Patent application number | Description | Published |
20100228272 | ENDOSCOPIC PLICATION DEVICE AND METHOD - Described herein are endoscopic plicators passed transorally into the stomach and used to plicate stomach tissue by engaging tissue from inside of the stomach and drawing it inwardly. In the disclosed embodiments, the tissue is drawn inwardly into a vacuum chamber, causing sections of serosal tissue on the exterior of the stomach to be positioned facing one another. The disclosed plicators allow the opposed sections of tissue to be moved into contact with one another, and preferably deliver sutures, staples or other means for maintaining contact between the tissue sections at least until serosal bonds form between them. Each of these steps may be performed wholly from the inside of the stomach and thus can eliminate the need for any surgical or laparoscopic intervention. After one or more plications is formed, medical devices may be coupled to the plication(s) for retention within the stomach. | 09-09-2010 |
20100268029 | METHODS AND APPARATUS FOR ADVANCING A DEVICE FROM ONE BODY LUMEN TO ANOTHER - A guidewire has a guidewire body with a distal end and a proximal end. A balloon or other tissue anchor is disposed at or near the distal end of the guidewire, and the guidewire may be used to draw two layers of tissue into apposition by placing the guidewire through a tissue penetration, deploying the tissue anchor, and drawing proximally on the guidewire body. Optionally, the guidewire may include deployable blades for enlarging a tissue penetration as the guidewire is advanced therethrough. | 10-21-2010 |
20100268175 | SYSTEM AND METHOD FOR DELIVERING EXPANDING TROCAR THROUGH A SHEATH - A trocar has an elongate body and a tissue-penetrating tip. One or more radially extending blade(s) are provided near the tissue-penetrating tip of the trocar body so that they automatically open as the trocar is advanced through tissue. The blades will enlarge the penetration which was formed by the tip of the trocar. | 10-21-2010 |
20150238193 | ENDOSCOPIC PLICATION DEVICES AND METHODS - Described herein are endoscopic plicators passed transorally into the stomach and used to plicate stomach tissue by engaging tissue from inside of the stomach and drawing it inwardly. In the disclosed embodiments, the tissue is drawn inwardly into a vacuum chamber, causing sections of serosal tissue on the exterior of the stomach to be positioned facing one another. The disclosed plicators allow the opposed sections of tissue to be moved into contact with one another, and preferably deliver sutures, staples or other means for maintaining contact between the tissue sections at least until serosal bonds form between them. Each of these steps may be performed wholly from the inside of the stomach and thus can eliminate the need for any surgical or laparoscopic intervention. After one or more plications is formed, medical devices may be coupled to the plication(s) for retention within the stomach. | 08-27-2015 |
Patent application number | Description | Published |
20090125009 | METHODS AND APPARATUS FOR TREATMENT OF HOLLOW ANATOMICAL STRUCTURES - One embodiment comprises an apparatus for applying energy to a hollow anatomical structure having an inner wall. The apparatus comprises an elongate shaft having a distal end and a proximal end opposite the distal end; and a capacitive treatment element located near the distal end. The capacitive treatment element is sized for insertion into the hollow anatomical structure and placement near the inner wall. The capacitive treatment element is configured to create an electric field that extends at least partially into the inner wall. Other devices and methods for treatment of hollow anatomical structures are disclosed as well. | 05-14-2009 |
20090187206 | Conformationally-Stabilized Intraluminal Device for Medical Applications - The invention relates to devices that are stabilized at an intraluminal residence site in the gastrointestinal tract by their conformation, including dimensions of length and curvature. The device as a whole corresponds to the conformation of the residence site; more particularly, the curved or angled portions correspond to the curved or angled portions of the residence site and do not conform to an immediately proximal or distal site. In some embodiments, the conformationally stabilized device may effect a change in the residence site shape that contributes to stability of the device. Some embodiments are directed toward curbing appetite and/or reducing food intake, other embodiments may be directed toward other therapeutic ends. Some embodiments of the device are designed to reside wholly in the duodenum; others reside principally within the duodenum but extend proximally into the gastric antrum, while other embodiments are designed to reside elsewhere within the gastrointestinal tract. | 07-23-2009 |
