Abstract: An ophthalmic surgical hand piece comprises a driver coupled to a horn. The horn is coupled to a needle. An aspiration pump is integral with the hand piece and is located close to the needle. The aspiration pump comprises a motor coupled to a shaft. A removable cartridge comprises a length of flexible tubing held by a tubing holder. The length of flexible tubing is located between the shaft and the tubing holder. The removable cartridge comprises a section of an aspiration line.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A power supply for a thermokeratoplasty system. The power supply can be connected to an electrode and a return element that are both coupled to a cornea. The power supply can perform a test routine to determine whether the cornea is too “wet” or too “dry”.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A power supply for a thermokeratoplasty system. The power supply can be connected to an electrode and a return element that are both coupled to a cornea. The power supply can perform a test routine to determine whether the cornea is too “wet” or too “dry”.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A power supply for a thermokeratoplasty system. The power supply can be connected to an electrode and a return element that are both coupled to a cornea. The power supply can perform a test routine to determine whether the cornea is too “wet” or too “dry”.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A dental instrument includes a pneumatic pressure intensifier that supplies a handpiece having an orifice to generate a high velocity liquid jet. A pneumatic system includes valves to supply the pressure intensifier and control the output to the handpiece. A jet forming assembly includes an orifice mount in the handpiece, and a guide tube assembly secured to the orifice mount. The guide tube assembly is variably positioned to select the minimum distance from the jet orifice to the tissue target, so that the jet force may be controlled.

Abstract: A medical device that can emulsify tissue with a heated fluid. The device may include an active heating element that is located within an inner channel at a distal end of a cannula. The cannula is adapted to be inserted into tissue such as a cornea. The active heating element can provide heat to a fluid that flows through the inner channel. The heat can be transferred into a bolus of fluid that is periodically generated by a pump. The heated bolus is then directed onto tissue.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: A medical system that can direct energy onto a focal point located within a cornea. The system can vary the focal point of the energy through the cornea to create a column of denatured tissue within the cornea stroma layer. The denatured tissue modifies the visual acuity of the cornea.

Abstract: A dental instrument includes a pneumatic pressure intensifier that supplies a handpiece having an orifice to generate a high velocity liquid jet. A pneumatic system includes valves to supply the pressure intensifier and control the output to the handpiece. A jet forming assembly includes an orifice mount in the handpiece, and a guide tube assembly secured to the orifice mount. The guide tube assembly is variably positioned to select the minimum distance from the jet orifice to the tissue target, so that the jet force may be controlled.

Abstract: An apparatus for guiding a high speed liquid jet used in forming ophthalmic incisions includes an instrument body having an elongated rectangular portion and a tapered end portion. An applanation suction ring assembly is secured to the tapered end, and is provided with a stepped opening extending axially therethrough. A carriage assembly extends longitudinally within the instrument body, and a pair of high precision crossed roller slides join the carriage and body to permit lateral translation of the carriage. A micro-motor assembly secured within the body is joined to a pinion gear which engages a rack gear joined to the carriage to drive the carriage in lateral translation. The carriage includes a proximal connector for a high pressure fluid hose, and a jet nozzle assembly extending from the distal end. A plurality of guide members are provided, all having common structural features adapted to engage the stepped opening of the distal end of the instrument body.

Abstract: A thermokeratoplasty system and method for locally heating and reshaping a cornea in a manner that produces a minimal regression of the corneal correction. The system includes a probe that is coupled to a power source which can provide current at a predetermined power, frequency and time duration. The probe has a sharp tip that is inserted into the stroma of the cornea. The tip has an insulated stop that controls the depth of tip penetration. Current flows into the cornea through the probe tip to locally heat and denature the corneal tissue. The denatured tissue causes a subsequent shrinkage of the cornea. A pattern of denatured areas can be created around the cornea to correct the vision of the eye.

Abstract: An apparatus for guiding a high speed liquid jet used in forming ophthalmic incisions includes an instrument body having an elongated rectangular portion and a tapered end portion. A cylindrical housing is secured to the tapered end, and is provided with a stepped opening extending axially therethrough. A jet carrier includes a longitudinally extending body, and a pair of high precision crossed roller slides join the carrier and body to permit lateral translation of the jet carrier. A micro-motor assembly secured within the rectangular body portion is joined to a pinion gear which engages a rack gear joined to the jet carrier to drive the jet carrier in lateral translation. The jet carrier includes a proximal connector for a high pressure fluid hose, and a jet nozzle assembly extending from the distal end. A plurality of guide members are provided, all having common structural features adapted to engage the stepped opening of the distal end of the instrument body.

Abstract: A guillotine surgical cutter. The cutter includes an inner sleeve that moves within the inner channel of an outer sleeve. The distal end of the outer sleeve may have a plurality of outer ports. The inner sleeve may also have an inner channel and one or more openings that are in fluid communication with the outer ports of the outer sleeve. The inner sleeve can be connected to a diaphragm and a disk spring. The diaphragm may be adjacent to a drive chamber that is coupled to a source of pressurized air by a control valve. Actuation of the control valve pressurizes the drive chamber and moves the inner sleeve relative to the outer sleeve. The cutter may include a snap spring that is attached to the disk spring and which provides an additional acceleration of the inner sleeve. The springs return the inner sleeve back to the original position when the control valve is switched to reduce the pressure of the drive chamber.

Abstract: Disclosed is an improved ultrasonic knife of a type for incising various types of material. The knife has a reduced thermal footprint to tailor thermally induced tissue effects. Tooth configuration on the knife cooperates with the stroke of the ultrasonic drive to produce efficient cutting, as well as tactile feedback to the surgeon with respect to the rate of cutting, and changes in tissue density. Ultrasonic knife tip extenders are also disclosed for advancing the ultrasonic knife tip through the working channel of an endoscope or trocar sheath. Methods utilizing the foregoing apparatus are also disclosed.

Abstract: Disclosed is an improved ultrasonic knife of a type for incising various types of material. The knife has a reduced thermal footprint to tailor thermally induced tissue effects. Tooth configuration on the knife cooperates with the stroke of the ultrasonic drive to produce efficient cutting, as well as tactile feedback to the surgeon with respect to the rate of cutting, and changes in tissue density. Ultrasonic knife tip extenders are also disclosed for advancing the ultrasonic knife tip through the working channel of an endoscope or trocar sheath. Methods utilizing the foregoing apparatus are also disclosed.