A support garment for supporting a patient wearable defibrillator is made from a fabric having an outside surface and an inside surface and is configured to be worn about a chest of a patient. The support garment includes a back portion and a front portion connected to the back portion. The back portion and the front portion are configured to support a plurality of sensing electrodes and at least one therapeutic defibrillator electrode on the inside surface thereof. The front portion of the support garment further includes at least one bra portion. The at least one bra portion is configured to support front upper torsal female anatomy.

Methods and apparatus are provided for pulsed electric field neuromodulation via an intra-to-extravascular approach, e.g., to effectuate irreversible electroporation or electrofusion, necrosis and/or inducement of apoptosis, alteration of gene expression, changes in cytokine upregulation and other conditions in target neural fibers. In some embodiments, the ITEV PEF system comprises an intravascular catheter having one or more electrodes configured for intra-to-extravascular placement across a wall of patient's vessel into proximity with target neural fibers. With the electrode(s) passing from an intravascular position to an extravascular position prior to delivery of the PEF, a magnitude of applied voltage or energy delivered via the electrode(s) and necessary to achieve desired neuromodulation may be reduced relative to an intravascular PEF system having one or more electrodes positioned solely intravascularly. The methods and apparatus of the present invention may, for example, be used to modulate one or more target neural fibers that contribute to renal function.

A non-invasive method and device for treating gastroesophageal reflux disease (GERD) in a patient are disclosed. The method calls for positioning electrodes, and applying electrical symmetrical bursts. In particular, positioning step requires positioning a plurality of electrodes in electrical contact with the skin of a target region of the abdomen of the patient. The application step calls for applying a series of electrical symmetrical bursts to said electrodes. That application step generates contractions of abdominal muscles thereby generating movements of a digestive system of said patient wherein said movements are for causing the content of the esophagus to return to the stomach and to relieve GERD symptoms of said patient.

A low-frequency treatment device includes: a pad configured to be attached to a body of a user; a holder configured to hold the pad; and a main body portion configured to be attached to the holder. The holder and the main body portion are engaged, with a clearance of a predetermined distance for arranging the pad being formed therebetween. Electrical conduction established between a pad-side electrode portion included on the pad and a main body portion-side electrode portion included on the main body portion by coming into contact with each other in the clearance of the predetermined distance. At least one electrode portion among the pad-side electrode portion and the main body portion-side electrode portion can perform movement in a direction of approaching and separating from the other electrode portion and is biased in the approaching direction.

A system and method for providing therapy to a patient can include a monitoring unit and a therapy unit. The monitoring unit can have a user interface and one or more sensors to measure patient data. The therapy unit can have a stimulator for generating electrical stimulation and a microcontroller for controlling the generation of the electrical stimulation based on the measured patient data.

A device and method for carrying out dialysis and stimulation of a patient at the same time, in which an inflatable/deflatable cuff applies the stimulation.

The present invention relates to a portable body-contact therapeutic device comprising a main body having a first main body member and a second main body member combined in a clip form such that pants, panties or a belt are worn by being inserted between the opposing surfaces from one side, characterized in that in a state that the pants, the panties or the belt are worn by being inserted in the main body, the outer surface of the first main body member is formed toward the body outside and the outer surface of the second main body member is formed so as to contact the body skin, wherein a current output circuit for outputting a current is included on the inside of the main body, and a main body electrode pad to which the current outputted from the current output circuit is applied is formed in the outer surface of the second main body member. According to the present invention, it is possible to provide a portable body-contact therapeutic device which can easily be worn so as to directly contact the body, and which can maximize the therapy effect for each of various women's diseases.

A device for transcutaneous electrical stimulation is provided. The device comprises circuitry configured to generate transcutaneous stimulation signals. The device also comprises a first signal output component for electrically connecting to a first electrode connector to deliver generated transcutaneous stimulation signals. The first signal output component comprises a first four-pole electrical connector part. The device further comprises a second signal output component for electrically connecting to a second electrode connector to deliver generated transcutaneous stimulation signals. The second signal output component comprises a second four-pole electrical connector part. The device further comprises a controller to selectively control output of the stimulation signals to selected pairs of poles across the first and second four-pole electrical connector parts. Each selected pair of poles comprises one pole from the first four-pole electrical connector part and one pole from the second four-pole electrical connector part.

An electrode connector assembly for use in transcutaneous electrical stimulation includes a flexible web extending in a plane and first, second, third and fourth electrode connectors carried by the web and spaced from each other about the web in the plane. The electrode connector assembly further includes an electrical connector and first, second, third and fourth conductors electrically coupling the respective first, second, third and fourth electrode connectors to the electrical connector.

A device for functional electrical stimulation, including a garment mountable on a user's body part, an assembly having a socket and an electrode in turn having electrode pads and a stimulator with a controlling mechanism for activating/deactivating stimulating electrical signals to be provided to at least some of the electrode pads. The garment defines a hollow area configured to receive the socket, the socket configured to house the stimulator. In use of the device, a first portion of the electrode is in contact with an inner surface of the garment, the electrode pads are in a fixed position with respect to the garment, and a second portion of the electrode is in contact with a surface of the socket for receiving the stimulating electrical signals delivered by the stimulator. A system may include the device and a sensor configured to be positioned on either user or in proximity thereto.