A negative-pressure cup structure includes a negative-pressure cup body and a light therapy module. The negative-pressure cup body has a rim. The light therapy module is received in the negative-pressure cup body and includes a circuit board and multiple light-emitting diodes (LEDs) mounted on the circuit board and irradiating corresponding to the rim. Therefore, the negative-pressure cup structure further has functions of light therapy and skin care.

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.

The present disclosure provides a method for treating ischemic stroke by illuminating a skin surface to reduce free radical generation in subsurface target tissues (e.g., the brain following an ischemic event). The method utilizes a waveguide that receives light from a light source. The waveguide is placed adjacent a skin surface of a patient and the waveguide emits light that passes through the skin surface and illuminates a subsurface target tissue. The waveguide includes light-extracting features configured to emit light at a target angle relative to the surface tissue. That is, the light-extracting features alter a trajectory of light emitted by the waveguide, such that a larger percentage of light emitted by the light guide has an angle that is +/−25 degrees off of a center line of the light guide.

An in vivo optical biopsy applicator of the vaginal wall for treatment planning, monitoring, and imaging guided therapy is described herein. The applicator may include an imaging probe operatively coupled to a laser ablation device. The applicator allows for non-invasive optical tissue monitoring in order to define pre- and post menopausal parameters, pre- and post-treatment microscopic changes, and offers an objective scientific tool in order to compare currently available medical, non-medicated, and energy-based treatment protocols.

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 ring has an open top side and side walls that circumscribe a central region for receiving a phototherapy subject. The side walls include a work surface that is configured to receive visible light through the open top side and reflect the visible light toward the central region for phototherapy. The work surface includes a first surface that is a diffuse reflector and a second surface that is a specular reflector.

The invention provides an IPG and lead configuration which boasts both a novel optical folding assembly and an optical processor assembly which offers the advantages of low heat generation and compact package size. The surgical leads provided offer additional advantages over the prior art including integral formation of optical and electrical components in a compact size. The invention further provides processing advantages which measure and compensate for degradation in the optical system over time.

The invention provides an EPG system and lead configuration which boasts both a novel optical folding assembly and compact package size. The percutaneous leads provided offer additional advantages over the prior art including integral formation of optical and electrical components in a compact size.

The invention relates to a device and a method for UV antisepsis, in particular for intracorporeal in vivo UV antisepsis on the human and animal body in the event of colonization with multiresistant pathogens (MRPs) such as methicillin-resistant Staphylococcus aureus (MRSA) and Staphylococcus epidermidis (MRSE). The device comprises a light emitting diode chip, LED chip, configured to emit radiation in the UVC spectral range, wherein the LED chip forms a light emitting diode, LED, with a package; a spectral filter element set up to limit the radiation emitted by the LED chip substantially to wavelengths below 235 nm; and an optical element for directional emission of the radiation emitted by the LED.

A treatment apparatus and a treatment method capable of minimally invasively specifying a lesion extent and checking progress of treatment while performing the treatment for destroying tumor cells. The treatment apparatus that detects and destroys a tumor cell by irradiating an antibody-photosensitive substance adsorbed on a tumor cell membrane with excitation light includes: an elongated tubular shaft having optical transparency; a light irradiation unit configured to emit the excitation light of the antibody-photosensitive substance from an inside of the shaft in a side direction perpendicular to an axial direction of the shaft; and a side direction fluorescence detection unit configured to detect, from the side direction perpendicular to the axial direction of the shaft, fluorescence emitted by the excited antibody-photosensitive substance, and movable in the axial direction with respect to the shaft.