Patent application number | Description | Published |
20080208207 | Surgical System For Indication of Media Types - A surgical system includes a surgical instrument, an aspiration flow rate measurement device, a vacuum force measurement device, and an indicator. The surgical instrument has an aspiration portion and is located in a media type. The aspiration flow rate measurement device is configured to measure the flow rate generated by the aspiration portion. The vacuum force measurement device is configured to measure the vacuum force generated by the aspiration portion. The indicator provides an indication of the media type in which the surgical instrument is located. The indication is based on aspiration flow rate measurement information, vacuum force measurement information, and an operation and configuration of the surgical instrument. | 08-28-2008 |
20080225232 | Ophthalmic Endoilluminator with Variable-Wedge Rotating-Disk Beam Attenuator - An ophthalmic endoilluminator includes a light source, a variable-wedge rotating-disk attenuator, a condensing lens, and an optical fiber. The variable-wedge rotating-disk attenuator attenuates the light produced by the light source. The variable-wedge rotating-disk attenuator includes a wedge capable of being adjusted over a variable angle as measured through an arc of the wedge and an axle to which the wedge is attached. The axle rotates such that the wedge rotates around a pivot defined by the axle. The condensing lens focuses the attenuated light. The optical fiber carries the focused light into an eye. The variable-wedge rotating-disk attenuator is located such that it affects the intensity of a light beam transmitted into an eye. | 09-18-2008 |
20080225233 | VARIABLE-WEDGE ROTATING-DISK BEAM ATTENUATOR FOR OPHTHALMIC ENDOILLUMINATOR - A variable-wedge rotating-disk attenuator for use in an ophthalmic endoilluminator is disclosed. The attenuator includes a wedge attached to an axle. The size of the wedge can be adjusted over a variable angle as measured through an arc of the wedge. The axle to which the wedge is attached rotates such that the wedge rotates around a pivot defined by the axle. The variable-wedge rotating-disk attenuator is located such that it affects the intensity of a light beam transmitted into an eye. | 09-18-2008 |
20080246920 | Multi-LED Ophthalmic Illuminator - An ophthalmic endoilluminator has a power supply coupled to a light source, a controller, a collimation device, an alignment device, a lens, and an optical fiber. The light source has three light emitting diodes. Each of the three light emitting diodes produces a different color light. The controller controls the operation of the three light emitting diodes. The collimation device collimates the light produced by at least one of the light emitting diodes. The alignment device aligns the light individually produced by the three light emitting diodes into a single light beam. The lens focuses the single light beam. The optical fiber for carries the single light beam. | 10-09-2008 |
20090082794 | Simultaneous Proportional Control of Surgical Parameters in a Microsurgical System - A microsurgical system, and a foot controller for the improved operation of a microsurgical system, are disclosed. A surgeon may use the foot controller to simultaneously control multiple surgical parameters based upon movement of a foot pedal of the foot controller in a single plane of motion. | 03-26-2009 |
20090270793 | Priming a Microsurgical System - A microsurgical system capable of priming its aspiration circuit using a pressurized gas source, a pressurized infusion fluid source, an aspiration chamber fluidly coupled to the pressurized gas source and the pressurized infusion fluid source, and a computer. | 10-29-2009 |
20090287233 | Small Gauge Mechanical Tissue Cutter/Aspirator Probe For Glaucoma Surgery - A small gauge mechanical tissue cutter/aspirator probe useful for removing the trabecular meshwork of a human eye has a generally cylindrical outer cannula, an inner cannula that reciprocates in the outer cannula, a port located near or at the distal end of the outer cannula on a side or tip of the outer cannula, and a guide with a distal surface located on the distal end of the outer cannula. A distance between the distal surface of the guide and the port is approximately equal to the distance between the back wall of Schlemm's canal and the trabecular meshwork. | 11-19-2009 |
20100030168 | Aspiration control via flow or impedance - A microsurgical system capable of controlling aspiration and detecting an occlusion via monitoring a change in either suction flow rate or suction impedance. | 02-04-2010 |
