The apparatuses and methods described herein relates generally to the field of active agent (drug) release from surgical grafts useful for soft tissue reconstruction, regeneration, or repair. More particularly, described herein are surgical grafts for soft tissue repair that include an active agent that is released over time while advantageously matching the biomechanical properties of tissue during healing and recovery.

Provided herein is a scar dressing formulation comprising a blend of a high molecular weight silicone elastomer crosspolymer and a silicone oil, wherein said silicone elastomer crosspolymer is in a volatile fluid. The formulation has a soft, silky feel without being greasy and dries quickly to form a durable, flexible scar dressing.

Disclosed herein are methods, processes, compositions, and kits for generating bone graft materials for use at a site of bone defect that utilizes a composition which contains liposomal Wnt polypeptide, such as liposomal Wnt3a polypeptide, liposomal Wnt5a polypeptide, or liposomal Wnt10b polypeptide. Also disclosed herein are methods, processes, compositions, and kits for enhancing mammalian bone marrow cells that utilizes a composition which contains liposomal Wnt polypeptide, such as liposomal Wnt3a polypeptide, liposomal Wnt5a polypeptide, or liposomal Wnt10b polypeptide.

Injectable or implantable drug delivery systems providing on-demand ultrasound-triggered drug release and methods for controlling the release of drug in a patient are provided herein. The on-demand drug delivery systems contain a drug depot and a drug encapsulated in an encapsulating material, where the encapsulating material is different from the depot. In the preferred embodiment, the depot also contains microbubbles that encapsulate one or more gases. The microbubbles enhance the drug release when ultrasound is applied compared to the same system in the absence of microbubbles. In a preferred embodiment, the drug delivery system, contains an encapsulating material, preferably liposomes, a drug to be delivered, microbubbles, and at least two hydrogel-forming precursor components. Following injection or implantation, the patient can control the time, location and dosage released by administering ultrasound.

Hydrogels and composite material containing hydrogels and liposomes dispersed therein, which exhibit a reduced friction coefficient compared to neat hydrogels or composites containing hydrogels, processes for preparing the same, and methods for using the same are disclosed.

The presently disclosed subject matter is directed to compositions, methods, and systems (e.g., platforms) comprising the same, the systems comprising, consisting of, or consisting essentially of micro- and macro-hydrogels that are formed from polypeptide micelles. The systems have enhanced mechanical properties that can be useful in a wide variety of applications, can be used for controlled release of drug-loaded micelles, and can be designed to reversibly assemble and disassemble on demand.

Disclosed herein are methods, processes, compositions, and kits for generating bone graft materials for use at a site of bone defect that utilizes a composition which contains liposomal Wnt polypeptide, such as liposomal Wnt3a polypeptide, liposomal Wnt5a polypeptide, or liposomal Wnt10b polypeptide. Also disclosed herein are methods, processes, compositions, and kits for enhancing mammalian bone marrow cells that utilizes a composition which contains liposomal Wnt polypeptide, such as liposomal Wnt3a polypeptide, liposomal Wnt5a polypeptide, or liposomal Wnt10b polypeptide.

The present invention relates to: a filler composition for reducing skin wrinkles, comprising stem cell-derived exosomes, hyaluronic acid, and BDDE; and a method for preparing same. The filler composition for reducing skin wrinkles according to the present invention not only overcome limitations of low in-vivo engraftment rate and survival rate of cells, which are the biggest problems of treatment using stem cells, but also suppresses side effects caused by tumorigenesis of stem cells and the like and exhibits an excellent collagen production effect, and it has been confirmed that the filler composition increases the proliferation of fibroblasts and collagen production by activating anti-inflammatory macrophages. Thus, the filler composition is expected to be effectively used in treatments for anti-aging, filler injections for cosmetic purposes, or the like.

Devices and methods for balloon delivery of rapamycin and other hydrophobic compounds to the wall of blood vessels. Balloon catheters, such as those used for stent deployment, are modified with the addition of a reservoir of dry micelles. The micelle preparation is reconstituted and the micelles are mobilized when the aqueous solution used to inflate the balloons is injected into the catheter. The micelles are infused into tissue surrounding the balloon when pressurized fluid within the balloon leaks through the wall of the balloon.

A dressing for treatment of a body part surface of a human or animal patient. The dressing includes a compress with a plurality of loose fill granules contained in an enclosure. The plurality of loose fill granules is configured to deliver moist heat. The dressing also includes antibacterial medication that is activated by the moist heat delivered from the compress and released toward the body part surface. The fill granules substantially retain at least one antimicrobial metal material therein and allow repeated absorption and dissipation of moisture to and from the fill granules.