Abstract: A laser beam delivery system and a method for ablating tissue, e.g., for reshaping a cornea of an eye is provided. The laser beam delivery system directs a laser beam on the tissue to be ablated in a predetermined pattern according to the principles of the present invention. The laser beam is incrementally scanned to subsequent laser beam ablation points or spots in the ablation zone in accordance with the predetermined pattern. The laser beam ablates tissue at the spots in the predetermined pattern in an arranged order. In one aspect of the present invention, the radii of the predetermined pattern is varied between scans of the laser beam until a predetermined reshaping is achieved by ablation. In another aspect of the present invention, every other, every third, every fourth, etc. laser beam spot in a predetermined pattern is ablated, and the scans are repeated for unablated points until all spots are ablated.

Abstract: A cooling handpiece and method for use in therapeutic, cosmetic or aesthetic, diagnostic, exploratory, interventional or other medical procedures, the handpiece for use in conjunction with a controllable energy source such as coherent light, non-coherent light or laser light, ultrasound energy, radio frequency energy and other types of electromagnetic and mechanical energy, the handpiece comprising a main body portion adapted for directing the energy to target tissue, the main body portion further adapted for receiving a removable reservoir containing coolant fluid, the reservoir having an attachment means for releasable attachment of the reservoir to the handpiece, and the handpiece having a controllable valve for delivery of a portion of the coolant fluid to the target tissue.

Abstract: A phototherapy device has a phototherapy handpiece, an optical fiber attached to the phototherapy handpiece, and a laser phototherapy light source. The phototherapy handpiece, has a handpiece body that defines an interior region and has an outer surface which defines a foot of the phototherapy handpiece, an optical fiber drive assembly disposed at least partially within the interior region of the handpiece body has an optical fiber attachment portion that is movable relative to the handpiece body. The optical fiber drive assembly includes a driving component which causes the attachment portion to move relative to the handpiece body, and a damping component which resists the motion of the optical fiber attachment portion such that the optical fiber attachment portion attains a substantially constant speed motion relative to the handpiece body.

Abstract: A medical appliance for plugging a hole in a nasal septum that includes a central member that has an irregular cross section where its major axis is longer than its minor axis and where the appliance is sized such that the length of the central portion major axis is the same or slightly shorter than a major axis of an irregularly shaped nasal septum hole, and with opposing disks secured across the opposite central member opposite ends that each have a like diameter that is greater than the length of the nasal septum hole major axis. The medical appliance is formed as a single unit from a flexible material to human body compatible material where at least one of the disks can be folded upon itself and will return to its original shape when released.

Abstract: A laser-powered fiberoptic heating element comprises a crystalline optic fiber fusion bonded to a crystalline heat-generating tip section.

Abstract: An endarterectomy surgical instrument and procedure for removing plaque from a selected length of an artery and surgical instruments for cutting plaque build-ups. The endarterectomy surgical instrument has means for developing an image of the surgical site so that probing of the artery can be observed without requiring opening the artery along the selected length over which the plaque is removed.

Abstract: A laser treatment method and apparatus is provided which facilitates the grafting of hairs on the skin of a living human. The methodology involves a carefully designed treatment protocol utilizing a modified optical apparatus. The apparatus is a modified erbium-based laser system, designed for optimal therapeutic selectivity.

Abstract: A multizone, multipass photorefractive keratectomy (MP-PRK) technique to treat 315 eyes with the 193-nm VISX 20/20 excimer laser. The procedure includes making multipass ablations that increase in ablative depth to create as step-wise ablation of the corneal to the predetermined dioptric correction. It also includes making multizone ablations that create of variable widths that result in a predetermined ablative depth with smooth transition edges. A combination of multizone, multipass ablations are used to treat astigmatism. New algorithms effectively treat the full range of myopia, including low myopic eyes (-1 to -6 D), moderately myopic eyes (-6 to -10 D); and highly myopic eyes (-10 to -27 D).

Abstract: A cautery instrument having a first predetermined region for contact with flesh or tissue, the instrument being coated with flesh or tissue, the instrument being coated over at least a portion of the predetermined region by a coating consisting essentially of diamond of a thickness permitting transmission of radio-frequency electrical energy from the first predetermined region through the diamond coating to flesh or tissue by capactive coupling.

Abstract: A distributed system is provided for controlling excimer laser eye surgery. A topography system, a computer system, and an excimer laser eye surgery system are provided, with the topography system providing profile data to the computer system, and the computer system calculating and providing an ablation shot pattern to the excimer laser eye surgery system. At least the computer system and the excimer laser eye surgery system are located remotely, and the excimer laser eye surgery system can receive data from more than one computer system and more than one topography system. This allows for better utilization of resources.

Abstract: A system is provided to position an energy delivery handpiece a desired distance from a treatment site while at the same time protecting the handpiece, and energy transmitting optical fibers, from soiling due to tissue debris. The system includes one or more energy transmissive members that are formed from a material that allows the passage of electromagnetic (e.g., laser) energy therethrough. The energy transmissive members can be removably and replaceably attachable to one end of a spacer member. An opposite end of the spacer member is mountable to the energy delivery handpiece. The energy transmissive member is effective protect the handpiece from tissue eruptions. In one embodiment the energy transmissive member also is effective to focus electromagnetic energy upon the treatment site.

