Patent application number | Description | Published |
20090036868 | Spring Driven Ophthalmic Injection Device with Safety Actuator Lockout Feature - An ophthalmic injection device includes a dispensing chamber housing with an inner surface that partially defines a dispensing chamber for holding a substance, a plunger fluidly sealed to the interior surface of the dispensing chamber housing, and a needle fluidly coupled to the dispensing chamber. A temperature control device partially surrounds the dispensing chamber housing and alters a temperature of the substance. A piston is coupled to the plunger at one end and to a spring at the other end. The spring provides a force to drive the piston and the plunger. An actuator is coupled to the lockout bar with which a button is configured to interface. The actuator moves the lockout bar when the substance reaches a temperature, thereby allowing the button to be activated so that the spring provides the force to drive the plunger. An incorporated stop whose measurements may vary allow the expelled dosage to vary accordingly. | 02-05-2009 |
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 |
20090118680 | Automatic gas filling consumable - An improved consumable for use in a fluid/gas exchange in vitreoretinal surgery. The consumable includes a syringe having a barrel with a first opening for receiving a retinal tamponading gas, a stopper slidably disposed within and fluidly sealed to the barrel, a plug assembly, and a plunger. The stopper has a relief valve for venting air and retinal tamponading gas to atmosphere via a hollow bore in the plunger. | 05-07-2009 |
20090177182 | Glass Drug Chamber For Automated Ophthalmic Injection Device - A dispensing assembly has a glass tube assembly, a chamber housing, a needle, and a temperature control device. The glass tube assembly includes a glass tube with inner and outer surfaces and distal and proximal ends. A plunger is fluidly sealed to the inner surface of the glass tube at the proximal end, and a seal is located at the distal end of the glass tube. The chamber housing has an inner surface and an outer surface. The inner surface partially defines a chamber for receiving the glass tube assembly. The needle has sharp distal and proximal ends, traverses the chamber housing, and is fluidly coupled to the chamber. The temperature control device at least partially surrounds the chamber housing. The proximal end of the needle is arranged to puncture the seal when the glass tube assembly is pressed against the proximal end of the needle. | 07-09-2009 |
20090259194 | Keyed Safety Cap and Receptacle for Two Piece Injection Device - A keyed safety system for an injection device that has a safety cap and a receptacle. The safety cap has a generally hollow body for receiving the needle end of an injection device. An orientation mechanism is disposed on the outer surface of the safety cap, a retention mechanism is disposed on the outer surface of the safety cap, and a shroud extends from the safety cap. The receptacle has a cavity for receiving the safety cap. A complimentary orientation mechanism is disposed on a surface of the cavity, and a complimentary retention mechanism is disposed on the surface of the cavity. The orientation mechanism on the safety cap is configured to engage the complimentary orientation mechanism on the cavity so that the safety cap fits into the cavity in a single orientation. The retention mechanism on the safety cap is configured to engage the complimentary retention mechanism on the cavity so that the safety cap is prevented from rotating in the cavity. | 10-15-2009 |
20100030136 | Ophthalmic Injection Device Including Dosage Control Device - An injection device includes a dispensing chamber, a plunger, a controller, a temperature control device, and a memory device. The dispensing chamber has an inner surface and an outer surface. The inner surface defines a cavity for receiving a quantity of a substance. The plunger is engaged with the inner surface of the dispensing chamber, is capable of sliding in the cavity of the dispensing chamber, and is fluidly sealed to the inner surface of the dispensing chamber. The controller controls the operation of the injection device. The temperature control device at least partially surrounds the dispensing chamber. The memory device has a parameter stored on it. The controller uses the parameter from the memory device to operate the injection device. | 02-04-2010 |
20100030157 | Drug Retention Cap - A drug retention cap has a cap section and a drug retention pin. The cap section has a generally dome-shaped top end and a cylindrical portion extending downward from the generally dome-shaped top end. The top end of the cap section is closed, and the bottom end is open. The open bottom end is configured to receive a needle of a drug delivery device. The drug retention pin extends from near the apex of the dome-shaped top end downward toward the open bottom end. The drug retention pin is configured to fit inside a hollow needle. | 02-04-2010 |
