| Patent application number | Description | Published |
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| 20090012356 | ENDOSCOPIC DELIVERY DEVICES AND METHODS - Disclosed herein are various devices and methods that can be utilized independently or in conjunction with each other for endoscopic delivery of a wide ranges of medical devices, such as, for example, an endoscopic gastrointestinal bypass sleeve with an attachment cuff. Components of the system can include a space-creating device; an expandable fastener system with flower petal-shaped retention elements; and an endoscopic curved needle driver system. | 01-08-2009 |
| 20090012541 | EXPANDABLE FASTENER SYSTEM WITH FLOWER PETAL-SHAPED RETENTION ELEMENTS - Disclosed herein are various devices and methods that can be utilized independently or in conjunction with each other for endoscopic delivery of a wide ranges of medical devices, such as, for example, an endoscopic gastrointestinal bypass sleeve with an attachment cuff. Three primary components of the system include a space-creating device; an expandable fastener system with flower petal-shaped retention elements; and an endoscopic curved needle driver system. | 01-08-2009 |
| 20090012544 | GASTROINTESTINAL BYPASS SLEEVE AS AN ADJUNCT TO BARIATRIC SURGERY - Disclosed herein are systems and methods for treating a patient that has undergone a bariatric surgical procedure, to promote weight loss in the patient. The systems and methods can involve positioning a gastrointestinal bypass sleeve within a portion of the altered GI anatomy to create or restore a restriction, and/or create a malabsorptive effect via a gastric and partial intestinal bypass. The bypass sleeve can include a proximal attachment element for attaching the proximal end of the sleeve in a penetrating or non-penetrating manner at the gastroesophageal junction, stomach, neo-stomach, or other locations. The bypass can be placed during the same operative session as the bariatric surgical procedure, or alternatively at a later date. | 01-08-2009 |
| 20090012553 | METHODS AND DEVICES FOR INTRAGASTRIC SUPPORT OF FUNCTIONAL OR PROSTHETIC GASTROINTESTINAL DEVICES - Disclosed herein are systems and methods for attaching or maintaining the position of a therapeutic or diagnostic device in a body lumen, such as the GI tract without necessarily requiring any penetrating attachments through any body walls. The system can include at least two elements: a proximal orientation element and a distal support element. The proximal orientation element can be configured to reside at least partially within the esophageal lumen and the distal support element can be configured to reside in the stomach, such as along the greater curve of the stomach. An intragastric support system can have a first configuration in which the long axis of the proximal orientation element is substantially parallel and/or substantially coaxial with the long axis of the distal support element, and a second configuration in which the long axis of the proximal orientation element is not substantially coaxial with the long axis of the distal support element. The second configuration can thus advantageously retain the intragastric support system in place and prevent unwanted proximal migration of the distal support element into the esophagus or distal migration into the intestine. | 01-08-2009 |
| 20090149871 | Devices and methods for treating morbid obesity - The present invention provides devices and methods for attachment of an implanted device, such as an artificial stoma device, a gastrointestinal sleeve device or an attachment cuff, within a patient's digestive tract for treatment of obesity. Special surgical fasteners provide a lasting and durable attachment to the gastrointestinal tissue without causing excessive pressure that could result in tissue erosion and detachment of the implanted device. Fastener delivery devices that facilitate peroral placement and deployment of fasteners and secondary devices are also provided. Also described are implantable devices and attachment means that avoid causing excessive pressure within the tissue by having compliance that is compatible with the gastrointestinal tissues where it is attached. | 06-11-2009 |
| 20110125211 | METHODS AND DEVICES FOR GASTROINTESTINAL STIMULATION - Methods and devices for gastrointestinal stimulation are disclosed. In one embodiment, disclosed is an electrical stimulator device that includes a circuit board and a battery contained within a base housing; a conduction element; and at least one electrode. In some embodiments, the stimulator base housing can be directly attached to a wall of a body lumen. In other embodiments, the stimulator base housing can be attached to a cuff or a sleeve device. In still other embodiments, one or more elements of the system are free-floating within the GI tract. The devices can be delivered endoscopically, and in some embodiments toposcopically. | 05-26-2011 |
| Patent application number | Description | Published |
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| 20100035645 | COORDINATED POWER BOOST AND POWER BACK-OFF - A system and method are provided for boosting power for a communications link between a base station and a user device, or user equipment, over a communications link channel in a cellular communications network. In one embodiment, the base station determines whether a communications link for a user device located within a sector of a cell served by the base station needs a power boost. If a power boost is needed, the base station provides a power boost for the communications link for the user device and, for each of one or more neighboring sectors that neighbor the sector in which the user device is located, coordinates the power boost in both frequency and time with a power backoff for a downlink to another user device located in a cell center area of the neighboring sector. | 02-11-2010 |
| 20100035653 | SUB-CHANNELIZATION WITH POWER BOOST - A method and system are provided for boosting power for a communications link between a base station and a user device, or user equipment, in a cellular communications network. In one embodiment, the communications link is a downlink between the base station and the user device established via a downlink channel having a full channel bandwidth including a number of sub-carrier frequencies. The base station determines whether a power boost is needed for a downlink to the user device. If so, the base station uses a subset of the sub-carrier frequencies from the full channel bandwidth as a reduced bandwidth channel, or sub-channel, for the downlink to the user device such that signal power is concentrated on the sub-carrier frequencies of the reduced channel bandwidth rather than spread across the sub-carrier frequencies of the full channel bandwidth. As a result, a power boost for the downlink is provided. | 02-11-2010 |
