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764 results about "Intraocular pressure" patented technology
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Intraocular pressure (IOP) is the fluid pressure inside the eye. Tonometry is the method eye care professionals use to determine this. IOP is an important aspect in the evaluation of patients at risk of glaucoma. Most tonometers are calibrated to measure pressure in millimeters of mercury (mmHg).
Intraocular physiological sensor
An implantable intraocular physiological sensor for measuring intraocular pressure, glucose concentration in the aqueous humor, and other physiological characteristics. The implantable intraocular physiological sensor may be at least partially powered by a fuel cell, such as an electrochemical glucose fuel cell. The implantable intraocular physiological sensor may wirelessly transmit measurements to an external device. In addition, the implantable intraocular physiological sensor may incorporate aqueous drainage and / or drug delivery features.
Owner:GLAUKOS CORP
Implantable ocular pump to reduce intraocular pressure
A trabecular pump is implantable in the eye to reduce intraocular pressure. The pump drains aqueous humor from the anterior chamber into outflow pathways, such as Schlemm's canal. A feedback system includes the intraocular pump and a pressure sensor in communication with the pump, for regulating intraocular pressure.
Owner:GLAUKOS CORP
Method for monitoring intraocular pressure using a passive intraocular pressure sensor and patient worn monitoring recorder
A device for passively measuring intraocular pressure of a patient including an in vivo sensor and an instrument external to the patient for remotely energizing the sensor, thereby permitting the instrument to determine the intraocular pressure. The device directly and continuously measures the intraocular pressure of a patient. The in vivo sensor in the intraocular pressure monitor includes a capacitive pressure sensor and an inductive component. An instrument, external to the patient, measures the pressure, provides readout of the pressure values and determines the intraocular pressure.
Owner:THE JOHN HOPKINS UNIV SCHOOL OF MEDICINE
Implantable continuous intraocular pressure sensor
InactiveUS6939299B1Worn safely and comfortably and convenientlyPerson identificationTonometersIntraocular pressureSpiral inductor
An implantable miniaturized pressure sensor integrates a capacitor and an inductor in one small chip, forming a resonant LC circuit having a Q value of 10 or greater. The capacitor has an upper capacitor plate and a lower capacitor plate disposed proximate thereof. The upper and lower capacitor plates are connected to one or more spiral inductor coils. The sensor is micromachined from silicon to form a thin and robust membrane disposed on top of the upper capacitor plate. The sensor is hermetically sealed and the membrane is deflected relative to the upper capacitor plate by an external fluid, gas, or mechanical pressure. The resonant frequency of the sensor can be remotely monitored and continuously measured with an external detector pick up coil disposed proximate the sensor. The sensor can be smaller than 2×2×0.5 mm and is particularly useful for intraocular applications.
Owner:IOSENSOR
Devices and methods for glaucoma treatment
Intraocular stents and applicators are disclosed for treating glaucoma. The stents are configured to extend between the anterior chamber of the eye and Schlemm's canal for enhancing outflow of aqueous from the anterior chamber so as to reduce intraocular pressure. The stents can have features for anchoring the stent into Schlemm's canal as well as preventing the walls of Schlemm's canal from closing the outlet of the stents. The applicators can be steerable so as to make implantation easier. Additionally, the applicators can be configured to hold a plurality of stents so that multiple stents can be implanted through one incision without removing the applicator from the incision between serial implantations.
Owner:GLAUKOS CORP
Implant with pressure sensor for glaucoma treatment
InactiveUS6981958B1Reduce morbidityAvoiding hypotonyEye surgeryInfusion needlesSchlemm's canalIntraocular pressure
Owner:GLAUKOS CORP
Telemetry method and apparatus using magnetically-driven MEMS resonant structure
InactiveUS20070236213A1High quality factorImprove reliabilityMagnetic property measurementsDiagnostic recording/measuringIntraocular pressurePressure sense
A telemetry method and apparatus using pressure sensing elements remotely located from associated pick-up, and processing units for the sensing and monitoring of pressure within an environment. This includes remote pressure sensing apparatus incorporating a magnetically-driven resonator being hermetically-sealed within an encapsulating shell or diaphragm and associated new method of sensing pressure. The resonant structure of the magnetically-driven resonator is suitable for measuring quantities convertible to changes in mechanical stress or mass. The resonant structure can be integrated into pressure sensors, adsorbed mass sensors, strain sensors, and the like. The apparatus and method provide information by utilizing, or listening for, the residence frequency of the oscillating resonator. The resonant structure listening frequencies of greatest interest are those at the mechanical structure's fundamental or harmonic resonant frequency. The apparatus is operable within a wide range of environments for remote one-time, random, periodic, or continuous / on-going monitoring of a particular fluid environment. Applications include biomedical applications such as measuring intraocular pressure, blood pressure, and intracranial pressure sensing.
