The present invention relates to the use of cyclin-dependent kinase 9 (CDK9) inhibitors to reduce, inhibit and/or prevent cartilage degradation. CDK9 inhibitors can be used to reduce, inhibit and/or prevent cartilage degradation and loss of cartilage viability during allograft storage. CDK9 inhibitors can be used as a post-injury intervention treatment to reduce, inhibit and/or prevent the acute cellular responses that lead to future cartilage degradation and osteoarthritis.

Disclosed are compositions and methods for the preservation, storage, and transport of living biological tissues, organs, and populations of isolated cells. In particular, the disclosed compositions and processes permit mammalian cells, tissues, and organs to be harvested from suitable donor animals, stored for prolonged periods, and transported to the site of recipient implantation, all without significant loss of cell viability, biological activity, and/or tissue integrity.

A repaired ex vivo organ suitable for transplantation in a human, said repaired ex vivo organ having undergone ex vivo organ perfusion for a maintenance period, wherein said organ had been assessed as being unsuitable for transplantation into a human before the maintenance period and was determined to be suitable for transplantation after the maintenance period.

The invention is directed to methods of modulating ischemic injury in tissues and organs, including donor tissue and organs and intact tissue and organs. The invention is further directed to methods of increasing time to ischemic injury in such tissues and organs. The invention is further directed to storing and preserving donor tissues and organs. Such methods utilize compositions comprising Amnion-derived Cellular Cytokine Solution (herein referred to as ACCS). The ACCS compositions may be formulated for sustained-release, targeted-release, timed-release, extended-release, etc. and may be used alone or in combination with various suitable active agents.

The present disclosure provides methods and compositions for treating tissue to preserve and/or rescue tissue from ischemic and/or reperfusion injury and methods for assessing ischemic and/or injuries in cardiac tissue. The disclosed compositions comprise at least a portion of mesenchymal stem cell-conditioned medium.

Disclosed is a lamellar cornea preservation solution, comprising the following components: 200-500 g/L of glycerol, 5-50 g/L of hyaluronic acid, 10-25 g/L chondroitin sulfate, 1-10 g/L of an antioxidant, and 10-40 mmol/L of a buffer salt solution, the pH value being 6.0-8.0. The present disclosure is suitable for the preservation of lamellar cornea materials, maintains the original collagen fiber structure and the transparency of a cornea, and prevents the collagen fibers of the cornea from being damaged due to irradiation sterilization treatments.

This invention discloses a preserving agent for organs or tissue comprising (A) quercetin, and (B) at least one sugar selected from the group consisting of fructose and sucrose; a preserving solution for organs or tissue comprising the preserving agent; and a preservation method for organs or tissue comprising the step of immersing an organ or tissue in a liquid mixture comprising (A) quercetin, and (B) at least one sugar selected from the group consisting of fructose and sucrose.

A fresh tissue allograft having at least one tissue portion maintained above a predetermined temperature to reduce the rate of cell death. A storage media having at least one free-radical scavenger is applied to the allograft to further slow the rate of cell death.

Compositions and methods for preserving organs, maintaining organ viability and inhibiting ischemia-reperfusion injury and the like are disclosed.

A repaired ex vivo organ suitable for transplantation in a human, said repaired ex vivo organ having undergone ex vivo organ perfusion for a maintenance period, wherein said organ had been assessed as being unsuitable for transplantation into a human before the maintenance period and was determined to be suitable for transplantation after the maintenance period.