Patent application number | Description | Published |
20090105527 | METHOD OF TREATING BENIGN HYPERTROPHY OF THE PROSTATE - Disclosed herein are methods of treating a patient with benign hypertrophy of the prostate, comprising providing a compressible attenuation device that is moveable from a first, introduction configuration to a second, implanted configuration and attenuating a pressure change within the bladder by reversibly changing the volume of the attenuation device in response to the pressure change. In one embodiment, the attenuation device is advanced percutaneously into the bladder. In another embodiment, the attenuation device is positioned within the bladder to inhibit a decrease in compliance of the bladder wall as a consequence of the benign hypertrophy of the prostate. | 04-23-2009 |
20090240277 | PRESSURE ATTENUATION DEVICE - A therapeutic device is provided. The therapeutic device can include a flexible housing and can be configured to be positioned within an anatomical structure. The therapeutic device can also include at least one high vapor pressure media having a vapor pressure greater than the pressure within the anatomical structure and a permeability of less than 1 ml/day at body temperature through said outer wall. | 09-24-2009 |
20100222802 | IMPLANT WITH HIGH VAPOR PRESSURE MEDIUM - An implant for use in a human or animal body can include a flexible housing with an outer wall and having a chamber therein. The implant can have at least one high vapor pressure medium within the chamber. The at one high vapor pressure medium can have a combined vapor pressure equal to or greater than about the average value of the hydrostatic pressure of the implantation site plus the skin tension of the housing minus the gas tension of the dissolved gasses present at the implantation site. | 09-02-2010 |
20110054488 | SYSTEMS AND METHODS FOR PREVENTING INTRAVASATION DURING INTRAUTERINE PROCEDURES - Systems, methods, apparatus and devices for performing improved gynecologic and urologic procedures are disclosed. Patient benefit is achieved through improved outcomes, reduced pain, especially peri-procedural pain, and reduced recovery times. The various embodiments enable procedures to be performed outside the hospital setting, such as in a doctor's office or clinic. Distension is achieved mechanically, rather than with liquid distension media, thereby eliminating the risk of intravasation. | 03-03-2011 |
20120203262 | DELIVERY SYSTEM FOR INFLATABLE IMPLANT - An implant delivery system can be used to deliver an implant into a body. The implant delivery system can include an inflation tube and a tubular member surrounding the inflation tube. The inflation tube can be used to provide an inflation medium to the implant. The tubular member can have a distal tip and an opening spaced from the tip to allow the implant to be released through the opening into an anatomical structure within the body. | 08-09-2012 |
20130267868 | METHOD OF TREATING BENIGN HYPERTROPHY OF THE PROSTATE - Measurement of a patient's leak point pressure in the bladder can be taken by a processor in communication with a pressure catheter in the bladder. When leakage occurs pressure data points can be recorded. In some embodiments, the peak pressure can be determined based on pressure data points measured during a set time just before receiving a clinician input indicative that leakage has occurred. | 10-10-2013 |
20130289529 | IMPLANT WITH HIGH VAPOR PRESSURE MEDIUM - An implant delivery system can be configured to deliver an inflatable implant into a bladder via a urethra. The delivery system can comprise an elongate tubular body, an inflation tube and an implant decoupler. The tubular body can comprise a central lumen configured to hold an inflatable implant in an initial un-inflated state for delivery of the implant into the bladder. A method of use can include passing a distal tip of the elongate tubular body into the bladder. The implant can be inflated and released into the bladder. | 10-31-2013 |
20140046123 | METHODS AND SYSTEMS FOR PERFORMING A MEDICAL PROCEDURE - Method and system for treating a patient using a compressible, pressure-attenuating device. According to one embodiment, the system is used to treat urinary tract disorders and comprises an access device, a delivery device, a pressure-attenuating device, and a removal device. The access device may be used to create a passageway to an anatomical structure, such as the patient's bladder. The delivery device may be inserted through the passageway created by the access device and may be used to deliver the pressure-attenuating device to the anatomical structure. The removal device may be inserted through the passageway created by the access device and may be used to view the bladder and/or to capture, to deflate and to remove the pressure-attenuating device. | 02-13-2014 |
20140046124 | METHODS AND SYSTEMS FOR PERFORMING A MEDICAL PROCEDURE - Method and system for treating a patient using a compressible, pressure-attenuating device. According to one embodiment, the system is used to treat urinary tract disorders and can include one or more of an access device, a delivery device, a pressure-attenuating device, and a removal device. The access device may be used to create a passageway to an anatomical structure, such as the patient's bladder. The delivery device may be inserted through the passageway created by the access device and may be used to deliver the pressure-attenuating device to the anatomical structure. The removal device may be inserted through the passageway created by the access device and may be used to view the bladder and/or to capture, to deflate and to remove the pressure-attenuating device. | 02-13-2014 |
20140046125 | METHODS AND SYSTEMS FOR PERFORMING A MEDICAL PROCEDURE - Method and system for treating a patient using a compressible, pressure-attenuating device. According to one embodiment, the system is used to treat urinary tract disorders and can include one or more of an access device, a delivery device, a pressure-attenuating device, and a removal device. The access device may be used to create a passageway to an anatomical structure, such as the patient's bladder. The delivery device may be inserted through the passageway created by the access device and may be used to deliver the pressure-attenuating device to the anatomical structure. The removal device may be inserted through the passageway created by the access device and may be used to view the bladder and/or to capture, to deflate and to remove the pressure-attenuating device. | 02-13-2014 |
20140081076 | IMPLANT WITH HIGH VAPOR PRESSURE MEDIUM - An implant delivery system can be configured to deliver an inflatable implant into a bladder via a urethra. The delivery system can comprise an elongate tubular body, an inflation tube and an implant decoupler. The tubular body can comprise a central lumen configured to hold an inflatable implant in an initial un-inflated state for delivery of the implant into the bladder. A method of use can include passing a distal tip of the elongate tubular body into the bladder. The implant can be inflated and released into the bladder. | 03-20-2014 |
20140221732 | Method of removing an inflated implant - An inflated implant within an anatomical structure, such as the bladder, may require removal. A method of removing an inflated implant from an anatomical structure can include any of a number of different steps. A removal device can be placed within the anatomical structure. The implant is located within the anatomical structure. After it is located, the implant can be engaged by arms of the removal device. A portion of a surface of the implant can be compromised such that an inflation substance within the implant can escape. The inflation substance can be removed out of the implant through a deflation tube in at least one of the arms used to engage the implant. The implant can then be removed from the anatomical structure. | 08-07-2014 |
20140236208 | Removal device - Method and system for treating a patient using an inflatable device. A removal device may be used to remove the inflatable device from the body. The removal device can have at least one manually-actuatable member and at least two opposing jaws at a distal end. At least one of the at least two jaws can be movable by actuation of the at least one manually-actuatable member. At least one of the at least two jaws can have a puncturing member. | 08-21-2014 |