Patent application number | Description | Published |
20080254944 | Monitoring of a Wearable Athletic Device - An athletic system for monitoring the condition of a wearable athletic device includes the wearable athletic device, first and second input parameters, a computer readable memory, and a microprocessor. At least one of the parameters may be provided a measurement device that may also be part of the athletic system or may be separate therefrom. The first parameter comprises at least one of an event count and a travel distance, while the second parameter comprises at least one of an athletic footwear device identifier, a physical property of the athletic footwear device, a physiological condition, an environmental condition, an event rate, a velocity, and an acceleration. The computer readable memory contains instructions for calculating a condition of the athletic footwear device. The microprocessor is configured to perform the instructions in order to calculate the condition of the athletic footwear device, the calculation being based at least in part on the parameters. | 10-16-2008 |
20080294087 | Systems and Methods for Transverse Phacoemulisification - The invention is generally directed to phacoemulsification systems and methods, and more particularly to systems and methods for providing transverse phacoemulsification. In accordance with one embodiment, a phacoemulsification system is provided having a handpiece with a needle, wherein the phacoemulsification system is configured to vibrate the distal end of the needle in both an effective transverse direction and an effective longitudinal direction when power, having a single effective operating frequency is applied to the handpiece. | 11-27-2008 |
20100004605 | PERCUTANEOUS SAFETY NEEDLE INSERTER - An infusion device comprises an elongate housing member and a slider member. The housing member comprises a hollow cavity extending therethrough and a front plate secured to a first end of the housing. The slider member is positioned within the hollow cavity of the housing so as to be axially slidable therein. The slider member comprises a needle extending from a first end and through an aperture in the front plate. The slider is configured to slide in a direction away from the front plate to a position in which the needle is retained within the housing member. The needle is configured to be inserted into a patient to infuse fluids to the patient. The needle can be subsequently removed from the patient either before or while holding the housing member stationary and moving the slider member rearwards until the sharp tip of the needle is completely retracted within the housing. | 01-07-2010 |
20100010447 | FLUSH ENTRANCE HEMOSTASIS VALVE WITH UNOBSTRUCTED PASSAGEWAY - A method of placing a catheter into a patient while preventing disadvantageous escape of fluid from the patient comprises providing a catheter secured to a valve hosing. The catheter has a proximal end, a distal end and an interior lumen. The valve housing has a first port, a second port, and a fluid path running between the first and second ports. The catheter and the valve housing have a hollow needle extending therethrough. The method further comprises piercing the patient's skin, thereby inserting the catheter into the patient. The method further comprises holding the catheter and valve housing in place while removing the hollow needle through the catheter and valve housing. The hollow needle passes through the first and second ports of the valve housing. | 01-14-2010 |
20120123340 | FLUSH ENTRANCE HEMOSTASIS VALVE WITH UNOBSTRUCTED PASSAGEWAY - A method of placing a catheter into a patient while preventing disadvantageous escape of fluid from the patient comprises providing a catheter secured to a valve hosing. The catheter has a proximal end, a distal end and an interior lumen. The valve housing has a first port, a second port, and a fluid path running between the first and second ports. The catheter and the valve housing have a hollow needle extending therethrough. The method further comprises piercing the patient's skin, thereby inserting the catheter into the patient. The method further comprises holding the catheter and valve housing in place while removing the hollow needle through the catheter and valve housing. The hollow needle passes through the first and second ports of the valve housing. | 05-17-2012 |
20130304026 | FLUSH ENTRANCE HEMOSTASIS VALVE WITH UNOBSTRUCTED PASSAGEWAY - A method of placing a catheter into a patient while preventing disadvantageous escape of fluid from the patient comprises providing a catheter secured to a valve hosing. The catheter has a proximal end, a distal end and an interior lumen. The valve housing has a first port, a second port, and a fluid path running between the first and second ports. The catheter and the valve housing have a hollow needle extending therethrough. The method further comprises piercing the patient's skin, thereby inserting the catheter into the patient. The method further comprises holding the catheter and valve housing in place while removing the hollow needle through the catheter and valve housing. The hollow needle passes through the first and second ports of the valve housing. | 11-14-2013 |
20150088095 | FLUSH ENTRANCE HEMOSTASIS VALVE WITH UNOBSTRUCTED PASSAGEWAY - A method of placing a catheter into a patient while preventing disadvantageous escape of fluid from the patient comprises providing a catheter secured to a valve hosing. The catheter has a proximal end, a distal end and an interior lumen. The valve housing has a first port, a second port, and a fluid path running between the first and second ports. The catheter and the valve housing have a hollow needle extending therethrough. The method further comprises piercing the patient's skin, thereby inserting the catheter into the patient. The method further comprises holding the catheter and valve housing in place while removing the hollow needle through the catheter and valve housing. The hollow needle passes through the first and second ports of the valve housing. | 03-26-2015 |
Patent application number | Description | Published |
20090205988 | ERGONOMIC DISPOSABLE TRAY FOR HOLDING STERILE SURGICAL COMPONENTS - The field of the invention relates to medical packaging and, more particularly, to trays for holding sterile surgical components. In one embodiment, an ergonomic disposable tray is provided which can rest easily in the palm of the hand and be easily grasped. Moreover, the tray includes the addition of a raised triangular protrusion in all four opposing corners, to make opening the tray equally efficient for both right and left handed users. These features will allow the user to maintain control of the tray while peeling back the lid, keeping the internal components sterile. | 08-20-2009 |
20100069828 | SYSTEMS AND METHODS FOR TRANSVERSE PHACOEMULSIFICATION - The invention is generally directed to phacoemulsification handpiece for providing transverse phacoemulsification. In accordance with one embodiment, a phacoemulsification handpiece is provided having a needle, wherein the handpiece is configured to vibrate the distal end of the needle in a transverse direction power is applied to the handpiece. | 03-18-2010 |
20150025450 | Reversible Peristaltic Pump and Other Structures for Reflux in Eye Surgery - Devices, systems, and methods for treatment of an eye alter aspiration flow from the eye in response to an occlusion of the aspiration conduit pathway. Where aspiration is drawn from the eye using a volumetric pump, the pump can be reversed so as to induce fluid reflux from the aspiration conduit pathway into the eye to help clear the occlusion. The pump may vary the reverse flow in response to sensed aspiration pressure or the like, and the reverse flow may be halted before the pressure within the aspiration conduit pathway adjacent the eye significantly exceeds the irrigation fluid pressure and/or the pressure within the eye. Reflux may alternatively be generated by modulating a vent valve disposed between an irrigation conduit pathway and the aspiration conduit pathway. | 01-22-2015 |