Patent application number | Description | Published |
20130150771 | System and Method For Powering Ocular Implants - A system for treating an ocular condition of a patient includes an electrically powered ocular implant sized for placement within an eye and includes a transmitter sized to be carried on or adjacent the head of the patient for disposal adjacent the eye. The transmitter includes a transmission antenna that emits an electromagnetic flux field sufficient to energize the ocular implant and includes a flux shunt disposed within the electromagnetic flux field. The transmission antenna may be disposed between the flux shunt and the implant. | 06-13-2013 |
20130150775 | Multilayer Membrane Actuators - An IOP control device for implantation in an eye of a patient is disclosed. The device includes a housing and a multilayer membrane. The housing is sized for implantation into the eye and includes an entrance port and an exit port. The membrane is anchored within the housing to form a flow control chamber on a first side and a fluid flow passageway on a second opposing side of the membrane. The chamber is arranged to contain a gas creating a chamber pressure, and the membrane is configured to affect flow through the passageway from the entrance port to the exit port by deflecting in response to changes in the chamber pressure. The membrane comprises a first layer having a higher permeability and a higher flexibility than the second layer, which is disposed adjacent the first layer and restricts the diffusion of gas in the chamber through the membrane. | 06-13-2013 |
20130150778 | Separation of Gas and Liquid in Membrane Valves - A drainage device for implantation in an eye of a patient to treat an ocular condition is disclosed. The drainage device includes a housing, a multi-compartment flow control chamber, and a membrane. The housing includes an entrance port and an exit port connected by a fluid flow passageway. The membrane is disposed between the fluid flow passageway and the multi-compartment flow control chamber, which includes a first compartment and a second compartment in fluid communication with each other. The first and second compartments are structurally arranged to limit contact of gas with the membrane, which is disposed between the fluid flow passageway and first compartment. The membrane is configured to affect flow through the fluid flow passageway by deflecting in response to pressure in the flow control chamber. | 06-13-2013 |
20130211313 | Corrugated Membrane Actuators - An IOP control valve is disclosed. The IOP control valve comprises a corrugated membrane and a housing including a fluid inlet and a fluid outlet. The corrugated membrane is anchored within the housing to form a reference chamber on a first side of the corrugated membrane and a fluid flow channel on a second opposing side of the membrane. The reference chamber has a reference chamber pressure representative of atmospheric pressure. The fluid flow channel can selectively increase and decrease in size to permit fluid to flow from the fluid inlet to the fluid outlet. The corrugated membrane is configured to affect flow through the fluid flow channel from the fluid inlet to the fluid outlet by deflecting in response to pressure differentials of the reference chamber pressure and the fluid flow channel pressure acting on the opposing sides of the corrugated membrane. | 08-15-2013 |
20130317412 | Flow Control For Treating A Medical Condition - An apparatus for treatment of a medical condition of a patient to provide drainage from a region of a patient to a drainage location includes a memory having a plurality of different selectable treatment algorithms stored therein for treating a medical condition, and may include a processor associated with the memory and configured to execute one of the different treatment algorithms. It also may include a flow system controllable by the processor to regulate drainage of fluid from a body portion having a medical condition, the flow system being controllable according to a selected algorithm of said different selectable treatment algorithms. In one aspect, the apparatus further comprises an implantable medical device for treating an ocular condition, and the processor is carried on the implantable medical device. | 11-28-2013 |
20140005587 | Reduction of Gas Escape in Membrane Actuators | 01-02-2014 |
20140039374 | Clog Detection in a Flow Control System - Disclosed herein are an apparatus, a system, and a method to monitor drainage from a first region of a patient to a second region. The apparatus comprises pressure sensors configured to measure the pressures of the first and second regions, a flow system to regulate drainage of fluid from the first region to the second region, a memory having a stored pressure drop across the flow system; and a processor associated with the memory and configured to compare the first pressure, the second pressure, and the stored pressure drop threshold and selectively generate control signals based on the comparisons. In some instances, the apparatus further comprises an alarm, and the processor is configured to generate the control signals that trip the alarm when a pressure drop exceeds the stored pressure drop threshold. | 02-06-2014 |
