Patent application number | Description | Published |
20090264951 | Device and Implantation System for Electrical Stimulation of Biological Systems - An implantable stimulation device for use in stimulation based treatments for diseases such as GERD or obesity is described. The device is provided with an anchoring unit which upon deployment assumes a shape optimized for the site of deployment. Sensing electrodes and stimulating electrodes in the device are also designed to assume a suitable shape upon deployment. A novel catheter is also provided for easy and expeditious deployment of the device. | 10-22-2009 |
20100094270 | Method and Apparatus for Tissue Ablation - The present invention is directed toward a device that performs ablation of tissue. The device has a catheter with a shaft through which an ablative agent can travel, a first positioning element attached to the catheter shaft at a first position and a second positioning element attached to the catheter shaft at a second position. The shaft also has ports through which the ablative agent can be released. | 04-15-2010 |
20100094373 | METHOD AND APPARATUS FOR STIMULATING THE VASCULAR SYSTEM - The present invention provides methods of treating a gastrointestinal condition. In some embodiments, the method generally includes administering a chemical or electrical stimulus to an artery of the gastrointestinal vasculature of the subject, a vein of the gastrointestinal vasculature of the subject, a nerve supplying an artery of the gastrointestinal vasculature of the subject, and/or a nerve supplying a vein of the gastrointestinal vasculature of the subject, wherein the chemical or electrical stimulus is effective for treating a gastrointestinal condition. | 04-15-2010 |
20100114082 | Method and Apparatus for the Ablation of Endometrial Tissue - The present invention is directed toward a device that performs ablation of tissue. The device has a catheter with a shaft through which an ablative agent can travel, a first positioning element attached to the catheter shaft at a first position and a second positioning element attached to the catheter shaft at a second position. The shaft also has ports through which the ablative agent can be released. | 05-06-2010 |
20100114083 | Method and Apparatus for the Ablation of Gastrointestinal Tissue - The present invention is directed toward a device that performs ablation of tissue. The device has a catheter with a shaft through which an ablative agent can travel, a first positioning element attached to the catheter shaft at a first position and a second positioning element attached to the catheter shaft at a second position. The shaft also has ports through which the ablative agent can be released. | 05-06-2010 |
20110004266 | Method and Apparatus for Treatment of the Gastrointestinal Tract - A method and device for electrically stimulating one or more structures in the gastrointestinal tract as described. The one or more structures are preferably selected from the upper esophageal sphincter, the esophagus and gastric fundus. The method may involve the step of arranging a plurality of stimulating electrodes adjacent one or more structures which may further include the lower esophageal sphincter, the stomach, the pyloric sphincter, the small intestine, the colon and the vagus. The method and device may further include sensing electrodes to detect change in one or more physiological parameters in the gastrointestinal tract and modulate the stimulating electrodes in response to the change. The device comprises a pulse generator, a power source, a plurality of stimulating electrode set, one or more sensing electrodes and means for varying activity of the stimulating electrodes in response to change detected in the gastrointestinal tract. The method and device may be used to treat obesity and/or GERD. | 01-06-2011 |
20110295335 | DEVICE AND IMPLANTATION SYSTEM FOR ELECTRICAL STIMULATION OF BIOLOGICAL SYSTEMS - The present specification discloses devices and methodologies for the treatment of nocturnal GERD. Individuals with nocturnal GERD may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 12-01-2011 |
20110295336 | DEVICE AND IMPLANTATION SYSTEM FOR ELECTRICAL STIMULATION OF BIOLOGICAL SYSTEMS - The present specification discloses devices and methodologies for the treatment of diurnal GERD. Individuals with GERD may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 12-01-2011 |
20110307027 | DEVICE AND IMPLANTATION SYSTEM FOR ELECTRICAL STIMULATION OF BIOLOGICAL SYSTEMS - The present specification discloses devices and methodologies for the treatment of GERD. Individuals with GERD may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 12-15-2011 |
20110307028 | DEVICE AND IMPLANTATION SYSTEM FOR ELECTRICAL STIMULATION OF BIOLOGICAL SYSTEMS - The present specification discloses devices and methodologies for the treatment of transient lower esophageal sphincter relaxations (tLESRs). Individuals with tLESRs may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 12-15-2011 |