Owner:LAUNCHPOINT TECH
Injectable glaucoma implants with multiple openings
ActiveUS20050271704A1Reduce morbidityAvoiding hypotonyEye implantsEye surgerySchlemm's canalIntraocular pressure
Intraocular stents and applicators are disclosed for treating glaucoma. The stents are configured to extend between the anterior chamber of the eye and Schlemm's canal for enhancing outflow of aqueous from the anterior chamber so as to reduce intraocular pressure. The stents can have features for anchoring the stent into Schlemm's canal as well as preventing the walls of Schlemm's canal from closing the outlet of the stents. The applicators can be steerable so as to make implantation easier. Additionally, the applicators can be configured to hold a plurality of stents so that multiple stents can be implanted through one incision without removing the applicator from the incision between serial implantations.
Owner:GLAUKOS CORP
Glaucoma treatment kit
A glaucoma treatment kit, containing intraocular stents and applicators, is disclosed. The stents are configured to extend between the anterior chamber and Schlemm's canal of the eye, for enhancing outflow of aqueous from the anterior chamber so as to reduce intraocular pressure.
Owner:GLAUKOS CORP
Glaucoma implant with extending members
InactiveUS20050192527A1Avoiding hypotonyEliminate riskEye surgeryIntravenous devicesSchlemm's canalIntraocular pressure
A trabecular shunt and methods for treating glaucoma are disclosed. One of the methods comprises transporting fluid from the anterior chamber of an eye to Schlemm's canal through an implant, the implant extending between the anterior chamber and Schlemm's canal; sensing an intraocular pressure using a sensor incorporated into the implant; and transmitting a signal indicative of the sensed pressure to an external receiver.
Owner:GLAUKOS CORP
Shunt for the treatment of glaucoma
InactiveUS20060069340A1Reducing ocular hypertensionLaser surgeryEye implantsIntraocular pressureFlow diverter
A system is provided for reducing intraocular pressure, the system having: an implantable shunt, the implantable shunt with a planar member, at least one microchannel disposed within that planar member, and a laser whereby at least one fenestration may be introduced into the microchannel.
Owner:SOLX
Ocular pressure regulation
This invention comprises a flexible ocular device for implantation into the eye formed of a biocompatible elastomeric material, foldable to a diameter of 1.5 mm or less, comprising a fluid drainage tube having at one end a foldable plate adapted to locate the device on the inner surface of the sclera in a suprachoroidal space formed by cyclodialysis, said drainage tube opening onto the disc at one end and opening to the anterior chamber when implanted into the eye at its other end, so as to provide aqueous pressure regulation. Also provided are methods for the treatment of glaucoma utilising the flexible ocular device, and an ocular pressure spike shunt.
Owner:ALCON INC
Ocular implants with anchors and methods thereof
InactiveUS7431710B2Reduce morbidityAvoiding hypotonyOrganic active ingredientsEye surgerySchlemm's canalIntraocular pressure
Intraocular stents and applicators are disclosed for treating glaucoma. The stents are configured to extend between the anterior chamber of the eye and Schlemm's canal for enhancing outflow of aqueous from the anterior chamber so as to reduce intraocular pressure. The stents can have features for anchoring the stent into Schlemm's canal as well as preventing the walls of Schlemm's canal from closing the outlet of the stents. The applicators can be steerable so as to make implantation easier. Additionally, the applicators can be configured to hold a plurality of stents so that multiple stents can be implanted through one incision without removing the applicator from the incision between serial implantations.
Owner:GLAUKOS CORP
Method and apparatus for the noninvasive determination of arterial blood pressure
InactiveUS6514211B1Blood flow measurement devicesEvaluation of blood vesselsUltrasonic sensorTransmural pressure
Owner:TENSYS MEDICAL INC
Biodegradable glaucoma implant
InactiveUS20050288619A1Reduce morbidityAvoiding hypotonyEye surgeryIntravenous devicesSchlemm's canalIntraocular pressure
A trabecular shunt and methods for treating glaucoma are disclosed. One of the methods comprises transporting fluid from the anterior chamber of an eye to Schlemm's canal through an implant, the implant extending between the anterior chamber and Schlemm's canal; sensing an intraocular pressure using a sensor incorporated into the implant; and transmitting a signal indicative of the sensed pressure to an external receiver.
