Abstract: Disclosed is a plasma generator. The plasma generator may include a gripping portion including at least one interface unit configured to receive an input from a user; a head portion including a plasma generating portion configured to generate the plasma; a first cartridge configured to detachably couple at a first end of the head portion and generate the plasma over a predetermined region; and a light irradiation portion provided at a second end of the head portion.

Abstract: Climate control room includes systems and sensors associated therewith. A further aspect includes programmed software instructions which include obtaining data of a user of the climate control room from the one or more sensors, raising a core body temperature of the user by a predetermined threshold based on the obtained data; and determining whether the core body temperature of the user has been raised by the predetermined threshold for a predetermined time period. The programmed software instructions may also set an ultraviolet light intensity level based on the obtained data.

Abstract: Techniques for automatic measurement using structured lights are provided. A computer system uses structured lights to acquire skin information, the skin information being associated with at least one affected area of the skin. The computer system determines parameters related to the at least one affected area of the skin, at least partly, on the skin information and generates an assessment for the at least one affected area of the skin.

Abstract: A transparent cover member for a skin treatment device passes light and heat to a user's skin. The transparent cover member presents a comfortable flat surface at its exterior, and includes features that couple to a heating element that surrounds a plurality of visible light LEDs. The transparent cover member can include retaining features to assist in assembling the head assembly of the skin treatment device.

Abstract: The present disclosure relates to systems, methods, and uses of systems for treating a skin condition with phototherapy. A system comprises (a) a phototherapy device comprising a phototherapy light source; (b) a patient computing device comprising a processor and a memory, the patient computing device configured to: transmit a first signal to the phototherapy device enabling operation of the phototherapy device according to one or more conditional prescription parameters, activate the phototherapy light source, and transmit a second signal reporting operation of the phototherapy device; and (c) a server configured to communicate with the patient computing device and receive the second signal.

Abstract: A sterilization system uses ultraviolet radiation and ozone to eradicate deadly pathogens to sterilize a surface of an object or wound/incision site at an adjustable intensity level. The sterilization system has ultraviolet emitters that emit ultraviolet light in wavelengths that kill pathogens and in wavelengths that produce ozone at the sites, therefore killing/disabling several hard-to-kill pathogens. The sterilization system has an intensity control and proximity detectors to enable ultraviolet emission only when the system is properly located near or against the surface so as to protect from unwanted radiation from the ultraviolet light.

Abstract: The systems and methods herein involve an infection ultraviolet (UV) device where an enclosed area is exposed to 254 nanometer (nm) radiation, thereby reducing and quarantining airborne pathogens and microbes. This reduces transfer of said pathogens and microbes among individuals equipped with UV protection in the enclosed area.

Abstract: A field of reach ultraviolet light disinfecting system includes a wrist band having two or more UV light emitters to produce a shower of UV light over the hand to disinfect pathogens that may be located on the hand and/or objects and surfaces in the light field of light dispersion the UV light emitters. A field of reach ultraviolet light disinfecting device has a top-hand UV light emitter configured on the wrist band to produce a top-hand UV light field that is emitted down over the top or back of a hand, when donned on a person's wrist. A field of reach ultraviolet light disinfecting device has a palm-hand UV light emitter that produces a palm-hand UV light field over the palm of a hand. A visible light emitter may project a visible light that overlaps the UV light field to indicate the location of the UV light emission.

Abstract: A system to be used to treat Leukemia, comprises a device to power, control and monitor an ultraviolet radiation as well as to monitor a blood contactless conductivity; and a catheter assembly with an inner dialysis catheter, an ultraviolet radiation source and a differential coil sensor. The system is using wavelengths of ultraviolet radiation to destroy infectious microbes that are in the blood and that are inside circulating tumor cells directly and indirectly as well as to destroy infectious microbes at primary tumor location (bone marrow). This is done without withdrawing the blood out of the body. Furthermore, the system measures a blood conductivity to evaluate the treatment process in a real time during the operation.