20110307075 | Intragastric Device for Treating Obesity - The present invention is directed toward an intragastric device used to treat obesity that includes a wire mesh structure capable of changing from a compressed pre-deployment shape to an expanded post-deployment shape with a greatly increased volume. The post-deployment shape contains a light weight at the top and a heavier weight at the bottom to ensure proper positioning within the stomach. In the post-deployment shape, the device contains larger spaces in the upper portion and smaller spaces in the lower portion to sequester food and delay gastric emptying. Alternatively, the device can be enveloped by a membrane containing larger holes at the top and smaller holes at the bottom to sequester food and delay gastric emptying. The device has a dynamic weight where the weight of the device in the pre-feeding stage is less than the weight of the device in feeding or post-feeding stage. | 12-15-2011 |
20120265103 | Systems and Methods for Treating Gastroesophageal Reflux Disease - Systems and methods for treating gastroesophageal reflux disease (GERD) includes minimally invasively implanting a stimulating device in a patient's esophagus in the region proximate the lower esophageal sphincter (LES). The patient is provided with a questionnaire related to his disease via an online service. The questionnaire is accessed on a mobile device, such as a cell phone, or on a computer with network access. The data from the sensors and the answers from the questionnaire are analyzed together by a health care provider using the online service. The data and answers are used to program the stimulating device, via the mobile device or computer, to optimize treatment. | 10-18-2012 |
20130006231 | Method and Apparatus for Tissue Ablation - The present application discloses devices that ablate human tissue. The device comprises a catheter with a shaft through which an ablative agent can travel, a liquid reservoir and a heating component, which may comprise a length of coiled tubing contained within a heating element, wherein activation of said heating element causes said coiled tubing to increase from a first temperature to a second temperature and wherein the increase causes a conversion of liquid within the coiled tubing to vapor, a reusable cord connecting the outlet of the reservoir to the inlet of the heating component, and a single use cord connecting a pressure-resistant inlet port of a vapor based ablation device to the outlet of the heating component. | 01-03-2013 |
20130035740 | Device and Implantation System for Electrical Stimulation of Biological Systems - The present specification discloses devices and methodologies for the treatment of GERD. Individuals with GERD may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow, have improved energy storage requirements, enable improved LES function while concurrently delivering additional health benefits, and enable improved LES function post stimulation termination. | 02-07-2013 |
20130090551 | ENDOSCOPIC LEAD IMPLANTATION METHOD - A method of implanting electrically conductive leads in the gastrointestinal musculature for stimulation of target tissues involves an endoscopic approach through the esophagus. An endoscope is inserted into the esophagus of a patient. The mucosal surface of the anterior esophagus is punctured in the region encompassing the lower esophageal sphincter (LES). A tunnel is created through the submucosa and exits at the muscularis propria, adventitia, or serosal side of the stomach. The lead is navigated further to the anterior abdominal wall. A first end of the lead remains within the gastrointestinal musculature while a second end of the lead is positioned just outside the anterior abdominal wall. The first end of the lead comprises at least one electrode. An implantable pulse generator (IPG) is implanted and operably connected to the second end of the lead to provide electrical stimulation to target tissues. | 04-11-2013 |
20130178912 | METHODS AND SYSTEMS FOR TREATING THE GASTROINTESTINAL TRACT - The specification discloses methods and devices for electrically stimulating one or more structures in the gastrointestinal tract. The one or more structures are preferably selected from the upper esophageal sphincter, the esophagus and gastric fundus. The method may involve the step of arranging a plurality of stimulating electrodes adjacent one or more structures which may further include the lower esophageal sphincter, the stomach, the pyloric sphincter, the small intestine, the colon and the vagus. The method and device may further include sensing electrodes to detect change in one or more physiological parameters in the gastrointestinal tract and modulate the stimulating electrodes in response to the change. The device comprises a pulse generator, a power source, a plurality of stimulating electrode set, one or more sensing electrodes and means for varying activity of the stimulating electrodes in response to change detected in the gastrointestinal tract. The method and device may be used to treat obesity and/or GERD. | 07-11-2013 |
