A chamber providing controlled amounts and wavelengths of photonic IR and visible light within an internal space sized for at least one human being to exercise therein. The chamber includes at least one emitter system configured to emit FIR energy and at least one emitter system configured to emit at least MIR energy. The chamber includes at least one light emitting source configured to emit full spectrum visible light and/or a selected wavelength of visible light, and a control panel configured to control the amount, wavelengths and duration of FIR, MIR, and visible light within the chamber.

Systems and methods for providing phototherapy to infants use a LED-based phototherapy panel designed to fit in an X-ray cassette tray of an incubator.

A phototherapy treatment apparatus and methods are provided. In particular, the present disclosure provides a phototherapy treatment apparatus configured to diffusely transmit light emitted from a light source to a patient.

A phototherapy treatment apparatus and methods are provided. In particular, the present disclosure provides a phototherapy treatment apparatus configured to diffusely transmit light emitted from a light source to a patient.

A phototherapy treatment apparatus and methods are provided. In particular, the present disclosure provides a phototherapy treatment apparatus configured to diffusely transmit light emitted from a light source to a patient.

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 on 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.

An LED infrared irradiator includes an upper plate, a lower plate having a space for the user to lie down, a PC board disposed on the upper surface of the lower plate and having a size that can accommodate the entire body of the user, a handle part, a head part, a cover part, an oxygen generator, and a control unit attached to the upper side of the upper plate, wherein the power source of the lower plate consists of a chamber power source unit, a lower plate LED power source unit and a far-infrared heating element, and the power source of the upper plate consists of a upper plate LED power source, a upper plate UVC LED power source.

It is provided a photobiomodulation device (1) for cell regeneration of a subject (10) and comprising a support (2) including at least one emitter (3) configured to emit a light beam having a wavelength between 630 nm and 850 nm and defining an emission dose given by the product between light beam luminous intensity and light beam emission time, a control unit (4) operatively connected to the emitter (3), configured to allow a user at least to set the emission time and a predetermined dose, and configured to modulate the light intensity of the light beam in relation to the set emission time so that the emission dose corresponds to the predetermined dose, and acquisition means (5) operatively connected to the control unit (4) and configured to determine a distance between the emitter (3) and the subject (10) invested by the light beam, wherein the control unit (4) is further configured to modulate the light intensity of the light beam in relation to the acquired distance such that the emission dose corresponds to the predetermined dose.

A chamber providing controlled amounts and wavelengths of photonic IR and visible light within an internal space sized for at least one human being to exercise therein. The chamber includes at least one emitter system configured to emit FIR energy and at least one emitter system configured to emit at least MIR energy. The chamber includes at least one light emitting source configured to emit full spectrum visible light and/or a selected wavelength of visible light, and a control panel configured to control the amount, wavelengths and duration of FIR, MIR, and visible light within the chamber.

A photo-treatment device includes a treatment region that has a front side at which source radiation is to be emitted and an opposite, back side. A plurality of light guides are located beside the treatment region. The light guides capture excess radiation peripheral to the treatment region and redirect the excess radiation toward the back side of the treatment region.