A self-administrable system for improving athletic performance of a subject, the said system comprising: configured irradiation units comprising a first, a second, a third and a fourth configured irradiation unit, wherein: (A) said first configured irradiation unit is positioned to direct light energy to a first region of the brain comprising the OZ position of the primary visual cortex; (B) said second configured irradiation unit is positioned to direct light energy to a second region of the brain comprising the CZ position of the primary sensorimotor cortex; (C) said third configured irradiation unit is positioned to direct light energy to a third region of the brain comprising the C3 position of the primary sensorimotor cortex; and (D) said fourth configured irradiation unit is positioned to direct light energy to a fourth region of the brain comprising the C4 position of the primary sensorimotor cortex.

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.

The invention is method comprising the use of an external photic stimulator treat and/or prevent pain in a subject, such as migraine headache, dental pain, and/or other sources of cranial pain. The presently disclosed method includes treating the pain externally through the cheek, over the zygomatic arch and area of the trigeminal ganglion. The external photic stimulation is believed to inhibit excessive firing of trigeminal ganglion circuits, preventing the excessive expression of calcitonin gene-related peptides and/or other inflammatory manifestations of the pain.

The present invention is directed to the use of gold nanoparticles to enable vision in the visually impaired. Retinal neurons remain functional despite photoreceptor degeneration. These neurons can be made light-sensitive to produce action potentials, by gold nanoparticles conjugated to high-avidity ligands for a variety of cellular targets. Once bound to a neuron, these particles transduce millisecond pulses of light into heat, which changes membrane capacitance, depolarizing the cell and eliciting action potentials. The technology described herein along with a camera and decoder can be used to aid the visually impaired by stimulating cells to send the appropriate messages to the visual cortex.

A method comprising detecting an epileptic event in a patient; applying an electrical therapy to a first target area in at least one of a brain region or a cranial nerve of said patient in response to said detecting; receiving a body signal responsive to the electrical therapy, wherein said body signal is selected from an autonomic signal, a neurologic signal, a metabolic signal, an endocrine signal, or a tissue stress marker signal; determining whether said body signal indicates that said electrical therapy has an efficacious effect; and terminating the application of said electrical therapy if the response indicates that the electrical therapy has an efficacious effect. An apparatus capable of performing the method. A non-transitive, computer-readable storage device for storing data that when executed by a processor, perform the method.

The invention relates to an implantable illuminating device intended to be implanted in a living being with a view to locally illuminating a region of said living being, said device including a probe, said architecture being characterized in that it is produced from: an optical fiber that comprises a core, a cladding and a protective coating, a jacket, said architecture including: a plurality of successive segments along its longitudinal axis, each segment having a section containing a plurality of concentrically superposed layers, in which each segment includes a section containing a plurality of superposed layers that is different from the section of each adjacent segment.

Systems are provided for compact implantable multi-site optical stimulation and/or combined electrical and optical stimulation of spinal cord, brain, dorsal root ganglion, peripheral nerve, or other tissue. High-power LEDs or other light-emitting elements are provided at the site of stimulation, avoiding complex fiber optics or other means for coupling light from a distant laser along a stimulator to target tissue. Colocation of electrical stimulation contacts and light emitters allows the same tissue to be stimulated electrically and optically, at the same time or according to an alternating or other pattern of combined electrical and optical stimulation. These stimulators can be used as part of permanently implanted systems and/or as part of temporary, percutaneous stimulator systems. Optical and/or combined electrical and optical stimulation can be provided for pain relief, to encourage wound healing in nervous or non-nervous tissue, or to provide other clinical benefits.

A method for treating or preventing nociceptive pain by administering an ethanol extract of Brazilian green propolis and compositions comprising this extract.

A transcranial stimulator includes a main body formed in a shape that covers part or all of a head surrounding a skull, a light emission module configured in the main body to transmit light energy to a brain, and a controller configured to control an operation of the light emission module, wherein the light emission module includes a first optical device emitting light in a wavelength band of 630 nm to 680 nm toward the skull and a second optical device emitting light in a wavelength band of 780 nm to 990 nm toward the skull.

The present invention provides a myopia-preventing high intensity illumination apparatus for illuminating eyeballs and surrounding tissues via light that penetrating periorbital skin, subcutaneous tissue, then pass through cornea, iris, uvea, sclera and choroid, comprising a light source and a controller electrically connects to the light source, wherein the light source is projects to and illuminates on skin surrounding eyes, penetrates and enters subcutaneous tissue, iris, ciliary body and lens, as well as penetrates peripheral tissues of eyeballs, sclera, uvea, choroid and retinal pigment epithelium, and indirectly enters into vitreous and retina, so as to prevent myopia from further worsening by inducing microscopic biochemical reactions.