Abstract: The present invention provides a laser system and laser handpiece and process for skin treatment. The system includes components for producing a continuous or pulse laser beam, and components for delivering a substance to the damaged region of skin. The system is designed to control and utilize the laser beam for damaging small volume of skin tissue and using a disposable tip to deliver a substance which is applied simultaneously or with some delay producing a combination of laser action with the action of named substance at the same time.

Abstract: The invention provides a combination therapy for the treatment of hair loss, the therapy comprising the administration of stem cell factors and vasodilators. The stem cell factors may be obtained from mesenchymal stem cells grown under low oxygen conditions. Kits and compositions for the treatment of hair loss are also disclosed.

Abstract: A system for the surface and subsurface delivery of therapeutic and cosmetic agents. The system includes a disposable attachable tip with pre-filled medications or cosmetics that is adjustable hand pieces including electromagnetic and mechanical energy delivery devices.

Abstract: A method of treating the mental state of subjects with significant neurological, functional and/or motor impairment from an ischemic stroke. The method comprises a step of intravenously dosing ischemic tolerant allogeneic mesenchymal bone marrow cells itMSCs to subjects with ischemic stroke.

Abstract: Compositions of mesenchymal stem cells and mesenchymal stem cell factors are provided. Methods of using the inventive compositions in the treatment of Alzheimer's disease are contemplated.

Abstract: A method for treatment of peripheral arterial disease conditions comprising systemically administering an effective amount of therapeutic stem cells. Included within the scope of the invention is intravenous administration of a therapeutic amount of ischemic tolerant mesenchymal stem cells in the treatment of peripheral arterial disease.

Abstract: A microneedle device for delivering therapeutic ingredients to the dermis or epidermis. The device contains biodegradable microneedles, which extend from a backing, and are sandwiched between a cap film and a film which is coextensive with the tips of the microneedles and the spaces on the backing between the microneedles.

Abstract: Therapeutic stem cells and methods for their use and manufacture. Stem cells are produced under conditions in which the stem cells are exposed to at least one environmental factor, including decreased oxygen tension. The environmental factors and culture conditions of the invention produce stem cells having an enhanced therapeutic ability and enhanced proliferation in culture. Stem cells of the invention retain their plasticity through a higher number of cell passages relative to know methods of stem cell culture. The invention also contemplates the use of such stem cells in the treatment of neurodegenerative disorders including Alzheimer's disease and stroke.

Abstract: The present invention provides a laser system and laser handpiece and process for skin treatment. The system includes components for producing a continuous or pulse laser beam, and components for delivering a substance to the damaged region of skin. The system is designed to control and utilize the laser beam for damaging small volume of skin tissue and using a disposable tip to deliver a substance which is applied simultaneously or with some delay producing a combination of laser action with the action of named substance at the same time.

Abstract: A laser skin treatment process and system. The system includes features for producing a first laser beam of long pulse duration and a second laser beam of short pulse duration and a skin cooler for cooling the surface of a region of skin. The system is designed to utilize the first laser beam for heating a volume of skin tissue below the cooled surface region to a temperature to produce skin tissue modification but below skin tissue damage threshold. This volume of skin tissue is called a “thermal cavity”. The second laser beam is divided into a plurality of separate laser beams that are directed through separate optical fibers and via separate paths through skin tissue to a single tiny volume of skin tissue within the thermal cavity to produce in that tiny volume mechanical damage. This tiny volume is called an energy droplet. Thus tiny regions of tissue are damaged while minimizing or preventing any significant damage to adjacent tissue.

Abstract: Therapeutic stem cells and methods for their use and manufacture. Stem cells are produced under conditions in which the stem cells are exposed to at least one environmental factor, including decreased oxygen tension. The environmental factors and culture conditions of the invention produce stem cells having an enhanced therapeutic ability and enhanced proliferation in culture. Stem cells of the invention retain their plasticity through a higher number of cell passages relative to know methods of stem cell culture. The invention also contemplates the use of such stem cells in the treatment of neurodegenerative disorders including Alzheimer's disease and stroke.

Abstract: Therapeutic stem cells and methods for their use and manufacture. Stem cells are produced under conditions in which the stem cells are exposed to at least one environmental factor, including decreased oxygen tension. The environmental factors and culture conditions of the invention produce stem cells having an enhanced therapeutic ability and enhanced proliferation in culture. Stem cells of the invention retain their plasticity through a higher number of cell passages relative to know methods of stem cell culture.

