Battery powered light therapy systems capable of delivering 2-10 Joules per cm. sq. of light energy to a target treatment zone covering more than 700 sq. cm. of body surface area such that the light penetrates to a depth of 2 to 8 mm below a skin surface of the target treatment zone.

Apparatus and methods of controlled therapeutic modulation of an immune response by an immune system of a patient. UV radiation is applied to the skin of a patient for a predetermined time period or dose. The application of UV radiation is repeated for the predetermined time or dose or for a modified predetermined time period or dose based on patient feedback after applying for the predetermined time period or dose, multiple times, wherein each repetition is performed after a predetermined rest period has passed. The patient is tested after at least one session of application of UV radiation and levels of one or more indicators read by the test are compared to levels that were established as baseline levels from a test taken before the initial application of UV radiation. The treatments are discontinued when a predetermined differential threshold between retesting levels and baseline levels in at least one indicator has been met, or for a predetermined number of times, whichever occurs first.

An unattended approach can increase the reproducibility and safety of the treatment as the chance of over/under treating of a certain area is significantly decreased. On the other hand, unattended treatment of uneven or rugged areas can be challenging in terms of maintaining proper distance or contact with the treated tissue, mostly on areas which tend to differ from patient to patient (e.g. facial area). Delivering energy via a system of active elements embedded in a flexible pad adhesively attached to the skin offers a possible solution. The unattended approach may include delivering of multiple energies to enhance a visual appearance.

A pain relief device and process or system to aid in the resolution of or otherwise treat pain in a body of a human or animal including at least one layer of PVDF film. An EL platform light therapy device is described which includes a layer of PVDF film and may also include a vibration element as well as at least one noise generator. An advanced modulated multi-mode red light device is also described here having an EL inverter (which can be sound generated), an EL panel (which can be sound generated), a magnetic strip field modulation, a double stick tape field distribution, a PVDF or tri-polymer resonance drive, and a three layer red filter wave generator. Shoe insert uses are also described along with alternative devices with EL tape as another improvement used in various alternatives, which may also include an inverter.

An infant treatment device includes a light source and a blanket. When the treatment device is configured to warm an infant, a laser diode is used to provide warming light. The warming light passes along an optic cable having a plurality of optic fibers each having a fiber ending. The fiber endings are spaced along is diffuser. The diffuser is designed to spread the warming light to create multiple heating zones. A control circuit is used to control the operation of the laser diode. The treatment device is designed such that the light source and blanket can be separated and connected when desired such that the light source can be used with more than one blanket. In another embodiment, the light source can include a diode design for use in phototherapy treatment.

The invention concerns a device 10 for illuminating an object 12 with a controlled light intensity, the light intensity being controlled when the light intensity fulfills a plurality of conditions to be fulfilled, the plurality of conditions comprising a condition relative to the intensity at a given time and a condition relative to the dose during a period of time.

A method for treating autism. Light energy is applied externally to a patient's scalp on the skull near the frontal lobes. Optionally the light is also applied to the temporal lobes and the base of the brain. The treatment can be enhanced by activating the cranial nerves while the light is applied. In a preferred embodiment the applied light is in the red range and more preferably about of 635 nm±10 nm. In a preferred embodiment, the applied light energy is applied with a pulse frequency or frequencies of 8 Hz, 53 Hz, 73 Hz and 101 Hz. The light can be emitted from the same light emitter or from multiple emitters. Preferably the light is laser light and is emitted as a line from a hand-held laser device, and the line is waved manually across a person's skull in the desired area in a continuous, sweeping manner.

Disclosed are methods and devices suitable for transdermally killing adipocytes in a subcutaneous fat layer of a human subject.

An applicator for intraoperative radiotherapy with low-energy X-ray radiation includes an applicator body, an air-permeable outer surface with a circumferential outer face and with a distal end, a receiving device which is arranged at a proximal end and with which the applicator can be secured to an X-ray irradiation device, and an inner recess which has an opening at the proximal end and into which an X-ray radiation source is insertable. The applicator has a solid porous structure on its outer surface which provides the air-permeable outer surface with a rigid shape. The solid porous structure forms a continuous air-permeable channel structure which is connected in an air-conducting manner to the proximal end of the applicator.

A system for treatment of wounds consists of a treatment housing, a fluid delivery mechanism for supplying debridement fluids to the wound treatment area, an evacuation mechanism for evacuation of debris from the treatment chamber. A handheld device is connected to the treatment housing, wherein its interior accommodates a laser source, a scanning device, an image recording device and at least one sensor/detector, a control unit having a microprocessor for controlling operation of the system. The sensor detects concentration of various substances in the wound, and the microprocessor analyzes data obtained by the sensor and generates signals to adjust parameters of the laser, the liquid dispensing nozzles and the suction outlet to optimize removal of necrotic tissue so as to ultimately to promote wound healing.