a biological product (e.g., membrane) in an operative position. The support assembly has a base and a cover. A membrane receiving portion of the base defines a plurality of perforations that extend between top and bottom surfaces of the product receiving portion. The cover is releasably coupled to the base in a product-covering position in which the cover overlies the product receiving portion of the base. In the operative position, the biological product engages the top surface of the product receiving portion and the bottom surface of the cover.

Abstract: Disclosed are compositions comprising a non-homogenized chorionic matrix, a homogenized amniotic matrix and a homogenized UC (UC) matrix, wherein the non-homogenized chorionic matrix comprises viable cells. Disclosed are methods of making the compositions disclosed herein comprising preparing a non-homogenized chorionic matrix, preparing a homogenized amniotic matrix, preparing a homogenized UC matrix, and combining the non-homogenized chorionic matrix, the non-homogenized chorionic matrix, and the homogenized UC matrix. Disclosed are methods of treating a tissue injury or chronic pain comprising administering any of the disclosed compositions to an area of a subject comprising a tissue injury.

Abstract: A support assembly for supporting a biological product (e.g., membrane) in an operative position. The support assembly has a base and a cover. A membrane receiving portion of the base defines a plurality of perforations that extend between top and bottom surfaces of the product receiving portion. The cover is releasably coupled to the base in a product-covering position in which the cover overlies the product receiving portion of the base. In the operative position, the biological product engages the top surface of the product receiving portion and the bottom surface of the cover.

Abstract: A sealable tray system for sealing a product in a transport-ready position. The sealable tray system has an insert, a first lid, an outer basin, and a second lid. The insert has a well portion with a base surface that extends upwardly to support the product. The insert also has a flange portion that extends outwardly from the well portion and is sealingly engaged by the first lid. The outer basin receives the insert in the transport-ready position, and the second lid engages a top surface of the outer basin. Methods of sealing a product in a transport-ready position are also disclosed.

Abstract: Disclosed are methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are lyophilized tissues prepared using the disclosed methods of lyophilizing a tissue sample comprising obtaining a tissue sample, contacting the tissue sample with a lyoprotectant solution, freezing the tissue sample, performing a first drying step of the tissue sample after freezing, and performing a second drying step of the tissue sample after the first drying step. Disclosed are methods of treating a wound or tissue defect comprising administering a reconstituted lyophilized tissue to the wound or tissue defect.

Abstract: Disclosed are compositions comprising a non-homogenized chorionic matrix, a homogenized amniotic matrix and a homogenized UC (UC) matrix, wherein the non-homogenized chorionic matrix comprises viable cells. Disclosed are methods of making the compositions disclosed herein comprising preparing a non-homogenized chorionic matrix, preparing a homogenized amniotic matrix, preparing a homogenized UC matrix, and combining the non-homogenized chorionic matrix, the non-homogenized chorionic matrix, and the homogenized UC matrix. Disclosed are methods of treating a tissue injury or chronic pain comprising administering any of the disclosed compositions to an area of a subject comprising a tissue injury.

Abstract: Disclosed are compositions comprising a meniscal tissue. For example, disclosed are compositions comprising a meniscal tissue, wherein the meniscal tissue comprises one or more engineered channels. Disclosed are compositions comprising a meniscal tissue comprising viable cells native to the meniscal tissue and devitalized blood vessels. Disclosed are compositions comprising a previously cryopreserved meniscal tissue, wherein after cryopreservation and subsequent thawing the meniscal tissue comprises a) cells native to the meniscal tissue and greater than 30% of the cells are viable, b) extracellular matrix that is native to the meniscal tissue, c) one or more growth factors that are native to the meniscal tissue, and d) depleted amounts of one or more types of functional immunogenic cells. Also disclosed are methods of producing and using these compositions comprising meniscal tissue.

Abstract: A support assembly for supporting a biological product (e.g., membrane) in an operative position. The support assembly has a base and a cover. A membrane receiving portion of the base defines a plurality of perforations that extend between top and bottom surfaces of the product receiving portion. The cover is releasably coupled to the base in a product-covering position in which the cover overlies the product receiving portion of the base. In the operative position, the biological product engages the top surface of the product receiving portion and the bottom surface of the cover.