20090281379 | SYSTEM AND METHOD FOR TRANSLUMINAL ACCESS - A translumenal access system includes a translumenal access catheter, a trocar, and one or more guidewires. The trocar may be introduced through adjacent tissue layers, typically from an endoscope, and the translumenal access catheter introduced through the resulting penetration over the trocar. A balloon on the catheter may be used to dilate the penetration, and an enlarged distal portion of the balloon may be used to draw the tissue layers into apposition. The first stent may be exchanged for the trocar and a second stent may be introduced through a side port on the access catheter. The stents may be then used to introduced catheters or other interventional tools, optionally for delivering one or more stents to the enlarged tissue penetration. | 11-12-2009 |
20090281557 | TISSUE ANCHOR FOR SECURING TISSUE LAYERS - Tissue anchors comprise a woven filament braid body having an elongated tubular configuration and a foreshortened configuration where proximal and distal ends of the body expand radially into double-walled flange structures while leaving a cylindrical saddle region therebetween. The tissue anchors are deployed through penetrations between adjacent tissue layers, where the flanges engage the outer surfaces of the tissue layers and the saddle region resides within the tissue penetrations. | 11-12-2009 |
20110137227 | METHODS AND DEVICES FOR DELIVERING OR DELAYING LIPIDS WITHIN A DUODENUM - Devices are described that are adapted and configured for use within the duodenum of a mammal. One aspect of the device includes a spine having a proximal end and a distal end; an atraumatic feature positioned on at least one of the proximal end and the distal end of the spine; and a flow reduction element positioned along the spine and having a variable porosity along its length. In another aspect, there is a flow reduction device adapted and configured for use within the duodenum of a mammal having a spine having a length, a proximal end and a distal end; a first atraumatic feature positioned adjacent to the spine proximal end; a second atraumatic feature positioned adjacent to the spine distal end wherein the length of the spine is selected so that when the first atraumatic feature is in the stomach the second atraumatic feature is in the fourth portion of the duodenum; and a flow reduction element having a proximal end, a distal end, an interior portion, an exterior portion and a variable porosity between the proximal end and the distal end. Additionally or alternatively, some or all of the components of the device may be formed from or coated with a lipid-philic material. There is also provided a method for adjusting the passage of ingesta through the duodenum of a mammal. The method includes placing the distal end of a flow reduction device in the duodenum of a mammal; placing the proximal end of the flow reduction device in a stomach of the mammal; expanding within the duodenum of the mammal a variable porosity flow reduction element supported by the flow reduction device; and directing at least a portion of the flow of ingesta through the duodenum through the proximal end of the variable porosity flow reduction element and into an interior portion of the variable porosity flow reduction element. | 06-09-2011 |
20110264176 | HOT TIP VEIN THERAPY DEVICE - Methods and apparatus for generating vapor within a catheter are provided which may include any number of features. One feature is generating vapor with an electrode array within a catheter. Another feature is sensing an impedance of the electrode array, and adjusting the power delivered to the electrode array to fully generate vapor within the catheter. Another feature is delivering the vapor to a vein of a patient for vein reduction therapy. | 10-27-2011 |
20130109912 | DUODENAL GASTROINTESTINAL DEVICES AND RELATED TREATMENT METHODS | 05-02-2013 |
20130178782 | METHODS AND DEVICES FOR DELIVERING OR DELAYING LIPIDS WITHIN A DUODENUM - Devices and methods described include a flow reduction device adapted and configured for use within the duodenum of a mammal having a spine, a first atraumatic feature, a second atraumatic feature, and a flow reduction element having a proximal end, a distal end, an interior portion, an exterior portion and a variable porosity between the proximal end and the distal end. One aspect of the device includes a spine having a proximal end and a distal end, an atraumatic feature positioned on at least one of the proximal end and the distal end of the spine, and a flow reduction element positioned along the spine and having a variable porosity along its length. | 07-11-2013 |