Abstract: An apparatus for destroying residual lens epithelial cells. The apparatus includes a probe configured for insertion into the eye between the iris and the lens capsule. The probe is further configured to deliver energy therefrom to residual lens epithelial cells within the lens capsule in order to destroy them. The distal end of the probe is configured to allow a surgeon using the probe to reach all areas within the lens capsule to ensure that no epithelial cells remain alive after use of the probe.

Abstract: A long pulse alexandrite laser hair removal system is disclosed using light pulses of greater than 1 msec and fluences between 10 and 50 J/cm.sup.2. The use of an alexandrite laser allows good penetration while still achieving an acceptable combination of hemoglobin and melanin absorption. The use an index-matching application on the skin sections to be treated is also described. This substance will be absorbed into the epidermal layer to provide better coupling of the laser light into the skin. Also, and most advantageously, it will reduce reflections at the epidermal-dermal junction, which can lead to the damage of the skin. Also a topical thermal or photochromic indicator is suggested since skin irradiation in the near-infrared generally does not produce any characteristic skin color change as is found when using pulsed dye lasers, for example.

Abstract: Apparatus and method for tracking the operation of a light beam, preferably a laser light beam, which operates to treat the skin of the patient. The apparatus includes plurality of markings in accordance with the light beam impinges on the locations to be treated. The apparatus including the plurality of markings may be a cooling apparatus which also cools the skin during the treatment.

Abstract: A laser is used to reopen the natural drainage passageways in the eye or to form new passageways to enable the drainage of the aqueous humor from the eye. In one procedure, an Er:YAG laser is used to ablate occluding tissue in Schlemm's canal. In another procedure, the Er:YAG laser is used to open occluded openings in the ciliary body. In yet another procedure, the Er:YAG laser is used to form a new passageway comprising a plurality of interconnected passageway segments from the exterior of the eye through the sclera to the anterior chamber to enable the drainage of the aqueous humor.

Abstract: An applicator probe (10) for applying a high-frequency electromagnetic energy flux to the skin through a conducting gel, the applicator probe having a non-conducting contact surface (14) which is applied to the skin. This surface includes a plurality of discrete electromagnetic emission points or areas (16) defined by parts of the turns of a coil (12) which is set back from the surface when the applicator probe is in use. The applicator probe according to the invention consists of a flexible sheet which is able to conform to the part of the body onto which it is applied. The flexible sheet includes a non-conductive lower internal portion (or "sole") and a non-conductive upper/external portion (or "back"). At least the lower portion is a sole (14) provided with a row of cavities and which forms the contact surface. The cavities contain the conducting gel which is applied to the skin. The generally flat turns of the coil are arranged in a sandwich configuration between the openwork sole (14) and the back.

Abstract: An improved non-coherent pulsed and colored light stimulation device used for therapeutic effects in living creatures. Pulsed/colored light is applied to local areas, or acupuncture macro or micro systems, by means of a small diameter optic fiber (10) housed in a pen-like handpiece (18) which makes application comfortable and precise. The light source is an adjustable rate strobe (4) with a housing attached to the front (6) which allows color gel slides (12) to be interchanged. The light passes through the slides (12) and through a length of jacketed flexible optic fiber (10) where it becomes visible again at the radiant tip (20) of the handpiece (18).

Abstract: A surgical laser handpiece comprising: an outer barrel having an inner chamber; an inner zoom barrel movable in said chamber relative to said outer barrel; at least a first lens device in said zoom barrel for propagating and focusing a laser beam; and a drive member externally accessible on said outer barrel for moving said zoom barrel with one hand relative to said outer barrel for varying the focus of the laser beam.

Abstract: A laser medical device for delivering energy to tissue to be treated. The device includes a laser energy transmitting conduit having a longitudinal axis, and has a proximal end for connection to a source of laser energy and a distal end from which laser energy transmitted by the conduit is emitted. A laser energy redirecting member is located adjacent the distal end of the conduit for redirecting the laser energy in a lateral direction with respect to the axis of the conduit, and a tissue contact member is provided adjacent the laser energy redirecting member. The tissue contact member has a transverse cross section of preselected shape and a longitudinal axis generally transverse to the axis of the conduit. The tissue contact member further has an input surface for receiving laser energy redirected by the laser energy redirecting member and transmitting the laser energy received from the laser energy redirecting member.

Abstract: A light delivery system for use in irradiating vascular tissue includes a balloon catheter with a working lumen for receiving an optical fiber therein and an inflation/flushing lumen adapted to receive a liquid at a proximal end and leading to a space defined within the balloon member attached to a distal end of the catheter. The balloon member has a pattern of holes or pores in the wall thereof through which the saline may flow when the balloon is inflated, causing any blood or other absorbing substances that may interfere with good radiant energy transmission to be flushed away from the treatment site.