Owner:GHARIB MORTEZA +2
C-shaped cross section tubular ophthalmic implant for reduction of intraocular pressure in glaucomatous eyes and method of use
InactiveUS6962573B1Inhibit migrationReduction in bleb diameterEye implantsEar treatmentOphthalmological implantAqueous humor
A tube for implantation into the eye for replacement conduction of aqueous humor from the chambers of the eyeball to the subconjunctival tissue and ultimately to the venous system is comprised of an elongated fluid conducting conduit having distal and proximate ends, a sidewall and an interior passageway and at least one longitudinally extending opening in the sidewall that exposes the interior passageway and at least one nidi-forming structure carried by the conduit and extending laterally therefrom to implement the formation of at least one aqueous filtration bleb in the tissue of the eyeball. In one embodiment, the tube also contains at least one releasable ligature circumscribing the conduit. In another embodiment, the tube also contains an anchor appended to the conduit to prevent it from migrating from its placement site.
Owner:AQ BIOMED LLC
Optically powered and optically data-transmitting wireless intraocular pressure sensor device
An implantable intraocular pressure sensor device for detecting excessive intraocular pressure above a predetermined threshold pressure is disclosed. The device includes a pressure switch that is sized and configured to be placed in an eye, wherein said pressure switch is activated when the intraocular pressure is higher than the predetermined threshold pressure. The device is optically powered and transmits data wirelessly using optical energy. In one embodiment, the pressure sensor device is a micro electromechanical system.
Owner:CALIFORNIA INST OF TECH
Devices and methods for glaucoma treatment
ActiveUS20070276316A1Reduce morbidityAvoiding hypotonyStentsEye surgerySchlemm's canalIntraocular pressure
Owner:GLAUKOS CORP
Intraocular pressure measurement system including a sensor mounted in a contact lens
An apparatus (180) for measuring intraocular pressure (IOP) comprises a contact lens (40) including an inner surface (42) contoured to a surface portion (34) of an eye (36) and a sensor (10) disposed in the contact lens. The sensor (10) comprises a contact surface (14) for making contact with the surface portion (34) of the eye (36). The contact surface (14) includes an outer non-compliant region (16) and an inner compliant region (18) fabricated as an impedance element that varies in impedance as the inner compliant region changes shape. The sensor (10) further comprises a region of conductive material (38) electrically coupled to the impedance element of the compliant region (18) and responsive to an external signal for energizing the impedance element so that the IOP may be determined.
Owner:THE CLEVELAND CLINIC FOUND
Method and apparatus for the noninvasive assessment of hemodynamic parameters including blood vessel location
InactiveUS20020055680A1Blood flow measurement devicesEvaluation of blood vesselsUltrasonic sensorTherapeutic Devices
A method and apparatus for determining the mean arterial blood pressure (MAP) of a subject during tonometric conditions. In one embodiment, the apparatus comprises one or more pressure and ultrasound transducers placed over the radial artery of a human subject's wrist, the latter transmitting and receiving acoustic energy so as to permit the measurement of blood velocity during periods of variable compression of the artery. In another aspect of the invention, a wrist brace useful for measuring blood pressure using the aforementioned apparatus is disclosed. In yet another aspect of the invention, backscattered acoustic energy is used to identify the location of the blood vessel of interest, and optionally control the position of measurement or treatment equipment with respect thereto.
Owner:TENSYS MEDICAL INC
Method and system for modifying eye tissue and intraocular lenses
ActiveUS20110172649A1Promote absorptionLaser surgerySurgical instrument detailsIntraocular pressureIntraocular lenses
As shown in the drawings for purposes of illustration, a method and system for making physical modifications to intraocular targets is disclosed. In varying embodiments, the method and system disclosed herein provide many advantages over the current standard of care. Specifically, linear absorption facilitated photodecomposition and linear absorption facilitated plasma generation to modify intraocular tissues and synthetic intraocular lenses.
Owner:AMO DEVMENT
Devices and methods for glaucoma treatment
InactiveUS20070276315A1Reduce morbidityAvoiding hypotonyStentsEar treatmentSchlemm's canalIntraocular pressure
Owner:GLAUKOS CORP
Aspheric lenses
ActiveUS6923539B2Add depthSolve lack of contrastIntraocular lensOptical partsIntraocular pressureImage resolution
The present invention provides monofocal ophthalmic lenses that exhibit extended depth of field while providing sufficient contrast for resolution of an image over a selected range of defocus distances. In some embodiments, a lens of the invention can include a refractive surface having controlled surface modulations relative to a base profile. The surface modulations are designed to extend a depth of field of the lens such that a single image can be resolved, albeit with somewhat less contrast, over a range of distances greater than the focal region of a conventional lens. The ophthalmic lenses of the invention can be employed in various vision correction applications, including, but not limited to, intraocular lenses, contact lenses, instrastromal implants and other refractive devices.