20130218229 | System and Method for Electrical Stimulation of Anorectal Structures to Treat Anal Dysfunction - A system and method for treating anorectal dysfunction includes implanting, in a minimally invasive manner, an electro-medical device for stimulation of two or more separate and distinct anatomical or histological structures of the anorectal region. Electrodes operably connected to the device are positioned proximate the target anatomical or histological structures. The device provides either the same or different stimulation algorithms to each anatomical or histological structure. Smooth muscle, such as the internal anal sphincter, is provided with a continuous stimulation algorithm, while skeletal muscle, such as the external anal sphincter, is provided with an on demand stimulation algorithm. Varying stimulation algorithms applied to multiple structures results in improved anorectal function without developing muscle fatigue and tolerance. | 08-22-2013 |
20140018657 | Device and Implantation System for Electrical Stimulation of Biological Systems - An implantable stimulation device for use in stimulation based treatments for diseases such as GERD or obesity is described. The device is provided with an anchoring unit which upon deployment assumes a shape optimized for the site of deployment. Sensing electrodes and stimulating electrodes in the device are also designed to assume a suitable shape upon deployment. A novel catheter is also provided for easy and expeditious deployment of the device. | 01-16-2014 |
20140088664 | Device and Implantation System for Electrical Stimulation of Biological Systems - The present specification discloses devices and methodologies for the treatment of achalasia. Individuals with achalasia are treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 03-27-2014 |
20140194917 | Intragastric Device for Treating Obesity - The present invention is directed toward an intragastric device used to treat obesity that includes a wire mesh structure capable of changing from a compressed pre-deployment shape to an expanded post-deployment shape with a greatly increased volume. The post-deployment shape contains a light weight at the top and a heavier weight at the bottom to ensure proper positioning within the stomach. In the post-deployment shape, the device contains larger spaces in the upper portion and smaller spaces in the lower portion to sequester food and delay gastric emptying. Alternatively, the device can be enveloped by a membrane containing larger holes at the top and smaller holes at the bottom to sequester food and delay gastric emptying. The device has a dynamic weight where the weight of the device in the pre-feeding stage is less than the weight of the device in feeding or post-feeding stage. | 07-10-2014 |
20140200568 | Method and Apparatus for Tissue Ablation - Devices and methods for tissue ablation include injecting a conductive medium into a target tissue and then delivering an ablative agent to the conductive medium to ablate the target tissue. Optionally, the contents of the target tissue are removed using the ablation device prior to injection of the conductive medium. Positioning elements help maintain the device in the proper position with respect to the target tissue and also prevent the passage of ablative agent to normal tissues. Ablation catheters also include multiple inline chambers for the containing and heating of an ablative agent. The heating chambers include multiple channels to increase the contact surface area of the ablative agent with the walls of the heating chamber to provide more efficient heating. Induction heating is used to heat a chamber and vaporize a fluid within by wrapping a coil about a ferromagnetic chamber and providing an alternating current to the coil. A magnetic field is created in the area surrounding the chamber which induces electric current flow in the chamber, heating the chamber and vaporizing the fluid inside. | 07-17-2014 |
20140222106 | Device and Implantation System for Electrical Stimulation of Biological Systems - The present specification discloses devices and methodologies for the treatment of GERD. Individuals with GERD may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 08-07-2014 |
20140243593 | Implantable Electrical Stimulation Leads - An implantable electrical stimulation lead for the treatment of biological conditions includes a lead body with an electrical connector at one end and a pair of monopolar branches at the other end. The lead body has a length ranging from 390 mm to 490 mm to allow for implantation from an incision site further removed from the final positioning site of the electrodes. The branches have lengths ranging from 50 mm to 120 mm for the both branches. These lengths facilitate successful laparoscopic implantation at sites with confined anatomy, such as, near the gastroesophageal junction. The branches include needles and sutures at their ends for suturing anchors positioned on the branches to surrounding tissue. The needles have curves designed to facilitate maneuvering in confined anatomy. A separate lead includes a suture loop connecting the ends of the first and second branches rather than needles. The loop is used to pull the lead through the working channel of an endoscope. The anchors on the lead are porous and allow for the ingrowth of surrounding tissue for fixing the branches in place. | 08-28-2014 |
