The present invention provides a method for treating diabetes and nonalcoholic fatty liver disease (NAFLD), associated condition or disorder thereof, or symptoms thereof suffered by a subject such as a mammal (e.g. a human patient or a pet), comprising (1) placing one or more electrodes within a target blood vessel of the subject and against the target blood vessel wall, wherein the target blood vessel includes the celiac artery and/or a segment of the abdominal aorta terminated at its junction with the celiac artery; (2) adhering a surface electrode on an external surface such as skin of the subject; and (3) releasing a therapeutically effective amount of radiofrequency energy through the one or more electrodes to nearby tissues, so as to increase the temperature of the nearby tissues and induce a thermal alteration of the nearby tissues.

Methods and systems can facilitate visualizing cathodic and anodic stimulation separately via displaying and modifying graphical representations of anodic and cathodic volumes of activation. Alternately, the methods and systems may separately visualize stimulation of different neural elements, such as nerve fibers and neural cells. These methods and systems can further facilitate programming an electrical stimulation system for stimulating patient tissue.

A biomedical device having improved handling features to be easily inserted into a cavity or recess is disclosed, as well as methods for using thereof, said device comprising a flat and soft substrate, comprising electrically conductive tracks, configured to interface a biological surface; and a rigid member located on a portion of said flat and soft substrate, said member being substantially composed of a mechanically adaptive material being fully or partially degradable upon a degrading/softening trigger.

A method for treating a male impotent patient, the method comprising the steps of cutting the skin of the patient, inserting a dissecting tool and dissecting an area of at least one portion of a tissue wall of a penile portion, and placing a medical device. The medical device comprises a constriction device configured to gently constrict the penile portion to restrict the blood flow leaving the penis, and a stimulation device configured to stimulate the penile portion constricted by the constriction device to at least further restrict the blood flow leaving the penis to achieve erection.

The present invention relates to an electrode assembly system for treatment of internal organ oedema by electro-osmosis and/or electrophoresis by delivering an electric field, the system comprising a first electrode, a second electrode, and a control unit, wherein the first electrode and second electrode are electrically connected to the control unit, the control unit being adapted to charge the first electrode negatively and the second electrode positively, and to directly control a strength of an electric field induced by the first electrode and the second electrode to a preset value for generating a treatment-specific electric flux. The present invention also relates to the use of such system, as well as a process of treatment of internal organ oedema using such system.

The present disclosure relates to a device for applying electrical stimulation to biological tissues. Specifically, the present disclosure is related to a device for applying anodal/cathodal biphasic electrical stimulation to beta cells of the pancreas. Through application of biphasic stimulation to beta cells of the pancreas, insulin secretion can be increased in an effort to overcome deficiencies associated with diabetic patients.

GI tract treatment and monitoring devices configured for temporary implantation in the GI tract and non-invasive removal via natural body processes are disclosed. Methods of implantation, treatment and monitoring with disclosed devices are also disclosed. Devices include bio-active fixation that allows removal from the body by natural processes after a time that may be engineered in the fixation elements. In some embodiments, devices are configured to be implanted on GI tract tissue and transmurally migrate into the GI tract to be passed from the body. In other embodiments, devices are configured for placement within the GI tract via a delivery tube such as an NJ/NG tube. Embodiments include stimulation devices for treating conditions such as ileus and sensors for monitoring GI leaks and/or biological or chemical markers for various GI tract conditions.

Embodiments of the invention provide apparatus and methods for stimulating L cells in the intestinal tract to produce incretins for the treatment of conditions including diabetes and obesity. Many embodiments provide a method and apparatus for the treatment of diabetes by electrically stimulating L-cells to secrete incretins to stimulate or otherwise modulate the production of insulin. Particular embodiments provide a swallowable capsule for stimulating L-cells in the intestinal tract as the capsule moves through the tract. The capsule can include two or more electrodes for providing electrical stimulation to L-cells, a power source for powering one or more components of the capsule, a sensor for sensing the location of the capsule in the intestinal tract: a controller and a waveform generator for generating the electrical signals emitted by the electrodes to stimulate the L-cells to secrete incretins such as GLP-1 to stimulate insulin production for glucose regulation of diabetic conditions.

There is provided a method for treating a male impotent patient comprising stimulating at least one portion of the patient's normal penile tissue or the prolongation thereof to at least restrict the blood flow leaving the penis to achieve erection. To improve the erection effect the method further comprises gently constricting the penile portion or the prolongation thereof to restrict the venous blood flow in the penile portion, and then stimulating the constricted penile portion to cause contraction of the penile portion to at least further restrict the blood flow leaving the penis to achieve erection.

A method for treating a male impotent patient, the method comprising the steps of cutting the skin of the patient, inserting a dissecting tool and dissecting an area of at least one portion of a tissue wall of a penile portion, and placing a medical device. The medical device comprises a constriction device configured to gently constrict the penile portion to restrict the blood flow leaving the penis, and a stimulation device configured to stimulate the penile portion constricted by the constriction device to at least further restrict the blood flow leaving the penis to achieve erection.