Methods for selectively stimulating a plurality of light-responsive neurons in a sample are provided. Methods according to certain embodiments include irradiating a sample comprising a plurality of light-responsive neurons with a plurality of holographic images that are each configured to stimulate one or more light-responsive neurons in the sample, wherein the holographic images are created by light projection system that includes a plurality of light sources; a plurality of optical adjustment components; a plurality of spatial light modulators; a controller; a processor; and a computer-readable medium comprising instructions that, when executed by the processor, cause the controller to operate the light sources, optical adjustment components and spatial light modulators to generate and display a plurality of holographic images; direct each of the holographic images to a projection location; and project the holographic images onto the sample at a rate greater than 1 kHz. Light projection systems for irradiating a sample having light-responsive neurons with holographic images are also described.

A wearable device that selectively reflects biophotons emitted naturally from the user's body back into the body, achieving beneficial health effects similar to low-level laser therapy without requiring an external laser device. Illustrative wavelengths that may be reflected may include 550 nm, 630 nm, 632 nm, 660 nm, 694 nm, 810 nm, and 980 nm. Radiation of wavelength 810 nm in particular has been shown to affect mitochondrial energy production. The device may be worn for example as a bracelet or pendant. Internal components may include one or more filters to select the desired wavelengths, and a parabolic mirror to reflect these selected wavelengths back into the body. Some embodiments may also include a polarizer so that reflected waves are polarized.

A pain relief device and method or system to aid in the resolution of pain in a body including at least one layer of PVDF film and at least one other layer for directional purposes, as well as a polarizing layer. The device can be packaged in various ways. Also described is a device that uses a combination of LED bulbs, polymer based materials and a near field accelerator to provide pain relief.

A stimulation system includes an energy source, an electronics unit with a controller, and an actuator that is coupled with the electronics unit and/or the energy source. The actuator emits electromagnetic waves for stimulation of genetically manipulated tissue. The electronics unit is disposed in a housing. The stimulation system is configured for at least temporary implantation in a human or animal body. The controller controls the stimulation of tissue in the body by way of the electromagnetic waves emitted by the actuator. A selector of the stimulation system selects the area of the said tissue for stimulation. The selector includes a masking device for masking certain areas of the tissue, so that an intensity of the stimulation for the masked areas is reduced or equal to zero.

A method is provided for performing electromagnetic radiation therapy on a subject. The method comprises providing a device which emits electromagnetic radiation, wherein the electromagnetic radiation includes a first portion that oscillates between at least first and second distinct states, and a second non-oscillatory portion; and illuminating the subject with the electromagnetic radiation.

The invention provides a tip that permits therapeutic electromagnetic energy systems to deliver multiple beams of overlapping, partially overlapping, and non-overlapping electromagnetic energy in the treatment of tissue disorders and conditions. The tip finds use with laser systems, intense pulsed light systems, LED systems, radiofrequency systems, and microwave systems.

The present disclosure generally relates to fluorescent light energy system and to methods of using such systems in the modulation of inflammatory response, in particular in inflammatory response associated with healing, and for modulation of a treatment regimen for promoting healing of a wound or a condition of the skin and/or soft tissue.

An implantable device for implantation in a human body or animal body. The device includes an energy source, an energy storage device, and an electronics unit. Further, an actuator is coupled with the energy storage device and it is configured to emit electromagnetic waves by discharging the energy storage device.

The device intended for the stimulation of the brain by laser circularly or elliptically polarized light consists of the main unit (1) equipped in the front part with control buttons (3), and a display (2) from which at least one laser diode (16, 17, 18, 19) is supplied. At least one nasal applicator (8, 9, 10, 11) or nasal applicators (38, 39) suitably equipped in the rear part with laser diodes (40, 41) can be connected to the upper part of the main unit (1). The main unit (1) is supplied in its lower part through a connector (33), and the programmable control unit (51) with built-in battery (56) and autonomous processor (57) is an integral part of the device.

A light emitting element display device can be used for light therapy. The device includes: a display panel including a plurality of light emitting elements; a retarder plate configured to convert light emitted from the plurality of light emitting elements into circularly polarized light; and a selective polarizer configured to selectively convert light supplied from the retarder plate into linearly polarized light or allow penetration of the light.