Owner:ALCON INC
Wireless dynamic power control of an implantable sensing device and methods therefor
InactiveUS20100161004A1Improve functionalityEnhanced data rate transferElectrotherapyDiseaseCommunications system
Communication systems and methods for dynamically controlling the power wirelessly delivered by a remote reader unit to separate sensing device, such as a device adapted to monitor a physiological parameter within a living body, including but not limited to intraocular pressure, intracranial pressure (ICP), and cardiovascular pressures that can be measured to assist in diagnosing and monitoring various diseases. The communication method entails electromagnetically delivering power from at least one telemetry antenna within the reader unit to at least one telemetry antenna within the sensing device, and controlling the power supplied to the sensing device within a predetermined operating power level range of the sensing device.
Owner:INTEGRATED SENSING SYST INC
Glaucoma shunts with flow management and improved surgical performance
ActiveUS20100249691A1Improving glaucoma shuntReduce postoperative complicationsEye surgeryIntravenous devicesGlaucoma tube shuntGlaucoma
A method of treating glaucoma in an eye by managing fluid flow past an implanted shunt having an elastomeric plate and a non-valved elastomeric drainage tube. The plate is positioned over a sclera of the eye with an outflow end of the elastomeric drainage tube open to an outer face of the plate. An inflow end of the drainage tube tunnels through the sclera to the anterior chamber of the eye. The plate may have regions of greater propensity for cell adhesion alternating with regions of lesser cell adhesion. For example, regions of texturing around the plate or drainage tube may be provided to control the size of a bleb that forms over the implant. The effective surface area of the plate may be balanced against a number of fenestrations. The drainage tube has a reduced profile and may be shaped with a non-circular external cross-section to reduce its height. A scleral groove may be used to further reduce the height of the drainage tube on the sclera. A flow restrictor for the early post operative period will immediately lower the intraocular pressure (IOP) and simultanously prevent hypotony.
Owner:JOHNSON & JOHNSON SURGICAL VISION INC
Constant ocular pressure active infusion system
An irrigation system for a medical device. The irrigation system may include a pump that can pump irrigation fluid from a reservoir through an irrigation line. The system may further have a controller coupled to the pump and an accumulator pressure sensor that senses the pressure of the irrigation line. The controller can vary the speed of the pump in response to a change in the line pressure to control the irrigation line pressure. Additionally, the controller can monitor the fluidic resistance of the system by determining the pump speed and corresponding flowrate of the pump. The controller can provide one or more safety output signals if the fluidic resistance exceeds a threshold value(s).
Owner:BUIVISION
System and method for delivering multiple ocular implants
ActiveUS20130253528A1More facileLess invasiveEye implantsEye surgeryIntraocular pressureOcular implant
Systems and methods for delivering multiple ocular implants to reduce intraocular pressure are disclosed. The ocular implants can be implanted at multiple sites within a single human eye without requiring removal of the delivery apparatus from the eye. A system for delivering multiple ocular implants can include at least two implants preloaded within a delivery device and configured to be implanted within the eye, a metering device configured to transfer energy to the implants for delivery at selected locations within the eye, wherein the metering device is configured to meter a variable amount of energy for each implant delivery event in the eye. The system can further include an injector mechanism configured to serially engage and drive each of the implants.
Owner:GLAUKOS CORP
Intraocular pressure sensor and method of use
A method for measuring an intraocular pressure within an eye has several steps. An intraocular pressure sensor that is adapted to be implanted intrasclerally is provided. An incision is cut through a scleral layer of the eye. The scleral layer is lifted with a grasping tool. The intraocular pressure sensor is inserted under the scleral layer, and the incision of the scleral layer is closed.
Owner:MONTEGRANDE VALENTINO +1
Glaucoma stent and methods thereof for glaucoma treatment
InactiveUS20070112292A1Lower eye pressureReduce morbidityEye surgeryWound drainsAqueous outflowIntraocular pressure
Owner:GLAUKOS CORP
Sensor contact lens, system for the non-invasive monitoring of intraocular pressure and method for measuring same
The invention is characterized in that it comprises a truncated contact lens (1), whose truncation plane is parallel to the base of said contact lens, and a polymeric nanocomposite material (2) centrally disposed and attached to the perimeter of the truncated area, said material being sensitive to pressure changes, biocompatible and transparent, and including contact electrodes (3), and in that it also comprises means for transmitting IOP measurement data to an external system. The invention also relates to a method for measuring IOP using said lens comprising: i) placing said sensor contact lens in the eye to determine its intraocular pressure; ii) providing a direct current value between external electrodes; iii) ΔV measurement between internal electrodes; and iv) identifying whether the value obtained is outside the linear response, expressed in changes of resistivity, of the polymeric nanocomposite material. The invention also relates to a telemetry system comprising said lens.
Owner:CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS (CSIC) +4
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