Abstract: An ingestible capsule is provided. The capsule comprises a shell container containing an ultraviolet emitter, and an energy source connected to the emitter. The capsule also comprises a gelatinous layer encasing the shell container. After ingestion, ultraviolet rays emitted by the emitter reach gastric areas hosting bacteria afflicting an ingesting user, the rays at least partially eradicating the bacteria.

Abstract: Aspects disclosed herein include systems, apparatuses, and methods for administration of a one or more wavelengths of UVA light in an effective amount to an area/target for reducing pathogen growth.

Abstract: A sterilization system uses ultraviolet radiation and ozone to eradicate deadly pathogens to sterilize a zone of a surface of an object or wound/incision sites. The sterilization system offers a safe sterilization method prior to or after surgery and/or closure wounds/incisions. The sterilization system has ultraviolet emitters that emit ultraviolet light in wavelengths that kill pathogens and in wavelengths that produce ozone at the sites, therefore killing/disabling several hard-to-kill pathogens. The sterilization system has proximity detectors to enable ultraviolet emission only when the system is properly located near or against the surface so as to protect from unwanted radiation from the ultraviolet light.

Abstract: An adjustable illuminator for photodynamically diagnosing or treating a surface includes a plurality of first panels and at least one second panel. The plurality of first panels have wider widths and the at least one second panel has a narrower width. The narrower width is less than the wider widths. The illuminator further includes a plurality of light sources, each mounted to one of the plurality of first panels or the at least one second panel and configured to irradiate the surface with substantially uniform intensity visible light. The plurality of first panels and the at least one second panel are rotatably connected. The at least one second panel is connected on each side to one of the plurality of first panels. The second panel acts as a “lighted hinge” to reduce or eliminate optical dead spaces between adjacent panels when the illuminator is bent into a certain configuration.

Abstract: Ring illuminated surgical cameras and scopes having a ring lens and a plurality of LEDs. The LEDs set behind an electronic imaging sensor (camera) and positioned radially about the longitudinal axis of the lens and/or scope.

Abstract: A system and method for powering an ultraviolet (UV) water purification system utilizing a dynamo. A dynamo, operably attached to the UV water purification system, generates power from a rotatable crank which is actuated by a user around an axis of the rotatable crank. When the crank is rotated, the dynamo produces an electrical current that activates and powers the UV lamp, which in turn, produces UV light to purify the water. To ensure that the water has been purified appropriately, a microcontroller, employed within the UV water purification system, tracks both the “on” time and the intensity of the UV lamp as the dynamo is cranked. Once the lamp has been “on” at a sufficient intensity and for an appropriate period of time to administer a required dose of UV light, the microcontroller disables the lamp and provides the user with notification that the process has completed.

Abstract: A therapeutic laser with a source of pulsed electromagnetic radiation, a control device for controlling the intensity and/or the duration of the therapeutic laser applied to the tissue, and a detection device for detecting optoacoustic signals triggered by irradiating the living tissue with the pulsed electromagnetic radiation. The therapeutic laser is characterized by an evaluation device that acts on the control device and is used for calculating a degree of quality B(t) from the optoacoustic signals detected by the detection device for individual laser pulses applied to a predetermined laser spot and determining a fit function f(t) at a predetermined point in time ?t1, the fit function f(t) approximating the mean curve of B(t) for 0?t??t1. The intensity and/or the irradiation time of the therapeutic laser is defined by the parameters for the predetermined laser spot, the parameters being determined for the fit function f(t).

Abstract: A computer implemented method and apparatus can create an exposure regimen for a user. The regimen can be used to instruct an exposure device to expose the user to light at a wavelength, duration, and intensity, and over one or more days, which is sufficient to alter the user's circadian rhythm. The user may provide one or more preferences which allow the technology to create the exposure regimen sufficient to alter the user's circadian rhythm.

Abstract: A system and method for phototherapy, including skin tanning, lupus phototherapy, teeth whitening, hair growth and psoriasis therapies, are provided. The system includes a chamber adapted for at least one type of phototherapy and at least on UV LED, at least one a nanostructure UV light emitting device or a combination of UV LEDs and nanostructure UV light emitting devices.

