Abstract: Visco-supplement compositions derived from a transcellular fluid, such as human amniotic fluid, human aqueous humor fluid, or human vitreous fluid are described. Also described are methods for treating inflammatory conditions of the musculoskeletal system, such as joint inflammation, and methods of lubricating a joint using the described visco-supplement compositions.

Abstract: Methods for treating joint diseases, disorders, and conditions, such as osteoarthritis, with a composition containing a therapeutically effective amount of tissue inhibitors of matrix metalloproteinases (TIMPs) are provided. The composition can contain TIMPs as part of amniotic fluid, or the TIMPs can be isolated from another source or recombinantly produced. The methods are particularly useful for treating osteoarthritis associated with degradation of articular cartilage by proteases. Also provided are methods of lubricating a joint, such as an osteoarthritic joint.

Abstract: Visco-supplement compositions derived from a transcellular fluid, such as human amniotic fluid, human aqueous humor fluid, or human vitreous fluid are described. Also described are methods for treating inflammatory conditions of the musculoskeletal system, such as joint inflammation, and methods of lubricating a joint using the described visco-supplement compositions.

Abstract: Methods for treating chronic wounds with an amniotic fluid having a therapeutically effective amount of tissue inhibitors of matrix metalloproteinases (TIMPs) are described. The amniotic fluid can be obtained from a female donor during a period of gestation when the concentration of endogenous TIMPs are at or near their maximum level. The methods described herein are particularly useful for promoting wound healing in chronic wounds having elevated protease activity, such as increased amounts or specific activity of matrix metalloproteinases.

Abstract: A method for treating cartilage defects including providing a placental membrane preparation that includes ground or minced placental membranes and optionally, a ground or minced cartilage and/or biocompatible glue, and introducing the preparation to a cartilage defect within a skeletal joint. The cartilage defect may include a hyaline cartilage defect, such as a chondral defect, or meniscal defect. The treatment may be provided in combination with other treatments such as marrow stimulation treatments and surgical repair treatments using sutures or other fixation techniques. The preparation promotes the regeneration of cartilage within the skeletal joint.

Abstract: Visco-supplement compositions derived from a transcellular fluid, such as human amniotic fluid, human aqueous humor fluid, or human vitreous fluid are described. Also described are methods for treating inflammatory conditions of the musculoskeletal system, such as joint inflammation, and methods of lubricating a joint using the described visco-supplement compositions.

Abstract: Methods for treating joint diseases, disorders, and conditions, such as osteoarthritis, with a composition containing a therapeutically effective amount of tissue inhibitors of matrix metalloproteinases (TIMPs) are provided. The composition can contain TIMPs as part of amniotic fluid, or the TIMPs can be isolated from another source or recombinantly produced. The methods are particularly useful for treating osteoarthritis associated with degradation of articular cartilage by proteases. Also provided are methods of lubricating a joint, such as an osteoarthritic joint.

Abstract: The present disclosure generally pertains to methods of treating non-healing wounds. Specifically, the method includes injecting amnion fluid derived cells along the periphery of the wound. The wound is then treated with a placental membrane material including a plurality of slits for increasing the membranes capacity to expand. The slits produce a mesh-like pattern in the membrane material. The amniotic derived cells deliver to the wound electrolytes, growth factors, carbohydrates, lipids, proteins, amino acids, lactate, pyruvate, enzymes, hormones and other factors useful in wound repair. The membrane material provides a scaffolding structure supporting cell growth, prevents microbial infection and decreases the rate of passive evaporative water and heat loss. The combination of the amniotic derived cells and the membrane material protects the wound and promotes cell regeneration.