20100100080 | System and method for voice activation of surgical instruments - The present invention provides a system and method for operating a surgical console and/or a device attached to the surgical console, and embodiment of the method comprising the steps of: enabling a voice command channel at the surgical console; receiving a voice command trigger; receiving a voice command; confirming the voice command; and causing the surgical console to execute one or more actions associated with the voice command. The surgical console may include a microprocessor, memory, procedural recorder, a user interface and interface(s) through which peripheral devices couple to the console. The microprocessor may direct operations of the surgical console and of peripheral devices that couple to the surgical console. The memory in addition to containing instructions which the microprocessor uses to direct the operation of the surgical console and peripheral devices may also store recorded surgical procedures. The user interface allows users to initialize and control operation of the surgical console via spoken commands. The surgical console can comprise a voice command module operably coupled to the user interface and the microprocessor for processing voice commands and causing the surgical console or a peripheral device to execute one or more functions associated with the voice command. | 04-22-2010 |
20100177280 | MULTI-LED OPHTHALMIC ILLUMINATOR - An ophthalmic endoilluminator has a power supply coupled to a light source, a controller, a collimation device, an alignment device, a lens, and an optical fiber. The light source has three light emitting diodes. Each of the three light emitting diodes produces a different color light. The controller controls the operation of the three light emitting diodes. The collimation device collimates the light produced by at least one of the light emitting diodes. The alignment device aligns the light individually produced by the three light emitting diodes into a single light beam. The lens focuses the single light beam. The optical fiber for carries the single light beam. | 07-15-2010 |
20100228199 | Surgical cassette for intraocular pressure control - An improved surgical cassette for controlling intraocular pressure during ophthalmic surgery. | 09-09-2010 |
20100232002 | System and method for illumination attenuation - Generally speaking, the output brightness of an illuminator is varied by chopping an output light beam such that the beam is alternately interrupted and unhindered. An interrupter can be rapidly moved into and out of the transmission path of a light beam. The brightness of the light beam received at a site will be attenuated based on the amount of time per cycle the light beam remains obstructed versus unhindered. | 09-16-2010 |
20100331911 | System for Dissociation and Removal of Proteinaceous Tissue - An apparatus and method for the dissociation of soft proteinaceous tissue using pulsed rapid variable direction energy field flow fractionization is disclosed. The pulsed rapid disruptive energy field is created by the use of a probe which surrounds the soft proteinaceous tissue to be removed. Once the adhesive mechanism between tissue constituents has been compromised, fluidic techniques are used to remove the dissociated tissue. | 12-30-2010 |
20110087498 | Surgical system providing identification of billing codes - An apparatus and method of identifying and selecting a billing code for a surgical procedure using a surgical system. | 04-14-2011 |
20110118728 | CONTROL OF HIGH-INTENSITY PULSED ELECTRICAL FIELDS IN SURGICAL APPLICATIONS - An eye surgery apparatus includes a HIPEF probe comprising at least two electrodes and is configured for delivery of a high-intensity pulsed electrical field to a surgical site within an eye via the electrodes. Embodiments also include a transducer configured to monitor one or more surgical parameters within the eye during application of the high-intensity pulsed electrical field to the surgical site, a pulse generation circuit configured to generate a series of electrical pulses for application to the electrodes to create the high-intensity pulsed electrical field, and a control circuit, operatively connected to the at least one transducer and the pulse generation circuit and configured to automatically adjust one or more characteristics of the series of electrical pulses, based on the one or more monitored surgical parameters. With these apparatus, the amount of energy delivered can be limited to levels necessary for effective operation without over-exposing the vitreous. | 05-19-2011 |
