Modulated light therapy devices for treatment of dermatological disorders of the scalp are provided. An exemplary device includes a flexible printed circuit board (FPCB) supporting at least one light emitting device having an emitter height. The FPCB includes multiple interconnected panels and bending regions defined in and between at least some of the interconnected panels as to allow the FPCB to be configured in a concave shape to cover at least a portion of a cranial vertex of the patient. At least one light-transmissive layer proximate to the FPCB is configured to transmit (e.g., incoherent) light emissions generated by at least one light emitting device. At least one standoff is configured to be arranged between the FPCB and the scalp of the patient, wherein the at least one standoff includes a standoff height that exceeds the emitter height.

The present disclosure provides a gantry for an X-ray system. The gantry may include a base section, a lifting section, and a swing section. The base section may be configured to move. A first end of the lifting section may be connected to the base section. A first end of the swing section may be rotatably connected to a second end of the lifting section. A radiation assembly may be disposed on a second end of the swing section.

A phototherapy body roller which includes a rotatable outer casing having at least one transparent portion. The phototherapy body roller can perform LED light therapy while using as a body roller for self-exercise, stretching, fascia and relieve fatigue and relax muscle groups. With a balancing device, the light source is always facing the upper part of the phototherapy body roller, which saves energy and does not cause light pollution, and is environmentally friendly.

A light therapy device mounting system may include an elongate pole comprising a plurality of holes, a first portion, a second portion, and a coupler configured to couple the first portion and the second portion. In some embodiments, the system includes a slider mount slidably coupled to the elongate pole via at least one hole of the plurality of holes, a top bracket slidably coupled to the first portion of the elongate pole, and a bottom bracket slidably coupled to the second portion of the elongate pole. The top bracket may include a top hook for receiving a top portion of a door, and the bottom bracket may include a bottom hook for receiving a bottom portion of the door.

A hands-free LED device for the treatment of wrinkles and acne, or hair loss, includes a curved housing. Rigid areas contain the LED bulbs. The LED bulbs are interspaced therebetween the flexible areas; such that between each of the rigid LED bulb areas is a flexible area. The rigid LED bulb areas are between the flexible areas. A leg is provided on opposite sides of the housing, The legs being wider at the top of each leg and narrower at the bottom. The number of LED bulbs at each wavelength for treatment of wrinkles are: 126 LED bulbs of 605 nm; 210 LED bulbs of 630 nm, 126 LED bulbs of 660 nm, and 26 LED bulbs of 850 nm. The number of LED bulbs at each wavelength for treatment of acne are 280 LED bulbs at 415 nm and 210 LED bulbs of 630 nm. Hair loss uses 500-700 LED bulbs at 630 nm.

A surgical site infection management lighting system that is effective and safe for human use to reduce or eliminate surgical site infections. The system provides multiple focused electromagnetic radiation frequencies at minimal energy levels for surgical and medical procedures that kills pathogens with electromagnetic radiation sources. The system includes an aiming laser, a distance sensor, a camera for providing images of the surgical site, and a motion sensor for providing control parameters. Fused silica lenses are utilized to focus the visible light for high illumination and selected electromagnetic radiation frequencies at minimal energy levels that are lethal to pathogens. The lighting system can be associated with an articulable arm, a mobile base stand, a handheld unit or a head-mounted unit.

A surgical site infection management lighting system that is effective and safe for human use to reduce or eliminate surgical site infections. The system provides multiple focused electromagnetic radiation frequencies at minimal energy levels for surgical and medical procedures that kills pathogens with electromagnetic radiation sources. The system includes an aiming laser, a distance sensor, a camera for providing images of the surgical site, and a motion sensor for providing control parameters. Fused silica lenses are utilized to focus the visible light for high illumination and selected electromagnetic radiation frequencies at minimal energy levels that are lethal to pathogens. The lighting system can be associated with an articulable arm, a mobile base stand, a handheld unit or a head-mounted unit.

An apparatus for laser therapy comprises a frame on which a plurality of lasers slide at several wavelengths in motorized and automated manner for applying the laser on and through the skin and mucous membranes of a patient. The frame is also motorized, allowing installation on the patient without moving the patient from bed. The apparatus is programmed to determine treatment autonomously on the basis of parameters determined by the apparatus during pretreatment and to vary treatment parameters in real time for treatment optimization and safety purposes.

The present invention provides a photo-therapy device and its use for treatment of skin conditions such as rashes or similar dermatological conditions that are exhibited by Grover's disease or other diseases which are associated or co-existent with Grover's disease. The treatment includes exposure of the subject's affected skin and preferably the entire body with blue LED light to improve skin status by stimulating body's immune system to reduce itching, blotchiness and skin discomfort.

A surgical site infection management lighting system that is effective and safe for human use to reduce or eliminate surgical site infections. The system provides multiple focused electromagnetic radiation frequencies at minimal energy levels for surgical and medical procedures that kills pathogens with electromagnetic radiation sources. The system includes an aiming laser, a distance sensor, a camera for providing images of the surgical site, and a motion sensor for providing control parameters. Fused silica lenses are utilized to focus the visible light for high illumination and selected electromagnetic radiation frequencies at minimal energy levels that are lethal to pathogens. The lighting system can be associated with an articulable arm, a mobile base stand, a handheld unit or a head-mounted unit.