In an apparatus and method for thermal cutting with a surgical laser probe, fiber optics convey laser light from a source to the surgery region. The laser beam is directed towards tissue for vaporizing the tissue. A bulbous tip member is coupled to the output end of the fiber optics. Vaporization of the tissue by the laser generates charred tissue particulates which naturally collect on the face of the bulbous tip member. The collected charred tissue absorbs reflected light energy from the laser vaporization of tissue. The absorbed energy heats the tip member which causes vaporization of proximate tissue.
The medical laser unit (1) includes at least one laser body (3) being made of laser material (4). A first type of a pump light source (11) is designed and arranged to continuously excite the laser material (4) and to generate continuous laser radiation (7). A second type of a pump light source (16) is designed and arranged to excite the laser material (4) by pulses and to generate pulsed laser radiation (7). A transmitting unit is designed and arranged to transmit the continuous laser radiation (7) and the pulsed laser radiation (7) to a surgical application site. More particularly, the medical laser unit (1) has two modes of operation, a first mode for cutting with continuous laser radiation (7) and a second mode for fragmenting with pulsed laser radiation (7) of short time and high power laser pulses.
A method of sterilizing women is provided wherein a flexible hysteroscope (10), having an operating channel (11), a fluid channel (12), and an optical channel terminating at a lens (13), is passed through the cervix C and uterus to a position adjacent the utero-tubal ostium. An elongated laser catheter (15) having a radially diffusing tip (16) and coupled to a laser generator is extended from the operating channel and through the utero-tubal ostium to a position within the fallopian tube. The laser generator is then energized so as to generate energy sufficient to cause the production of oxygen free radicals which cause necrosis and ultimate fibroses of the fallopian tube.
A method of sterilizing women is provided wherein a flexible hysteroscope (10), having an operating channel (11), a fluid channel (12), and an optical channel terminating at a lens (13), is passed through the cervix C and uterus to a position adjacent the utero-tubal ostium. An elongated laser catheter (15) having a radially diffusing contact tip (16) and coupled to a laser generator is extended from the operating channel and through the utero-tubal ostium to a position within the fallopian tube. The laser generator is then energized so as to generate energy sufficient to cause ablation of a portion of the fallopian tube which thereby causes necrosis and ultimate fibroses of the fallopian tube.
An apparatus and method of use are disclosed to treat and/or diagnose urological disorders. The non-implantable device includes a light source housed within a light source segment. The light source segment is of a sufficiently small size and configuration so that it can be inserted through the urethra and positioned adjacent the target site in the patient. Different types of light sources can be used to achieve a variety of energy levels and distributions useful in treating incontinence disorders. Both incoherent and coherent light sources may be used with the present invention. In addition, the light from the light source can be designed to be pulsed or continuous wave and may be in any suitable spectrum, including visible (such as white light) and infrared. The particular characteristics of the light emitted from the light source, such as wavelength, frequency, amplitude, etc., depend upon the particular treatment and procedure.