20110118729 | HIGH-INTENSITY PULSED ELECTRIC FIELD VITRECTOMY APPARATUS WITH LOAD DETECTION - A high-intensity pulsed electric field (HIPEF) vitrectomy apparatus is disclosed. An exemplary apparatus includes a HIPEF probe comprising at least one electrode disposed at a distal end of the HIPEF probe, such that the distal end is configured for insertion into an eye. A load detection circuit is coupled to the HIPEF probe and is configured to compare a measured physical parameter to a corresponding threshold value. A control circuit is electrically coupled to the load detection circuit and configured to selectively disable application of pulsed energy to the at least one electrode of the HIPEF probe, based on the comparison. The measured physical parameter may include, for example, resistivity, permittivity, reflected light, pressure, or heat dissipation capability. | 05-19-2011 |
20110118734 | CAPSULARHEXIS DEVICE USING PULSED ELECTRIC FIELDS - A capsulorhexis apparatus is disclosed. An exemplary apparatus includes a cutting electrode device that in turn comprises a handle, a flexible ring having a single ring-shaped wire electrode embedded therein, and a shaft connecting the flexible ring to the handle, wherein the flexible ring is configured for insertion into an eye through an incision. The apparatus further includes a grounding electrode configured for placement in or on the eye, independently of the cutting electrode device, and a pulse generator electrically connected to the ring-shaped wire electrode and the grounding electrode and configured to supply pulsed power to the eye via the ring-shaped wire electrode and the grounding electrode | 05-19-2011 |
20110144562 | Localized Pharmacological Treatment of Ocular Tissue Using High-Intensity Pulsed Electrical Fields - A high-intensity pulsed-electrical-field (HIPEF) apparatus treats ocular tissue within a localized portion of an eye with a pharmacological solution. To mitigate risk of damage to adjacent, healthy ocular tissue, the apparatus delivers the solution to only a portion of the eye and then alters the effectiveness of at least some of the solution delivered by applying a HIPEF. In some embodiments, for example, the apparatus delivers an inactive pharmacological solution and then activates at least some of the solution by applying a HIPEF to that solution. As the apparatus applies the HIPEF with high precision, the HIPEF only activates solution within select portions of the eye. In other embodiments, the apparatus delivers a pharmacological carrier encapsulating an active pharmacological solution and then penetrates the carrier by applying a HIPEF. Delivered with a high concentration, but low dose, the solution diffuses only to tissue within a localized portion of the eye. | 06-16-2011 |
20110144638 | Localized Shockwave-Induced Tissue Disruption - A high-intensity pulsed-electrical-field (HIPEF) apparatus removes ocular tissue from a localized portion of an eye by delivering one or more focused shockwaves to that tissue. In one embodiment, for example, the apparatus generates one or more electrical pulses, delivers the one or more focused shockwaves to ocular tissue by applying the generated electrical pulses to a HIPEF probe, and then removes the ocular tissue disrupted by the one or more focused shockwaves via aspiration. To mitigate risk of damage to adjacent ocular tissue, the apparatus delivers the one or more focused shockwaves with energy substantially limited to the tissue being removed. The HIPEF apparatus is, therefore, especially advantageous in the context of cataract surgery where cataract tissue need be broken apart and removed without damaging adjacent tissue associated with the lens capsule required to implant an intraocular lens. | 06-16-2011 |
20110152775 | OPHTHALMIC VALVED TROCAR VENT - In various embodiments, a trocar cannula may be configured for insertion into an eye to facilitate insertion and removal of instruments during surgery. The cannula may be affixed to an overcap (to inhibit rotation of the overcap relative to the cannula) that includes a seal. In some embodiments, the seal may be overmolded into the overcap or may include a wafer that is fixed between the cannula and the overcap to inhibit rotation relative to the cannula and the overcap. In some embodiments, the cannula and overcap may snap together through a tab/slot interface in a permanent fashion such that the cannula and overcap may not be separated without damaging the cannula or overcap. In some embodiments, a vent cannula may be receivable in the slit of the seal for allowing fluids to vent from the eye through the cannula (which may include an indentation to frictionally engage the vent). | 06-23-2011 |