Abstract: A cellular scaffold that is suitable for tissue regeneration, cell culture and in vitro assays. The invention relates to a layered cell scaffold that is seeded with mesenchymal and ectodermal cells. The layered cellular scaffold comprises an inoculum of mesenchymal cells and ectodermal cells positioned between two opposing scaffolds in a sandwich configuration. The layered cell scaffold provides a functional skin equivalent that is suitable for transplantation and in vitro cell-based assays.

Abstract: The invention provides a method for treating a skin condition in a patient through the administration of stem cells, stem cell factors or a combination thereof. The invention finds use in medical (i.e. healing) and cosmetic applications. Disclosed herein are methods for making and using compositions of stem cells and stem cell factors, and methods for their use in the treatment of skin conditions.

Abstract: The invention provides compositions of vaporized stem cell derivatives and methods for their use and manufacture in the treatment of skin conditions and other therapeutic applications. Stem cell derivatives comprising vaporized stem cells, stem cell factors and/or stem cell microvesicles are disclosed and contemplated as being within the scope of the invention. The invention finds use in medical, rejuvenative and cosmetic applications.

Abstract: A cellular scaffold that is suitable for tissue regeneration, cell culture and in vitro assays. The invention relates to a layered cell scaffold that is seeded with mesenchymal and ectodermal cells. The layered cellular scaffold comprises an inoculum of mesenchymal cells and ectodermal cells positioned between two opposing scaffolds in a sandwich configuration. The layered cell scaffold provides a functional skin equivalent that is suitable for transplantation and in vitro cell-based assays.

Abstract: A laser skin treatment process and system. The system includes features for producing a first laser beam of long pulse duration and a second laser beam of short pulse duration and a skin cooler for cooling the surface of a region of skin. The system is designed to utilize the first laser beam for heating a volume of skin tissue below the cooled surface region to a temperature to produce skin tissue modification but below skin tissue damage threshold. This volume of skin tissue is called a “thermal cavity”. The second laser beam is divided into a plurality of separate laser beams that are directed through separate optical fibers and via separate paths through skin tissue to a single tiny volume of skin tissue within the thermal cavity to produce in that tiny volume mechanical damage. This tiny volume is called an energy droplet. Thus tiny regions of tissue are damaged while minimizing or preventing any significant damage to adjacent tissue.

Abstract: A laser process for tissue treatment. Preferred embodiments include features for producing a first laser beam and a second laser beam and a skin cooler for cooling the surface of a region of skin. The system is designed to utilize the first laser beam for heating a volume of skin tissue below the cooled surface region to a temperature below skin tissue damage threshold. This volume of skin tissue is called a “thermal cavity”. The second laser beam is divided into a plurality of separate laser beams that are directed through separate optical fibers and via separate paths through skin tissue to a single tiny volume of skin tissue within the thermal cavity to heat that tiny volume to a temperature above the damage threshold. This tiny volume is called an energy droplet. Thus tiny regions of tissue are damaged while minimizing or preventing any significant damage to adjacent tissue.

Abstract: Therapeutic stem cells and methods for their use and manufacture. Stem cells are produced under conditions in which the stem cells are exposed to at least one environmental factor, including decreased oxygen tension. The environmental factors and culture conditions of the invention produce stem cells having an enhanced therapeutic ability and enhanced proliferation in culture. Stem cells of the invention retain their plasticity through a higher number of cell passages relative to know methods of stem cell culture.

Abstract: A laser treatment device and process with controlled cooling. The device contains a cooling element with high heat conduction properties, which is transparent to the laser beam. A surface of the cooling element is held in contact with the tissue being treated while at least one other surface of the cooling element is cooled by the evaporation of a cryogenic fluid. The cooling is coordinated with the application of the laser beam so as to control the temperatures of all affected layers of tissues. In a preferred embodiment useful for removal of wrinkles and spider veins, the cooling element is a sapphire plate. A cryogenic spray cools the top surface of the plate and the bottom surface of the plate is in contact with the skin. In preferred embodiments the wavelength of the laser beam is chosen so that absorption in targeted tissue is low enough so that substantial absorption occurs throughout the targeted tissue. In a preferred embodiment for treating large spider veins with diameters in the range of 1.