20140046439 | IMPLANTABLE MEMS DEVICE AND METHOD - An implantable MEMS package for the treatment of an ocular condition is provided. The MEMS package includes an outer portion; an active portion attached to the outer portion, the active portion including a fluid regulating element having a moving element; and a fluidic channel at an interface of the outer portion and the active portion. The fluidic channel is formed in at least one of the outer and active portions and permits fluid communication from the MEMS package to the fluid regulating element. A method for forming a MEMS package as above is also provided. An ocular implant for treating glaucoma including an inlet tube for receiving aqueous humor; a MEMS package as above, coupled to the inlet tube; a control system to control the MEMS package; and an outlet tube for draining aqueous humor at a drainage location, is provided. | 02-13-2014 |
20140094736 | Valve Position Sensor - An IOP control device for implantation in an eye of a patient is disclosed, including a housing with an entrance port and an exit port, a membrane anchored within the housing in a manner forming a flow control chamber on a first side of the membrane and a fluid flow passageway on a second opposing side of the membrane, and a position sensor system. The flow control chamber is arranged to contain a gas creating a flow control chamber pressure, and the membrane is configured to affect flow through the fluid flow passageway from the entrance port to the exit port by deflecting in response to changes in the flow control chamber pressure. The position sensor system includes a first conductive portion and a second conductive portion positioned to selectively contact the first conductive portion to indicate the position of the membrane relative to the fluid flow passageway. | 04-03-2014 |
Patent application number | Description | Published |
20090093788 | Thermal Coefficient Driven Drug Pellet Size For Ophthalmic Injection - A method of injecting a mixture into an eye includes: providing the mixture in a dispensing chamber with an air gap located between the mixture and an interior surface of a dispensing chamber housing, when the mixture and dispensing chamber housing are near room temperature; bringing the dispensing chamber housing and mixture to a temperature range at which the mixture expands and is in a more liquid state; maintaining air in a needle after the mixture expands and prior to an injection; and injecting the air in the needle and the mixture into the eye. | 04-09-2009 |
20090093789 | Method of Delivering A Rate And Temperature - Dependent Substance Into The Eye - A method of injecting a mixture into an eye includes: providing the mixture in a dispensing chamber with an air gap located between the mixture and an interior surface of a dispensing chamber housing, when the mixture and dispensing chamber housing are near room temperature; bringing the dispensing chamber housing and mixture to a temperature range, other than near room temperature, at which the mixture expands and is in a more liquid state; maintaining air in a needle after the mixture expands and prior to an injection; selecting a drug release rate; and injecting the mixture so as to form a shape with a surface area that results in the selected drug release rate. | 04-09-2009 |
20100286632 | Multi-Layer Heat Assembly For A Drug Delivery Device - In various embodiments, an ophthalmic injection device may include a dispensing chamber to hold a substance (e.g., a drug) to be injected into an eye, a thermal feedback layer with at least one thermal sensor, and a temperature control layer to apply or remove heat from the dispensing chamber. In some embodiments, the thermal feedback layer and the temperature control layer may be coupled to each other and/or coupled to the dispensing chamber. In some embodiments, at least one of the thermal sensors may be secured between the temperature control layer and the dispensing chamber using a thermal adhesive. | 11-11-2010 |
20100286654 | Multiple Thermal Sensors in a Multiple Processor Environment for Temperature Control in a Drug Delivery Device - In various embodiments, an ophthalmic injection device may include a dispensing chamber, a first thermal sensor coupled to the dispensing chamber, a temperature control layer coupled to the dispensing chamber, a second thermal sensor coupled to the dispensing chamber, and a first processing device. The first processing device may be configured to receive temperature information from the first thermal sensor and the second thermal sensor and control the temperature control layer using the received temperature information. In some embodiments, the first processing device may receive temperature information directly from the second thermal sensor (e.g., in analog form) and may compare the temperature information from the first thermal sensor (e.g., received from the second processing device in digital form) and the second thermal sensor to detect temperature offsets between the two sensors. | 11-11-2010 |
20150057596 | PASSIVE TO ACTIVE STAGED DRAINAGE DEVICE - Described herein is an IOP control system for implantation in an eye of a patient, comprising a drainage device and a control device. The drainage system includes a housing including an inlet port and an outlet port, a fluid flow passageway extending from the inlet port to the outlet port to allow the flow of fluid therethrough, and at least one valve disposed within the housing. The at least one valve includes a first side and an opposing second side, and is configured to affect flow through the fluid flow passageway from the inlet port to the outlet port by moving in response to pressure differentials acting on the opposing sides. The control device comprises an actuator including an activated mode and a deactivated mode, and the actuator in the activated mode is configured to selectively adjust flow through the drainage device in response to changes in intraocular pressure. | 02-26-2015 |
