The present invention teaches a method and apparatus for physiological modulation, including neural, gastrointestinal, renal, respiratory, and other modulation, for the purposes of treating several disorders, including obesity, depression, epilepsy, diabetes, hypertension, asthma, and other disorders. This includes implanted, percutaneous, hybrid implanted and nonimplanted, nonimplanted, noninvasive neural and neuromuscular modulators, used to deliver autonomic vector modulation to deliver optimal therapy via coordinated multi-nodal modulation at least one of the afferent and efferent neurons of the sympathetic and parasympathetic nervous systems and other nervous system pathways.

A system and method for treating gastroesophageal reflux disease by using an implantation tool to implant a stimulation electrode in a lower esophageal sphincter for stimulation of the lower esophageal sphincter muscle.

An apparatus for controlling the flow of urine in a urethra of a patient, comprising an implantable adjustable constriction device for constricting the urethra, a control device for controlling the constriction device, an operation device for operating the constriction device to change the constriction of the urethra, and an energy source for supplying energy for the operation device. The control device comprises a temperature sensor configured to sense a temperature of the apparatus or a temperature of the patient.

An apparatus for controlling the flow of urine in a urethra of a patient is disclosed. The apparatus comprises an implantable adjustable constriction device for constricting the urethra to influence the flow in the urinary tract, an operation device for operating the constriction device, and a control device for controlling the operation device to constrict the urethra and to release the urethra. Further, the apparatus comprises an energy source for supplying energy to the operation device, wherein the control device is configured to determine the current state of the energy source, and wherein the control unit is connected to an internal signal transmitter configured to transmit information related to the current state of the energy source.

A gastrointestinal stimulation devices including a random stimulation delivery mechanism(s), configured to provide stimuli to a bodily tissue in a vicinity of the stimulation capsule, the provided random stimuli being characterized by a stimulation parameter, and a control circuitry in communication with said physical stimulation delivery mechanism, and configured to set and alter the stimulation parameter non-systematically, thereby altering the characterization of the stimuli provided to the bodily tissue. The algorithm may be patient tailored, and may have a learning machinery which responds to data being received from the patient.

According to an embodiment, a medical device is disclosed. The medical device includes an external unit and an implantable unit. The external unit includes an electronic unit operationally coupled to a transmitter coil that is configured transmit power and/or data signal over a wireless transcutaneous link, a coil unit comprising a loop structure with the transmitter coil being wound around and along at least a part of length of the loop structure, and a fixation unit configured to attach the loop structure to a user's body i) proximal to an implantable receiver coil that is configured to be implanted within a body part, and ii) around a body part of a user such that a part of the body part is positioned in a hollow section of the loop structure. The implantable unit includes the implantable receiver coil configured to receive the power and/or data signal over the wireless transcutaneous link, a processing unit configured to i) process the received data signal to control functionalities of at least one of the components of the implantable unit, and/or ii) utilize the received power for operation of at least one of the components of the implantable unit. The wireless transcutaneous link includes a coupling between the transmitter coil and the receiver coil, and when the loop structure is attached using the fixation unit, at least a substantial number of magnetic field lines generated in response to excitation of the transmitter coil passes through the implantable receiver coil.

An apparatus for controlling a flow of urine in a urethra of a patient is disclosed. The apparatus comprises an implantable constriction device for constricting the urethra to influence the flow in the urinary tract, comprising a plurality of clamping elements configured to be arranged in a common plane intersecting the urethra and to be radially movable towards and away from a central axis of the urethra. The apparatus further comprises an operation device configured to operate the clamping elements, and an implantable motor configured to operate the operation device. The operation device is configured to operate the movement of the clamping elements such that the movement is predominantly inelastic, and such that a clamping force, acting on the urethra, is distributed between the clamping elements.

A method of laparoscopically implanting an electrically stimulating lead proximate the lower esophageal sphincter (LES) of a patient includes delivering the lead through a port of a laparoscope inserted into the abdominal cavity of the patient through an incision in the abdominal wall. The stimulating electrode is implanted in or proximate the muscularis layer of the lower esophageal wall to treat esophageal reflux disease (GERD). The lead includes a needle and suture at its distal end for pulling the electrode into the muscular wall of the LES. Clips are applied to the suture attached to the distal end of the lead to prevent retrograde movement of the electrode. The lead also includes an anchoring member for anchoring the portion of the lead proximal to the electrode. The method and lead used with the method allow the surgeon to work within the confined anatomy present at the gastroesophageal junction and prevents backwards movement and dislodgment of the electrode. The implantation procedure can be combined with a hiatal hernia repair to repair the hernia and prevent recurrence of a hiatal hernia.

A system for stimulating the release of satiety hormone in a subject comprises a stimulus device which is implantable in the subject and adapted to apply an electrical stimulus to a tissue of a gastrointestinal system of said subject, and a detection device which is implantable in the subject and adapted to continuously monitoring at least one of a mechanical characteristic and an electrical characteristic of the subject to detect an ingestion of food by said subject, wherein the detection device cooperates with the stimulus device such that the stimulus device applies said electrical stimulus in response to a detected ingestion of food.

The present invention relates to method for implanting a medical device for controlling a flow of fluid in a lumen formed by a tissue wall of a patient's urethra. The method is performed by: cutting the skin of the patient, inserting a dissecting tool and dissecting an area of at least one portion of the tissue wall of the urethra, placing an adjustable constriction device in the dissected area in operative engagement with the urethra, placing an operation device configured to operate the adjustable constriction device to control the flow of urine in the urethra in the patient's body, placing a sensor configured to sense a temperature of the medical device in the patient's body, and placing a control unit in the patient's body configured to control the operation device based on information from the sensor.