20120026569 | System and method for illumination attenuation - Generally speaking, the output brightness of an illuminator is varied by chopping an output light beam such that the beam is alternately interrupted and unhindered. An interrupter can be rapidly moved into and out of the transmission path of a light beam. The brightness of the light beam received at a site will be attenuated based on the amount of time per cycle the light beam remains obstructed versus unhindered. | 02-02-2012 |
20120029423 | Intraocular Pressure Control - An improved method of controlling intraocular pressure with a microsurgical system using measured flow rate. | 02-02-2012 |
20130163276 | Providing consistent output from an endoilluminator system - In certain embodiments, determining an endoilluminator output includes calculating an illuminator contribution of an endoilluminator system and a fiber contribution of one or more optical fibers of the endoilluminator system. The endoilluminator output is determined from the illuminator contribution and the fiber contribution. The illuminator contribution may be established using calibrated or empirically determined factors, such as an illuminator leg efficiency, an attenuator factor, an initial lamp performance, and/or a lamp performance degradation factor of the lamp. The fiber contribution may be established using calibrated or empirically determined factors, such as a fiber coupling factor and/or fiber transmission ratio of the optical fibers. | 06-27-2013 |
20130317478 | VISCOUS FLUID INJECTOR - A self-contained apparatus and corresponding methods are provided for delivering viscous fluids in a controlled manner, such as delivering a viscous fluid in a surgical setting. The self-contained apparatus can include a motion following pressure regulator that allows for linear control of a regulated pressure. The regulated pressure can be used for dispensing a viscous fluid from a syringe that is coupled to the self-contained apparatus. The pressure regulator regulates a pressure derived from a pressurized fluid reservoir located at least partially within a housing of the apparatus. This allows the viscous fluid to be delivered using pressure to provide a driving force greater than a force easily delivered manually, while still allowing a surgeon to retain fine control over the rate of viscous fluid delivery. | 11-28-2013 |
20130345618 | INTRAOCULAR GAS INJECTOR - A gas mixture apparatus includes a measurement control system, an activation system, a pressurized chamber with one or more gases, and a mixing chamber. The apparatus can also include additional pressure regulation control systems. The gas mixture apparatus can be used to introduce and automatically perform the steps to achieve a desired concentration of the one or more gases contained in the pressurized chamber. The gas mixture apparatus can include the pressurized chamber within the apparatus itself such that no external devices are necessary for introducing the one or more gases into the mixing chamber. | 12-26-2013 |
20130345619 | INTRAOCULAR GAS INJECTOR - A gas mixture apparatus includes a measurement control system, an activation system, a pressurized chamber with one or more gases, and a mixing chamber. The apparatus can also include additional pressure regulation control systems. The gas mixture apparatus can be used to introduce and automatically perform the steps to achieve a desired concentration of the one or more gases contained in the pressurized chamber. The gas mixture apparatus can include the pressurized chamber within the apparatus itself such that no external devices are necessary for introducing the one or more gases into the mixing chamber. | 12-26-2013 |
20140230956 | SURGICAL CONSOLE - An ophthalmic surgical system for filling a syringe with a retinal tamponading gas is disclosed. The system includes a surgical console having a user interface, a computer, first and second bottles containing pressurized retinal tamponading gases, and a port for fluidly coupling to an automatic gas filling consumable including a syringe. A user selects a particular retinal tamponading gas via the user interface, and the system fills the syringe. | 08-21-2014 |
20140330204 | GAS SYRINGE FILLING DEVICE AND METHODS FOR MAKING AND USING THEM - Systems and methods are provided for filling syringes, e.g., for use during pneumatic retinopexy or other medical procedures. In one embodiment, the system includes a housing carrying a gas canister including an outlet communicating with a fluid path extending from the outlet to a syringe cavity. A syringe includes a barrel receivable in the syringe cavity such that a port of the barrel communicates with the fluid path. An actuator is provided on the housing for selectively opening the outlet of the gas canister to deliver gas therein along the fluid path into the interior of the barrel, thereby causing the plunger to move from a distal position to a proximal position. | 11-06-2014 |