20150057597 | EXTERNALLY ADJUSTABLE PASSIVE DRAINAGE DEVICE - Described herein is an IOP control device for implantation in an eye of a patient, comprising a housing including an inlet port and an outlet port, a fluid flow passageway configured to allow the flow of fluid from the inlet port to the outlet port, and at least one valve anchored within the housing. The at least one valve includes a first side and an opposing second side, and is configured to affect flow through the fluid flow passageway from the inlet port to the outlet port by moving in response to pressure differentials acting on the opposing first and second sides. The at least one valve is remotely adjustable between an active condition increasing resistance to the flow of fluid within the fluid flow passageway and an inactive condition decreasing resistance to the flow of fluid within the fluid flow passageway. | 02-26-2015 |
Patent application number | Description | Published |
20090061884 | DYNAMIC ELECTRONIC COUPON FOR A MOBILE ENVIRONMENT - Dynamic mobile coupons (DMCs) having a variable commercial value and/or other variable coupon characteristic are provided herein. By way of example, a DMC can be distributed to a mobile device based on criteria established by a sponsor of the DMC. A redemption value of the DMC can be variable and dynamically established based at least in part on data associated with a recipient mobile device. Upon redemption of the DMC at a retail entity, the value is fixed and applied to a transaction. Details of the transaction are provided to a remote clearinghouse that performs mediation and indemnification functions to finalize the transaction. As described, the subject disclosure provides a DMC that facilitates a rich and flexible mechanism to generate purchasing incentive for consumers in a mobile environment. | 03-05-2009 |
20090076911 | MOBILE COUPONS UTILIZING PEER TO PEER RANGING - Providing for distribution of a dynamic mobile coupon (DMC) based on verified peer-to-peer (P-P) ranging between two wireless devices is described herein. By way of example, a first device can form a wireless link with a mobile device and initiate P-P ranging. By analyzing signals sent over the wireless link, a distance between such devices can be determined. In addition, at least a minimum distance between such devices can be verified based on actions performed by the mobile device that require a minimum completion time. Based in part on this verified distance, a DMC can be issued to the mobile device. Accordingly, the subject disclosure provides for increased security for issuing the DMC and mitigation of device spoofing, by verifying a minimum distance to the mobile devices and conditioning issuance of the DMC on such verified distance. | 03-19-2009 |
20090076912 | MANAGEMENT OF DYNAMIC ELECTRONIC COUPONS - Providing for management of a dynamic mobile coupon (DMC) at a mobile device is described herein. Particularly, dynamic characteristics associated with the DMC, such as a redeemable value, can be utilized to browse, sort, search, recall, or redeem the DMC utilizing a user interface of the mobile device. In other aspects, a DMC management application can interact with server components to backup and store DMC data, synchronize dynamic information (e.g., a dynamic redeemable value), access or manage a user profile, interface with other mobile devices to accomplish sharing, trading, exchanging, selling the DMC, and so on. Accordingly, provided is an efficient and personable way to manage mobile coupons in a mobile operating environment and provide increased value and utility for a user of such coupons. | 03-19-2009 |
20100260426 | SYSTEMS AND METHODS FOR IMAGE RECOGNITION USING MOBILE DEVICES - Implementations relate to systems and methods for real-time image recognition and mobile visual searching. A mobile device, such as a cellular phone, acquires an image and pre-processes the acquired image to generate a visual search query based on objects detected in the acquired image. The visual search query includes the acquired image or a query image extracted therefrom and metadata associated with the detected objects. The mobile device wirelessly communicates the visual search query to a remote server, and in response to the visual search query, the remote server recognizes an object in the query image based on the associated metadata. The remote server then generates information content based on the recognized object and communicates the information content to the mobile device to be presented via the mobile device. | 10-14-2010 |
20120321008 | COOPERATIVE DATA TRANSPORT - Various arrangements for cooperative data transport are presented. These arrangements may include a first mobile device configured to receive, via a first wireless network, a first set of shared data. The first set of shared data may be shared among a plurality of mobile devices using a second wireless network. The first mobile device may also receive, via the first wireless network, a first set of private data, wherein the first set of private data is intended for the first mobile device. The first set of private data may not be shared among the plurality of mobile devices. | 12-20-2012 |