Abstract: The present invention provides threads of hyaluronic acid, and/or derivatives thereof, methods of making thereof and uses thereof, for example, in aesthetic applications (e.g., dermal fillers), surgery (sutures), drug delivery, etc.

Abstract: Compositions and methods are provided for the prevention and treatment of chronic wounds, including, without limitation, pressure ulcers and diabetic ulcers, by transdermal delivery of an agent that increases activity of HIF-1? in the wound.

Abstract: Compositions and methods are provided for delivery of stem cells to a targeted tissue. A population of stem cells, including for example a regenerative stem cell population, is bound to magnetic vesicular particles. The magnetic vesicular particles comprise one or more magnetic nanoparticles within a lipid membrane, e.g. a liposomal structure. The cells are delivered to a targeted tissue by application of a magnetic field.

Abstract: One aspect of the present invention relates to a method of treating or preventing pathologic sequelae of acute hyperglycemia and/or increased fatty acid flux in a subject. This method involves administering an ROS inhibitor to the subject. In addition, methods of promoting neovascularization, inhibiting oxidation or excessive release of free fatty acids, and identifying compounds suitable for treatment or prevention of ROS-mediated injury are also disclosed.

Abstract: Devices, kits and methods described herein may be for treatment to skin, including but not limited to wound healing, the treatment, amelioration, and/or prevention of scars or keloids. A book-like packaging, applicator and/or tensioning device may be used to apply a dressing to a subject. The packaging, applicator and/or tensioning device may apply and/or maintain a strain in an elastic dressing.

Abstract: One aspect of the present invention relates to a method of treating or preventing pathologic effects of hyperglycemia and/or increased fatty acid flux in a subject in need of such treatment or preventive therapy. This method involves administering a composition containing a therapeutically effective amount of a ROS inhibitor to a subject in need thereof.

Abstract: Devices, bandages, kits and methods are described that can control or regulate the mechanical environment of a wound to ameliorate scar and/or keloid formation. The mechanical environment of a wound includes stress, strain, and any combination of stress and strain. The control of a wound's mechanical environment can be active, passive, dynamic, or static. The devices are configured to be removably secured to a skin surface in proximity to the wound site and shield the wound from endogenous and/or exogenous stress.

Abstract: The present invention provides threads of hyaluronic acid, and/or derivatives thereof, methods of making thereof and uses thereof, for example, in aesthetic applications (e.g., dermal fillers), surgery (sutures), drug delivery, etc.

Abstract: Devices, kits and methods described herein include skin treatments with a book-like packaging, applicator and/or tensioning device used to apply a dressing to a subject. The packaging, applicator and/or tensioning device is used to apply and/or maintain a strain in an elastic dressing, and has a first support, a second support, and a primary bending region therebetween, the primary bending region comprising a primary bending axis, with the dressing attached to the first and second supports of the device.

Abstract: Compositions and methods are provided for the prevention and treatment of chronic wounds, including, without limitation, pressure ulcers and diabetic ulcers, by transdermal delivery of an agent that increases activity of HIF-1? in the wound.

Abstract: Formulations and methods are provided for improving the function, i.e. clinical outcome, of solid organ transplants. Lung transplantation is of particular interest. In the methods of the invention, a nanoparticle formulation comprising an effective dose of an iron chelator active agent in nanoparticle form, including without limitation, deferoxamine (DFO), deferasirox (DFX), and deferiprone (DFP), etc. is topically applied to the surface of tissues during episodes of graft rejection.

Abstract: Formulations and methods are provided for improving the function, i.e. clinical outcome, of solid organ transplants. Lung transplantation is of particular interest. In the methods of the invention, a nanoparticle formulation comprising an effective dose of an iron chelator active agent in nanoparticle form, including without limitation, deferoxamine (DFO), deferasirox (DFX), and deferiprone (DFP), etc. is topically applied to the surface of tissues during episodes of graft rejection.

Abstract: One aspect of the present invention relates to a method of treating or preventing pathologic effects of hyperglycemia and/or increased fatty acid flux in a subject in need of such treatment or preventive therapy. This method involves administering a composition containing a therapeutically effective amount of a ROS inhibitor to a subject in need thereof.

Abstract: Apparatus and methods for nipple and breast formation are described where devices precondition or expand a target nipple tissue to reduce the pressure exerted by the skin on an eventual implant. Generally, the apparatus comprises a mold having a contact surface which is cured in conformance with a breast upon which the mold is positionable, the contact surface having an adhesive for securement upon the breast, and the mold defining a cavity along the contact surface which conforms to a size of a nipple to be formed upon the breast and where the cavity further comprises the adhesive for securement to the nipple. A breast enlargement device comprises a cup larger than the target breast and further defines an inner surface which adheres to the breast when contacted.

Abstract: Compositions and methods are provided for enhanced healing of wounds, e.g. cutaneous wounds, by application of a scaffold or matrix, e.g. a hydrogel film comprising a dose of macrophages, or monocyte progenitors thereof, which dose is effective in increasing the rate of wound healing. The compositions of the invention find use in treating cutaneous wounds, particularly chronic wounds, e.g. in diabetic patients or other patients with impaired wound healing.

Abstract: The formation of scars at a wound site is reduced by contacting the wound site with an effective dose of an inhibitor of focal adhesion kinase (FAK) activity or expression. Blockade of FAK is sufficient to prevent mechanical and inflammatory stimuli from activating MCP-1 pathways. In addition to these chemokine-mediated mechanisms, inhibition of FAK may control fibrosis by blocking fibroblast collagen production. Pharmacologic blockade of FAK significantly reduces scar formation in vivo.

Abstract: Compositions and methods are provided for the manufacture and use of a pullulan-based collagen hydrogel film with controlled porosity. The hydrogel is fabricated with salt-induced phase inversion and cross-linking to form a reticular scaffold. This soft collagen scaffold displays excellent handling characteristics, durability, and a porous dermal-like ultrastructure that is maintained in vitro. Cells, including cells involved in tissue repair, are viably sustained within the scaffold. The hydrogel films are biodegradable, and find particular use in wound healing, where the hydrogel scaffold can be replaced by dermal cells over time.

Abstract: Devices, kits and methods described herein may be for wound healing, including but not limited to the treatment, amelioration, or prevention of scars and/or keloids. The packaging, manipulation elements, applicator and/or tensioning device maybe used to apply and/or maintain a strain in an elastic dressing.

Abstract: Apparatus and methods for nipple and breast formation are described where devices precondition or expand a target nipple tissue to reduce the pressure exerted by the skin on an eventual implant. Generally, the apparatus comprises a mold having a contact surface which is curved in conformance with a breast upon which the mold is positionable, the contact surface having an adhesive for securement upon the breast, and the mold defining a cavity along the contact surface which conforms to a size of a nipple to be formed upon the breast and where the cavity further comprises the adhesive for securement to the nipple. A breast enlargement device comprises a cup larger than the target breast and further defines an inner surface which adheres to the breast when contacted.

Abstract: Apparatus and methods for nipple and breast formation are described where devices precondition or expand a target nipple tissue to reduce the pressure exerted by the skin on an eventual implant. Generally, the apparatus comprises a mold having a contact surface which is curved in conformance with a breast upon which the mold is positionable, the contact surface having an adhesive for securement upon the breast, and the mold defining a cavity along the contact surface which conforms to a size of a nipple to be formed upon the breast and where the cavity further comprises the adhesive for securement to the nipple. A breast enlargement device comprises a cup larger than the target breast and further defines an inner surface which adheres to the breast when contacted.