Abstract: A treatment apparatus (10) is used for treatment of parts of a skin (5). The apparatus comprises a radiation source (1) emitting radiation, and a radiator (2) for guiding the emitted radiation to the parts of the skin (5). The parts of the skin (5) comprise skin cells affected by psoriasis. The radiation source (1) emits radiation in a first wavelength range of 400-460 nm, in a second wavelength range of 600-700 nm, or in a first wavelength range of 400-460 nm and a second wavelength range of 600-700 nm.

Abstract: Apparatus and methods for treating psychiatric disorders, mood disorders and circadian rhythm disorders with a multi-stage light protocol are disclosed. The presently disclosed multi-stage light protocol provides a synergistic treatment including up to 4 types of therapies: bright light therapy, extended sleep deprivation therapy, dawn simulation therapy and short to medium wavelength light therapy. According to some embodiments, the first stage of the protocol includes a first time window of 20 minutes during which, for a majority of the time, the light intensity is between 50 lux and 2000 lux. According to some embodiments, the second stage of the protocol includes a second time window of at least 90 minutes during which, for every 10 minute period within the second time window, for a majority of the time, the light intensity is exceeds 100 lux.

Abstract: An apparatus for applying targeted phototherapy to a skin treatment area includes a UVB module arranged to output light at about 308 nm having at least one flash lamp arranged to generate light including UVB light and a UVB transmissive window for transmitting UVB light generated by the flash lamp, a user interface, and a controller configured to detect when the user interface is actuated and to cause pulsing of the flash lamp in response to the actuation of the user interface. A method of applying targeted phototherapy to a skin treatment area includes contacting a phototherapy apparatus with the skin, the apparatus including at least one flash lamp and a UVB transmissive window, such that the window is positioned in alignment with the treatment area, and activating the flash lamp to cause pulsed UVB light at 308 nm to be transmitted through the window.

Abstract: A garnet-type single crystal is represented by a general formula, A3B2C3O12 (having a crystal structure with three sites A, B and C occupied by cations, wherein A represents an element occupying the site A, B represents an element occupying the site B, C represents an element occupying the site C, O represents an oxygen atom), and contains fluorine, in which the fluorine attains any one or both of substituting for the oxygen atom or compensating for oxygen defect.

Abstract: The invention regards an apparatus for promoting D-vitamin production in a living organism, comprising at least one lamp assembly, said at least one lamp assembly is adapted to emit polychromatic light, wherein the polychromatic light at least emulates natural light and UV light at wavelengths between 270 nm and 315 nm.

Abstract: The invention relates to a skin tanning chamber, the improvement comprising at least one light emitting diode emitting a UVA light, such as a UVA LED that emits essentially only UVA. Additionally, multiple LEDs of varying types with various characteristic wavelengths are controlled independently to produce an arbitrary light pattern in an arbitrary sequence over time. The chamber can be rigid or flexible. It can be a bed, booth or incorporated into a flexible form, such as a garment or cloth. In one embodiment, the chamber further comprises at least one LED emitting a UVC light, whereby the UVC light sanitizes the chamber surface. Preferably the LED emitting the UVA light is under independent control from the LED emitting UVC light.

Abstract: The current invention discloses a treatment device having a heat source, a power source, a heat applicator and a lighting mechanism. The power source includes at least one battery having superior properties such as prolonged electricity production and prompt recharging. The heat applicator includes a heat conductive layer made from nanofibers, providing highly efficient heat distribution to the targeted regions. The lighting mechanism employs light emitting nano fibers to treat targeted regions. The power source provides energy to the light source, which generates light so that the applicator may distribute to an injury site or wound bed of a user. The heat source may be an exothermic chemical reaction designed to last for several hours supplying heat to the treatment device or an electronically produced heat. The treatment device further comprises a plurality of electrodes for electrical stimulation treatment.

