A deep brain stimulation transparent electrode array and a neural signal detection method using the same are proposed. The deep brain stimulation transparent electrode array includes a biocompatible dielectric substrate, a plurality of electrode sites arranged on one side of the substrate, a plurality of electrically conductive contacts arranged on the other side of the substrate, and an interconnector extended from each electrode site so as to be connected to each contact. The deep brain stimulation transparent electrode array is capable of conducting deep brain electrical stimulation and brain wave detection while minimizing image distortion in magnetic resonance imaging, and accuracy of the deep brain electrical stimulation and the brain wave detection may be increased by enhancing ability to carry electric current and minimizing the image distortion in the magnetic resonance imaging.

An implantable medical instrument for use within a body includes a container that has an opening and holds a medicinal solution, and a soft portion that closes the opening. The medical instrument further includes a power receiver that receives power transmitted externally, and a light emitter that emits light by way of the power received by the power receiver. The light emitter includes at least one of a first light emitter that emits light having a center wavelength of 600 nm or more and 1100 nm or less, and a second light emitter that emits light having a center wavelength of 400 nm or more and 480 nm or less.

A photothermal treatment device includes: irradiation means that irradiates a lesion tissue in a body cavity with heating light; a thermo-endoscope including endoscopic imaging means that images the inside of the body cavity and thermographic imaging means that images a surface temperature of a tissue in the body cavity as a thermal image; and control means (control personal computer (PC)) that controls an output and an irradiation time of the irradiation means based on temperature information of the thermal image obtained from the thermographic imaging means.

An implantable light delivery device comprises: a core portion cladded in a cladding, the core portion comprising upconversion nano-particles (UCNPs) encapsulated in an encapsulation material. The implantable light delivery device may be used in treatments such as photodynamic therapy to provide an emission of light at a wavelength configured by the selection of UCNPs. The encapsulation material may comprise hydrogel and the cladding may comprise fluorinated ethylene propylene.

A treatment method and a treatment system capable of treating a tumor while checking a degree of destruction of tumor cells due to emission of light and improving a treatment effect. A treatment system configured to irradiate a photosensitive substance accumulated in a tumor cell of breast cancer with excitation light, and includes: an optical device including an optical fiber configured to propagate light between a proximal portion and a distal portion of the optical device, and including, at the distal portion, an irradiation unit configured to emit light outward, and a detection unit configured to detect external light. The distal portion of the optical device is configured to be inserted into a lactiferous duct from a lactiferous duct orifice.

Certain exemplary embodiments can provide an apparatus and method for generating at least one radiation. The exemplary apparatus and/or method can selectively kill and/or affect at least one bacteria. For example, a radiation source first arrangement can be provided which is configured to generate at least one radiation having one or more wavelengths provided in a range of about 190 nanometers (nm) to about 230 nm, and at least one second arrangement can be provided which is configured to prevent the at least one radiation from having any wavelength that is outside of the range.

Provided herein are biocompatible scaffolds engineered to convey growth stimulatory light to cells and augment their growth on the scaffolds both in vitro and in vivo. Also provide are methods of modifying biocompatible transparent waveguides to control delivery of light from the waveguide material.

Catheter tube capable of irradiating laser optimized in light radiation efficiency and distribution, used in photosensitization reaction treatment is provided by simple process. Catheter tubes provided to medical device inserted into a living body to irradiate target site for treatment or examination with a light to treat or examine the site. The tubes being formed of material optically having transparency, provided with insertion hole for light diffusing body, and one or more other holes different from the insertion hole, in a manner extending in longitudinal direction of catheter tubes. Inside the other holes, space is present adjacent to inner wall thereof, the inner wall forming optical interface between the material and gas phase or liquid phase in the space, which are different from each other in refractive index, to conjointly form reflection surface for adjusting radiation distribution of light emitted by light diffusing body.

A method of administering interstitial photodynamic therapy to a target region of a patient may include receiving information associated with the target region, an initial photosensitizer concentration, a plurality of initial photosensitizer photokinetic rate parameters, and a threshold treatment dose for a photosensitizer, the threshold treatment dose being a threshold photodynamic therapy-dose or a threshold reactive oxygen species dose. A location in the target region for inserting at least one interstitial treatment fiber to deliver the treatment light, and initial values for treatment light transmission is determined. Computational spatial elements are determined for the target region and for the location of emitting surfaces of the at least one interstitial treatment fiber, and a light fluence rate for delivering treatment light to each of the computational spatial elements. A treatment dose is determined based on the light fluence rate, the plurality of photosensitizer photokinetic rate parameters, and a photokinetic rate equation.

A treatment apparatus and a treatment method capable of effectively treating cancer including a cervix. The treatment apparatus includes: a main shaft including a distal portion and a proximal portion; an inflation portion disposed on a distal side of the main shaft and configured to be inflated by inflowing a fluid; a distal shaft protruding from the inflation portion toward the distal side; and at least one irradiation unit configured to emit excitation light of an antibody-photosensitive substance from the distal shaft and the inflation portion.