A light therapy bed including multiple LEDs positioned in individually controllable modules is disclosed. The modules of LEDs are configured to have direct contact or in close proximity to the skin or tissue of the user, through an acrylic or similar cover. The LEDs light the surface and underlying layers of tissue for photodynamic stimulation of the cells. Iterations of the device utilize light known to have a bactericidal effect in the case of acne, MRSA, etc. The bed is fabricated and formed in a curved configuration to optimize contact between the LEDs and the skin of a user. Each of the LED modules may be mounted with a PCB in an arrangement to provide even lighting and temperature upon the skin or tissue surface of a user. Each module also has one or more thermal sensors that evenly and quickly heat all of the areas of a user's body.

A plurality of devices that provide examination/diagnosis and/or treatment benefits to a patient are presented. The device including a plurality of light sources that provide for the emission of light in a plurality of wavelength ranges, wherein the plurality of light sources are activated by a sensor, configured to determine a proximity of the device to a patient, to control an application of a voltage to selected one of the plurality of light sources for a predetermined time period.

The skin therapy device combines the mechanical stimulation and cleansing in the form of vibration with optical stimulation from LEDs. The device combines these two elements without sacrificing the effectiveness of either the mechanical cleansing/stimulation or optical stimulation by passing the light through the mechanical elements that are in contact with the skin. The light from the LEDs does not pass around the mechanical elements, such as around opaque brush fibers, but passes through the mechanical elements.

A dryer stand including a side cover having a through hole through which air is introduced and discharged, a seat provided above the side cover and allowing a dryer to be positioned thereon and an air purifier disposed in an inner space defined by the side cover, wherein the air purifier includes a fan for generating an air flow, and a filter disposed in a flow path of air flowing by the fan to dry a target object.

A laser device for skin treatment, includes: a laser generating unit including one or a plurality of diode lasers configured to generate a diode laser pulse, one or a plurality of diode laser drivers each arranged to correspond to the diode laser and configured to vary diode laser pulses generated from the diode laser into pulses having different durations, a laser amplifying unit configured to amplify the pulse transmitted from the diode laser generating unit, and a controller configured to control the diode laser generating unit and the laser amplifying unit to control a wavelength and intensity of a laser output from the laser amplifying unit.

A method, system and computer-readable medium of utilizing artificial lighting regulate a circadian clock of a human. By utilizing light emitting diodes (LEDs) that emit wavelengths associated with human opsin absorption spectra, a device may stimulate opsins in the human. For example, the device may replicate normal sunlight (e.g., based on season or time of day) by emitting light that changes in rhythmic intensity or spectral modulation.

A photodynamic therapy (PDT) apparatus and method are disclosed. The PDT apparatus includes a light flap that includes a plurality of light emitting devices wherein each of the light emitting devices has a plurality of operating states. The plurality of operating states are used to train a neural network model capable of producing a treatment irradiance profile. The method includes using an image of an area of interest for targeted treatment of PDT wherein the image is used an input to the trained neural network model. The neural network model produces a plurality of optimized feature states and the apparatus in turn produces a treatment irradiance profile closely matching the area of interest.

Wearable apparatus for the treatment of mastitis, the apparatus comprising a mammary gland wearable comprising an array of light source elements thereon emitting electromagnetic radiation having a wavelength in the range of 380-1050 nm, a power supply coupled to the array of light source elements, the wearable configured to be worn against a mammary gland in use wherein the array of light source elements emit the radiation which penetrates epidermis of the mammary gland for the treatment of mastitis.

A method includes providing a pixelated surface, providing at least one sensor configured to track movement of at least one eye of a user relative to the surface, detecting one or more portions of the surface based on the tracked movement and adjusting one or more properties in relation to the one or more detected portions such that a dosing of one of cyan and long-red, near-infrared (NIR) illumination is provided, while the user is gazing at the one or more portions.

A wearable for providing light therapy to a wearer includes at least one fabric panel having an inner surface that when the wearable is worn is configured to face a wearer's skin and at least one side-emitting optical fiber affixed to the inner surface. The side-emitting optical fiber is optically connectable with an optical fiber light source and configured to project light having a therapeutic wavelength toward a wearer of the wearable. When affixed to the fabric panel, the side-emitting optical fiber can have a length in meters based on the optical power launched into the side-emitting optical fiber and the average attenuation of the side-emitting optical fiber.