Abstract: The invention relates to a skin tanning chamber, the improvement comprising at least one light emitting diode emitting a UVA light, such as a UVA LED that emits essentially only UVA. Additionally, multiple LEDs of varying types with various characteristic wavelengths are controlled independently to produce an arbitrary light pattern in an arbitrary sequence over time. The chamber can be rigid or flexible. It can be a bed, booth or incorporated into a flexible form, such as a garment or cloth. In one embodiment, the chamber further comprises at least one LED emitting a UVC light, whereby the UVC light sanitizes the chamber surface. Preferably the LED emitting the UVA light is under independent control from the LED emitting UVC light.

Abstract: The current invention discloses a treatment device having a heat source, a power source, a heat applicator and a lighting mechanism. The power source includes at least one nanotech battery, ensuring superior properties such as prolonged electricity production and prompt recharging. The heat applicator includes a heat conductive layer made from nanofibers, providing highly efficient heat distribution to the targeted regions. The lighting mechanism employs light emitting nano fibers to treat targeted regions. The power source provides energy to the light source, which generates light so that the applicator may distribute to an injury site or wound bed of a user. The heat source may be an exothermic chemical reaction designed to last for several hours supplying heat to the treatment device or a electronically produced heat. In addition to the medical utilizations, the current device may also play a central role in other apparatus that require thermal control or lighting capabilities.

Abstract: Ophthalmic treatment systems and methods of using the systems are disclosed. The ophthalmic treatment systems include (a) a light source device; (b) at least one optical treatment head operatively coupled to the light source device, comprising a light source array, and providing at least one treatment light; and (c) a light control device, which (i) provides patterned or discontinuous treatment light projection onto an eye (e.g., the cornea and/or sclera of an eye); or (ii) adjusts intensity of part or all of the light source array, providing adjusted intensity treatment light projection onto an eye (e.g., the cornea and/or sclera of an eye). The at least one treatment light promotes corneal and/or scleral collagen cross-linking.

Abstract: Skin disorders such as, for example, atopic dermatitis, dyshidrosis, eczema, lichen planus, psoriasis, and vitiligo, are treated by applying high doses of ultraviolet light to diseased regions of a patient's skin. The dosage exceeds 1 MED as determined for the particular patient and may range from about 1 MED to about 20 MED or higher. The ultraviolet light has a wavelength within the range of about 295 nanometers to about 320 nanometers. High doses of ultraviolet light are preferably restricted to diseased tissue areas. A specialized handpiece provides a beam profile especially suitable for application of controlled doses. A specialized delivery device is useful for UV treatment of tissue within the mouth.

Abstract: The invention pertains to methods and compositions for treating medical disorders characterized by elevated levels or abnormal expression of TNF? by administering a TNF? antagonist, such as recombinant TNFR:Fc.

Abstract: A technique for detecting and providing alerts or indications that can be used for controlling or altering the displacement speed of an applicator coupling skin heating energy across a treated skin. A temperature sensor monitors the rate of skin temperature change and provides feedback related to altering the applicator displacement speed according to the rate of skin temperature change. Disclosed is also an applicator for implementing this method.

Abstract: Techniques disclosed herein include systems and methods for treating spinal cord injury. Techniques include using a diode laser assembly, a power source, a fiber optic cable, and a fenestrated tip. The power source can be connected to the diode laser assembly, with a fiber optic cable connected to the diode laser assembly. The fenestrated tip is connected to the fiber optic cable to emit a plurality of laser light beams produced by the diode laser assembly at a location remote from the diode laser assembly. The apparatus can be used in a method for treating a spinal cord injury. The method is carried out by providing a source of laser light having a wavelength in the range of 500-1000 nm and a power in the range of 5 to 500 milliwatts. The laser light is transmitted through an optical wire to a position adjacent a spinal cord injury site, with at least a portion of the apparatus positioned within a human body. The spinal cord injury site is then irradiated with laser light from the optical wire.

Abstract: A light therapy device for applying an image produced from a therapeutically effective aqueous liquid, is provided. The device includes a slide, prepared by Kirlian and/or corona discharge photography, of a sample of an aqueous liquid removed from a liquid-retaining body and mixed with ethanol, and a projection device with a light device which emits visible light and is designed to project the slide onto an object, in particular a living being, in such a way that a sample of the liquid contained in a container which is permeable to and can be irradiated by the visible light is arranged in a light path between a unit, which holds the slide, of the projection device and the object.