20140249594 | Device and Implantation System for Electrical Stimulation of Biological Systems - The present specification discloses devices and methodologies for the treatment of transient lower esophageal sphincter relaxations (tLESRs). Individuals with tLESRs may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 09-04-2014 |
20140276336 | Intragastric Device for Treating Obesity - A gastrointestinal device for treating obesity includes a three-dimensional porous structure configurable between a compressed pre-deployment configuration to facilitate delivery and an expanded post-deployment configuration. The porous structure includes a first opening at its proximal end and a larger second opening at its distal end. The porous structure also includes a sleeve coupled to its distal end. Optionally, the device further includes a suture at the proximal end of the wire mesh structure to facilitate retrieval and an anti-migration component positioned at the junction of the porous structure with the sleeve. The porous structure is deployed in a patient's stomach such that the anti-migration component sits proximal to the patient's pylorus and prevents migration of the entirety of the device into and through the pylorus. The sleeve extends through the pylorus, into the duodenum and ends in the duodenum or jejunum. Food enters the device from the first opening at the proximal end of the porous structure, passes through the porous structure and sleeve, and exits at the distal end of the sleeve. The device treats obesity by providing a relatively immovable volume occupying structure in the stomach and a bypass for food past the pylorus and proximal portion of the small intestine. Optionally, the device further acts to slow the passage of food through the digestive tract. Patients with the device experience satiety more quickly and have a prolonged sensation of satiety. | 09-18-2014 |
20140309708 | System and Method for Electrical Stimulation of Anorectal Structures to Treat Anal Dysfunction - A system and method for treating anorectal dysfunction includes implanting, in a minimally invasive manner, an electro-medical device for stimulation of two or more separate and distinct anatomical or histological structures of the anorectal region. Electrodes operably connected to the device are positioned proximate the target anatomical or histological structures. The device provides either the same or different stimulation algorithms to each anatomical or histological structure. Smooth muscle, such as the internal anal sphincter, is provided with a continuous stimulation algorithm, while skeletal muscle, such as the external anal sphincter, is provided with an on demand stimulation algorithm. Varying stimulation algorithms applied to multiple structures results in improved anorectal function without developing muscle fatigue and tolerance. | 10-16-2014 |
20150018924 | Systems and Methods For Treating Gastroesophageal Reflux Disease - Systems and methods for treating gastroesophageal reflux disease (GERD) includes minimally invasively implanting a stimulating device in a patient's esophagus in the region proximate the lower esophageal sphincter (LES). The patient is provided with a questionnaire related to his disease via an online service. The questionnaire is accessed on a mobile device, such as a cell phone, or on a computer with network access. The data from the sensors and the answers from the questionnaire are analyzed together by a health care provider using the online service. The data and answers are used to program the stimulating device, via the mobile device or computer, to optimize treatment. | 01-15-2015 |
20150057718 | Device and Implantation System for Electrical Stimulation of Biological Systems - The present specification discloses devices and methodologies for the treatment of transient lower esophageal sphincter relaxations (tLESRs). Individuals with tLESRs may be treated by implanting a stimulation device within the patient's lower esophageal sphincter and applying electrical stimulation to the patient's lower esophageal sphincter, in accordance with certain predefined protocols. The presently disclosed devices have a simplified design because they do not require sensing systems capable of sensing when a person is engaged in a wet swallow and have improved energy storage requirements. | 02-26-2015 |
20150066109 | Methods and Systems of Electrode Polarity Switching in Electrical Stimulation Therapy - Methods for electrically stimulating body tissues to improve function or reduce symptoms provide an electrical stimulation system having two or more electrodes that are capable of being switched independently from a hyperpolarizing (depolarizing) state to a hypopolarizing state. Multiple combinations of hyperpolarizing electrodes and hypopolarizing electrodes are created by polarity switching to determine a polarity configuration having the best performance as determined by symptom reporting and clinical diagnostic tests. Polarity switching is triggered manually or is programmed to be switched automatically. Determining the configuration providing electrical stimulation resulting in the greatest benefit allows the system to be operated with one or more electrodes in a hypopolarizing state, thereby reducing energy requirements, tissue tolerance, and tissue fatigue. | 03-05-2015 |