20130289417 | APPARATUS AND METHOD FOR ENDOVASCULAR DEVICE GUIDING AND POSITIONING USING PHYSIOLOGICAL PARAMETERS - Systems and methods for determining the position of an endovascular device within the body are provided. The system can include a catheter having a tip portion that can generate sound waves which can be detected by auscultation devices which allows the position of the catheter tip to be triangulated. The acoustic triangulation system can be used in conjunction with ECG and/or ultrasound information to further refine the location of the catheter tip. | 10-31-2013 |
20150305906 | METHODS AND DEVICES FOR DELIVERING OR DELAYING LIPIDS WITHIN A DUODENUM - Devices and methods described include a flow reduction device adapted and configured for use within the duodenum of a mammal having a spine, a first atraumatic feature, a second atraumatic feature, and a flow reduction element having a proximal end, a distal end, an interior portion, an exterior portion and a variable porosity between the proximal end and the distal end. One aspect of the device includes a spine having a proximal end and a distal end, an atraumatic feature positioned on at least one of the proximal end and the distal end of the spine, and a flow reduction element positioned along the spine and having a variable porosity along its length. | 10-29-2015 |
Patent application number | Description | Published |
20090108891 | BANDWIDTH CONTROL IN A MOSTLY-DIGITAL PLL/FLL - Methods and apparatus for controlling a controlled oscillator using a phase-locked loop (PLL) or frequency-locked loop (FLL) having a digital loop filter with programmable filter parameters. An exemplary PLL (or FLL) includes a digital loop filter having one or more of the programmable filter parameters, which are changed by increments during operation in order to minimize disturbances (e.g., settling transients) as the loop bandwidth of the PLL is varied from a narrow loop bandwidth to a wide loop bandwidth, or vice versa. By changing the loop filter parameters in increments the loop bandwidth can be varied with substantially no perturbation. The end result is a much faster frequency switching time, improved settling dynamics, and predictable and stable loop operating performance. According to another aspect of the invention, one or more of the programmable filter parameters are changed in order to oppose a change in tuning sensitivity of the controlled oscillator (e.g., in order to maintain a constant loop bandwidth). By holding the loop bandwidth constant, switching time is maintained substantially constant under all conditions. This allows design and production margins to be reduced in a frequency agile system, and also relaxes the tuning sensitivity linearity requirements of the controlled oscillator. | 04-30-2009 |
20100080025 | POWER SUPPLY WITH ZERO POWER CONSUMPTION CAPABILITY - Power supply devices are provided that can include power regulating circuitry for regulating (e.g., transforming or converting) electric power to be passed to an electronic device. A power supply device can also include control circuitry coupled with the regulating circuitry. The control circuitry can determine when the power supply device is coupled with an electronic device. The control circuitry can control the operation of the regulating circuitry based on whether or not the power supply device is coupled with the electronic device. | 04-01-2010 |
20110169667 | COMPACT INPUT DEVICE - Compact input devices formed on flexible substrates are disclosed. The input devices may be formed using three or more conducting layers. By including three or more conducting layers, the diameter of the input device may be minimized. In addition, to improve the flexibility of portions of the input device mounted, some portions of the input device may be made to have fewer layers than other portions of the input device. | 07-14-2011 |
20110215656 | POWER SUPPLY WITH ZERO POWER CONSUMPTION CAPABILITY - Power supply devices are provided that can include power regulating circuitry for regulating (e.g., transforming or converting) electric power to be passed to an electronic device. A power supply device can also include control circuitry coupled with the regulating circuitry. The control circuitry can determine when the power supply device is coupled with an electronic device. The control circuitry can control the operation of the regulating circuitry based on whether or not the power supply device is coupled with the electronic device. | 09-08-2011 |
20130118879 | COMPACT INPUT DEVICE - Compact input devices formed on flexible substrates are disclosed. The input devices may be formed using three or more conducting layers. By including three or more conducting layers, the diameter of the input device may be minimized. In addition, to improve the flexibility of portions of the input device mounted, some portions of the input device may be made to have fewer layers than other portions of the input device. | 05-16-2013 |