Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.

Systems for enabling delivery of very high peak power laser pulses through optical fibers for use in ablation procedures preferably in contact mode. Such lasers advantageously emit at 355 nm wavelength. Other systems enable selective removal of undesired tissue within a blood vessel, while minimizing the risk of damaging the blood vessel itself, based on the use of the ablative properties of short laser pulses of 320 to 400 nm laser wavelength, with selected parameters of the mechanical walls of the tubes constituting the catheter, of the laser fluence and of the force that is applied by the catheter on the tissues. Additionally, a novel method of calibrating such catheters is disclosed, which also enables real time monitoring of the ablation process. Additionally, novel methods of protecting the fibers exit facets are disclosed.

A sexual stimulation method which may comprise a plurality of light sources for photostimulation of the vagina; one or more vibrators for mechanical stimulation of an area of the vagina; a handle; a controller and programmable memory for containing non-transitory instructions for modes of operation and driving the light sources and vibrators of the invention; a vaginal finger; a handle for ease of use; a keypad for user entry of commands; and a charging or programming port. The invention may also comprise sensors that sense physiologic parameters of a user and adjust sexual stimulation parameters to achieve a desired sexual stimulation effect. Blood oxygen level, temperature, pulse rate and muscle electrical activity may be sensed. The invention also may comprise a flexible covering that provides smooth sliding engagement with an area of the vagina of a user.

An irradiation device for insertion into an orifice of the body for providing photodynamic therapy or diagnosis comprises: a housing 1, 21, 31, 51, 61, 71 adapted to be fully inserted and secured in the orifice, the housing 1, 21, 31, 51, 61, 71 enclosing an LED lamp system 5, 25, 35, 45, 54, 62, 72 and a power source 41, 68, 78, for powering the LED lamp system 5, 25, 35, 45, 54, 62, 72, wherein the device is independently operational while located within the orifice.

A device for treating the vaginal canal by a laser beam. The device for treating the vaginal canal includes a retractor for the wall of the vaginal canal, associated with a scanning system for scanning the laser beam towards the wall by means of a pyramidal mirror for laser beam reflection.

Systems and method relate to administering phototherapy. A device includes a hollow structure having at least a first open end. The hollow structure includes a rotatable member, one or more coherent light generators, and, for each coherent light generator, one or more lenses or mirrors optically connected to the coherent light generator and configured to alter at least one aspect of a beam of coherent light. The device further includes a processing circuit including a processor and a memory storing instructions. The instructions, when executed by the processor, cause the processor to accept an input from an operator and generate one or more beams of coherent light according to a plurality of settings configured to produce a therapeutic effect at a targeted treatment site. Additionally, the rotatable member is configured to be rotated to direct the one or more beams of coherent light to the targeted treatment site.

A device for providing fractional treatment of a body orifice includes a source of fractionated energy and a source of electrical muscle (EMS) energy. A programmed controller controls the application of fractionated and/or EMS energy. A probe is inserted by its distal end into the body orifice. The source of fractionated energy is positioned for transmitting fractionated energy from the source of fractionated energy through the probe to tissue in the vicinity around the body orifice; and, the source of EMS is positioned for transmitting EMS energy from the source of EMS energy through the probe to tissue in the vicinity around the body orifice. The programmed controller is configured to control the activation of fractionated energy and EMS energy one of simultaneously or sequentially.

The disclosed technology relates to a system for delivering UV-A/B light with a catheter to treat infectious or inflammatory disorders in a patient. While UV light in the UV-C range has traditionally been used to treat skin disorders and for focused ablation of plaques in the arteries and other targeted internal uses, it has not been developed for broader infection, inflammation or neoplasia treatment inside the human body. Here, the inventor(s) developed a system for emission of therapeutic doses of UV light via a catheter, capsule, endoscope, tube or port that can be used to manage internal infections and inflammatory conditions inside a patient.

This is a device and method for treating eight kinds of cancer with ultraviolet radiation. The cancers include ovarian, urinary (including bladder), melanoma, uterine, adult leukemia, lymphoma (Non-Hodgkin's), lung and prostate. The main claim is that people with these cancers treated with this device and method will live longer than people not treated in this way. The device gives off ultraviolet radiation whose energy level in the ultraviolet B range is three watts per square meter. The method entails exposure to the device for twenty minutes, three times a week on non-consecutive days. The idea that exposure to ultraviolet that is intense enough might increase the lifespan of people with these cancers comes from an analysis of US state cancer death rates. The more intense the ultraviolet reaching the ground, the fewer people die.

Systems for enabling delivery of very high peak power laser pulses through optical fibers for use in ablation procedures preferably in contact mode. Such lasers advantageously emit at 355 nm wavelength. Other systems enable selective removal of undesired tissue within a blood vessel, while minimizing the risk of damaging the blood vessel itself, based on the use of the ablative properties of short laser pulses of 320 to 400 nm laser wavelength, with selected parameters of the mechanical walls of the tubes constituting the catheter, of the laser fluence and of the force that is applied by the catheter on the tissues. Additionally, a novel method of calibrating such catheters is disclosed, which also enables real time monitoring of the ablation process. Additionally, novel methods of protecting the fibers exit facets are disclosed.