A method of modulating transdifferentiation of chondrocytes to osteoblast includes administering to the chondrocytes an agent that modulates GP130 receptor signaling and expression of at least one of Sox2, Oct4, or Nanog of the chondrocytes.

The current invention relates to a composition for parenteral administration comprising a canine plasma and hyaluronic acid or a salt or ester thereof, wherein said plasma comprises lipids and/or phospholipids. The inventions also relates to a kit comprising one or more aliquots of a composition, said composition comprising a canine plasma comprising lipids and/or phospholipids and hyaluronic acid or a derivative thereof and optionally one or more pharmaceutical active ingredients, wherein said kit further comprises one or more aliquots of a calcium source, preferably a calcium chloride solution. The invention also pertains to the composition and kit of current invention for use in the treatment of musculoskeletal diseases.

A bone pore or void filling composition is described. The composition includes a mixture of: a type I collagen and/or a type I collagen-glycosaminoglycan coprecipitate; a blend of polyethylene glycol polymers having different molecular weights; a bone growth stimulator; and bioactive glass. A kit for containing the bone pore or void filling composition, and methods for using the composition to fill a bone pore or void are also described.

An in-situ fusion system includes at least one robotic arm; a bioprinter; a polymerization tool; at least one processor; and a memory storing instructions for execution by the at least one processor. The instructions, when executed, cause the at least one processor to: control the at least one robotic arm to prepare at least two bone surfaces to support cellular growth; cause the bioprinter to print, from a scaffold material, a scaffold between the at least two bone surfaces; and cause the polymerization tool to induce the scaffold material to polymerize.

The disclosure provides implants containing a plurality of particles containing at least one population of viable cells adherent to and resident in soft tissue matrix or at least one viable population of cells caused to be in contact with the soft tissue matrix; methods of fabricating the implants; and use of the implants in tissue repair.

The disclosure provides implants containing a plurality of particles containing at least one population of viable cells adherent to and resident in soft tissue matrix or at least one viable population of cells caused to be in contact with the soft tissue matrix; methods of fabricating the implants; and use of the implants in tissue repair.

The present invention concerns a biomaterial comprising a scaffold containing a mineral component, wherein said mineral component comprises at least one calcium phosphate compound, and wherein said scaffold has a surface coated with an interrupted coating made of multilayered droplets, said multilayered droplets being droplets composed of at least one layer pair consisting of a layer of polyanions and a layer of polycations.

The present invention describes in vitro methods for producing a cellular composition with in vivo bone forming potential.

The present disclosure provides a method for obtaining osteoblast cell-mixture which can be used for transplantation of osteoblast cells in a subject. The present disclosure further discloses a method for delivering osteoblast cells into a subject. The method for obtaining osteoblast cell-mixture as disclosed herein is devoid of any additives like calcium chloride and aprotinin. The method for delivering osteoblast cells as disclosed herein provides bone regeneration in the subject.

Allograft biomaterials, implants made therefrom, methods of making the biomaterial and implants, methods of promoting cartilage, tissue, bone or wound healing in a mammal by administering the biomaterial or implant to the mammal, and kits that include such biomaterials, implants, or components thereof. For example, the allograft may include viable cells, for example, which were native to intervertebral discs and/or umbilical cords that the allograft was derived from.