Abstract: An apparatus for sanitizing oral appliances is provided. The apparatus includes a housing movable between open and closed positions, at least one ultraviolet light source for emitting one or more sanitization means within the sanitizing chamber, and at least one power source for powering the ultraviolet light source. In the open position the housing allows insertion of the appliance, and in the closed position the housing defines a sanitizing chamber. The apparatus may include an appliance suspension system. The apparatus may include a reflective interior surface provided on at least a portion of the sanitizing chamber. The ultraviolet light source may be adapted to generate ozone within the sanitizing chamber. The apparatus may include control circuitry connecting the ultraviolet light source to the power source for the purpose of activating and deactivating the ultraviolet light source.

Abstract: An illumination device comprises a housing, a power supply and at least one light source powered by the power supply. The at least one light source is adapted to emit radiation from the housing at one or more therapeutic wavelengths. The illumination device is positioned in proximity to an area for applying radiation to the area for a time and intensity sufficient to have a bacteriocidal effect.

Abstract: An ophthalmological device (10) for the treatment of corneal diseases such as keratocanus and glaucoma, comprises a moulding head (12), a suction body (14) and a UV lamp (15). The moulding head (12) has a hollow cylindrical configuration and includes a rigid moulding lens (18) for shaping the cornea of an eye (11) of a patient. The lens is curved and defines a plurality of apertures therein. The suction body (14) has a hollow cylindrical configuration. The lamp (15) is fitted to the suction body. Moulding head (12) and suction body (14) together define a chamber (32) from which air is evacuated so as to induce a partial vacuum within the chamber (32) for attracting the cornea onto the lens (18). A photo-sensitizer is applied to the eye and while the cornea is held against the mould, it is irradiated with UV light by lamp (15) so as to cross-link collagen fibres in the cornea.

Abstract: A portable sterilization device using direct UV-C radiation to sterilize the bottom of footwear from known, multiple sources of contamination including bacteria and viruses. This portable device will offer a safe sterilization method for the general public, both in-home and in commercial use.

Abstract: Devices and methods for therapeutic photodynamic modulation of neural function in a human. One embodiment of a method in accordance with the technology includes administering a photosensitizer to a human, wherein the photosensitizer preferentially accumulates at nerves proximate a blood vessel compared to non-neural tissue of the blood vessel. The method can further include irradiating the photosensitizer using a radiation emitter positioned within the human, wherein the radiation has a wavelength that causes the photosensitizer to react and alter at least a portion of the nerves thereby providing a therapeutic reduction in sympathetic neural activity. Several embodiments of the technology are useful for disrupting renal nerves, such as renal denervation, for treating hypertension, diabetes, congestive heart failure, and other indications.

Abstract: A foot/shoe sanitizing system includes a housing having at least one opening and a set of foot/shoe support bars coupled to the housing in proximity to the at least one opening. The foot/shoe support bars support a foot or shoe placed through the opening(s). At least one ultraviolet emitting device is supported within the housing beneath the set of foot/shoe support bars. The ultraviolet emitting devices direct ultraviolet light around and/or through the set of foot/shoe support bars towards the foot or shoe placed on the foot/shoe support bars. The ultraviolet emitting devices are controllably powered by a source of power to emit ultraviolet light. In a preferred embodiment, the ultraviolet emitting device emits light that includes short wavelength ultraviolet light, causing the formation of ozone in the area of the shoe, thereby killing pathogens that are not easily killed with ultraviolet light alone.