20100106089 | Temperature control device and thermal sensor assembly for medical device - A dispensing assembly has a dispensing chamber housing, a temperature control device, a thermal sensor, and an interface. The dispensing chamber housing has an inner surface, an outer surface, and a wall thickness. The inner surface partially defines a dispensing chamber for receiving a quantity of a substance. The temperature control device at least partially surrounds the dispensing chamber housing. The temperature control device alters a temperature of a substance in the dispensing chamber. The temperature control device and the thermal sensor are located on a substrate. The substrate is wrapped around an exterior surface of the dispensing chamber housing. The interface is connected to the temperature control device and the thermal sensor. An interface connector is connected to the interface. The distance between the temperature control device and the thermal sensor is approximately equal to the wall thickness of the dispensing chamber housing. | 04-29-2010 |
20100152676 | Drug Loading Through Plunger - A drug loading apparatus includes a plunger with a through hole or slit valve located in the top face of the plunger. A dispensing chamber housing located in a drug delivery device is configured to receive the plunger so that a dispensing chamber is formed when the plunger is located in the dispensing chamber housing. The drug can then be loaded into the dispensing chamber through the plunger, and a piston with an end configured to seal the through hole or engage the plunger with the slit valve can then be inserted. | 06-17-2010 |
20110022117 | Cytokine Production Via Electrical Stimulation to Treat Glaucoma - The present invention is a method of treating glaucoma by electrically stimulating the ciliary muscle to produce shear stress on the trabecular meshwork sufficient for cytokine production. A device for electrically stimulating the ciliary muscle includes a pair of electrodes configured to provide a voltage to the ciliary muscle. The electrodes are coupled to a voltage source. A controller operates to apply the voltage to the ciliary muscle. | 01-27-2011 |
20110034864 | PHACOEMULSIFICATION HANDPIECE PRESSURE BOOSTER - In various embodiments, a handpiece may include an irrigation line coupled to an adjacent line reservoir with a piston configured to move within the adjacent line reservoir to increase an irrigation pressure in the irrigation line near a surgical site. In some embodiments, a sensor may be used to detect an occlusion break in the aspiration line and information from the sensor may result in signaling an actuator to move the piston in response to the occlusion break detection to compensate for a vacuum pressure drop associated with the occlusion break. The handpiece may further include a purge bypass line between the irrigation line and the adjacent line reservoir to allow flow from the irrigation line to travel through the adjacent line reservoir to purge the adjacent line reservoir. | 02-10-2011 |
20120022505 | Closed loop glaucoma drug delivery system - A device implantable into an eye of a patient for treatment of glaucoma. The device has an implantable sensor configured to measure at least one characteristic of the eye. The implantable sensor is sized for implantation into the eye. The device also has an implantable processor coupled to the sensor and configured to receive the measurement of the at least one characteristic of the eye and generate a signal based on the received measurement. Additionally, the device has an implantable actuator coupled to the processor and operable to release a dosage of a therapeutic agent into the eye in response to the signal from the implantable processor. | 01-26-2012 |
20120022506 | Drug delivery device with active iris - A device implantable into an eye of a patient for treatment of glaucoma. The device has an implantable dispenser. The dispenser includes an implantable reservoir configured to store a therapeutic agent. Additionally, the dispenser includes an implantable reservoir sensor configured to measure a pressure within the reservoir. The device also has an implantable processor coupled to the implantable reservoir sensor and configured to receive the measurement of the pressure within the reservoir and determine a dosage of therapeutic agent based on the measurement of the pressure within the reservoir. Furthermore, the implantable dispenser is configured to release the dosage of the therapeutic agent at a selectively variable rate from the implantable reservoir into the eye. | 01-26-2012 |
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 |
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 |