Abstract: A phototherapy device is disclosed including: a handpiece; and a beamshaping element housed in the handpiece. The beamshaping element is adapted to receive a beam of light from an ultraviolet light source, modify the shape of the beam, and direct the modified beam to provide illumination of a region of a treatment surface, the region, having a tilable cross section at the treatment surface with an irregularly shaped boundary. In some embodiments, the irregularly shaped boundary is composed of three or more segments, each segment being sinusoid-like. In some embodiments, the beamshaping element includes a screen disposed between the light source and the treatment surface, the screen including a light transmissive with an irregularly shaped boundary, and where the irregularly shaped boundary of the illuminated area corresponds to the irregularly shaped boundary of the light transmissive region.

Abstract: A tanning device has one or more reflective surface areas. The reflective surface areas may be used for redirecting light rays toward one or more parts of a user's body.

Abstract: A system and method for phototherapy, including skin tanning, lupus phototherapy, teeth whitening, hair growth and psoriasis therapies, are provided. The system includes a chamber adapted for at least one type of phototherapy and at least on UV LED, at least one a nanostructure UV light emitting device or a combination of UV LEDs and nanostructure UV light emitting devices.

Abstract: A phototherapy apparatus is disclosed including: a body member; a plurality of elongated light transmitting elements, each of the elements extending between a proximal end enclosed within the body member and a distal end located outside of and distal to the body member; where the tips of the proximal ends of the light transmitting elements are located in close proximity to each other; and an optical connector configured to detachably receive an end of a lightguide and to couple light delivered by the lightguide from a source into the light transmitting elements at the proximal ends. The light coupled into each of the light transmitting elements is transmitted along the element and emitted from the distal end.

Abstract: In one aspect, the present invention relates to a wound care system. The wound care system includes a power unit and a processor coupled to the power unit. An ultra-violet light-emitting diode array is electrically coupled to the processor. A thermoelectric element is thermally exposed to the ultra-violet light-emitting diode array. A probe is optically coupled to the ultra-violet light-emitting diode array. The thermoelectric element cools the ultra-violet light emitting diode array thereby optimizing the ultra-violet light emitting diode array.

Abstract: Minimally invasive delivery with intercellular and/or intracellular localization of nano- and micro-particle solar cells within and among excitable biological cells to controllably regulate membrane polarization and enhance function of such cells. The cells include retinal and other excitable cells.

Abstract: A system is provided for reducing lipid content of adipocytes in a body. The system includes an optical device configured to illuminate a region of the body at a selective peak wavelength and at a selective power density for a selective time period. The system also includes a controller connected to the optical device to determine the selective wavelength, the selective power density and the selective time period to stimulate lipolysis in the adipocytes. A system is also provided for reducing pain in the body. A method is also provided for reducing lipid content of adipocytes in the body.

Abstract: Methods and devices for suppressing clinical symptoms of multiple sclerosis (MS) by irradiating a subject exhibiting the symptoms with an effective dose of UV-containing light from a light source and detecting a suppression of the clinical symptoms of MS. In particular, the detected suppression of the clinical symptoms is disassociated from the vitamin D production within the subject.

Abstract: A phototherapy device using excimer radiation in which, by skillful use of the individual peak wavelength of 308 nm and of the emission range of shorter wavelengths than 308 nm, the therapy effect is enhanced, and in which, at the same time, harm can be reduced is achieved using a XeCl excimer lamp and in which diseased sites of skin disorders are irradiated with UV-B radiation with an optical filter being used for changing the spectral shape of the UV-B radiation with which the diseased sites are irradiated.

Abstract: A phototherapy device includes a light source; a light emanation block; and a heat exchanger for the dissipation of heat from one or more heat loads associated with the device. Heat may be transferred via the heat exchanger from the light source independently of the dissipation of heat from one or more of the other device heat loads. Substantially thermally isolated heat transfer regions may be provided, and such regions may be maintained at different operating temperatures, to control the transfer of heat in conjunction with a phototherapy method and to promote efficient and enhanced device operation and performance.

Abstract: A method and device for light color therapy, which is a method for simultaneously exposing specific surface regions of the human body to light of specific but possibly different frequencies, temporal characteristics and polarization. The device is constructed to match anatomical details of the human body such as to apply the simultaneous local light exposures to the desired body regions and to compensate for possible movement of the head, thereby minimizing the time required for a single treatment.