Abstract: An implantable cuff electrode and/or optrode adapted to encircle a substantially cylindrical body tissue, and selected among self sizing cuff and a split cylinder cuff, is provided and includes a support sheet rolled about a longitudinal axis to form a cuff electrode/optrode, with an inner handling flap provided that includes a coupled end belonging to a coupled portion which is fixed to a portion of the outer surface of the support sheet which is adjacent to the inner edge, and a free end, opposite the coupled end belonging to a free portion adjacent to the coupled portion and separated therefrom by a transition line, said free portion being loose from the outer surface of the support sheet.

Abstract: An implantable cuff electrode and/or optrode (40) adapted to encircle a substantially cylindrical tissue (70), is provided that includes a support sheet (43) rolled about a longitudinal axis, forming a cuff of inner diameter, Dc, and extending over a length, L a central portion, extending over a length, lc, of at least 50% of the length, L, and having a mean central thickness, tc, and wherein the central portion is flanked on either side by, a first edge portion (43e) of mean edge thickness, te1, and a second edge portion (43e) of mean edge thickness, te2, at least a first electrode contact or a first optrode exposed at an inner surface of the cuff, and remote from an outer surface forming the exterior of the cuff, Characterized in that, the mean edge thicknesses, te1, te2, of the first and second edge portions are each lower than tc.

Abstract: A kit of parts and method for the control of a delivery of an electric or electromagnetic pulse to a vagus nerve by an implanted stimulating device is provided. The kit of parts includes an implantable stimulating device (10) that includes a cuff electrode/optrode for being coupled to a vagus nerve (Vn) of a patient to be treated, and an encapsulation unit (50) suitable for being subcutaneously implanted at a location separated from the vagus nerve coupling unit (60), and enclosing an energy pulse generator (51s), for delivering electrical or optical energy pulses, and coupled to the cuff electrode/optrode by one or more electrical conductors (41e) and/or optical fibres (41f), an external controller device (100) of the kit includes laryngeal electrodes (161) suitable for being coupled to a laryngeal region (Lx) of a patient for measuring a laryngeal electrical activity at the laryngeal region, the laryngeal electrodes being coupled to an external control unit (150).

Abstract: An optoelectronic electrode element includes an electrode module (40) having at least a first and second electrodes (41, 42) each having an electrode surface (41s, 42s). An an optoelectronic module (20) is provided and having a photovoltaic cell (21a) suitable for transforming optical energy into electrical energy. A feeding fibre optic (31a) is also provided. A coupling module (10) is provided and having a circuit receiving portion (12) for inserting, positioning, and rigidly fixing the optoelectronic module (20) to the coupling module (10); and a feeding fibre cavity (11a) for inserting and coupling the feeding fibre optic to bring it in optimal optical communication with the photovoltaic cell. The coupling module (10) is coupled directly to a fixing area of the electrode module (40), such that the photovoltaic cell be in electrical contact with the first and second electrodes (41, 42).

Abstract: An implantable cuff electrode and/or optrode (40) adapted to encircle a substantially cylindrical tissue (70), is provided that includes a support sheet (43) rolled about a longitudinal axis, forming a cuff of inner diameter, Dc, and extending over a length, L a central portion, extending over a length, lc, of at least 50% of the length, L, and having a mean central thickness, tc, and wherein the central portion is flanked on either side by, a first edge portion (43e) of mean edge thickness, te1, and a second edge portion (43e) of mean edge thickness, te2, at least a first electrode contact or a first optrode exposed at an inner surface of the cuff, and remote from an outer surface forming the exterior of the cuff, Characterized in that, the mean edge thicknesses, te1, te2, of the first and second edge portions are each lower than the mean central thickness, tc,

Abstract: An optoelectronic electrode element includes an electrode module (40) having at least a first and second electrodes (41, 42) each having an electrode surface (41s, 42s). An an optoelectronic module (20) is provided and having a photovoltaic cell (21a) suitable for transforming optical energy into electrical energy. A feeding fibre optic (31a) is also provided. A coupling module (10) is provided and having a circuit receiving portion (12) for inserting, positioning, and rigidly fixing the optoelectronic module (20) to the coupling module (10); and a feeding fibre cavity (11a) for inserting and coupling the feeding fibre optic to bring it in optimal optical communication with the photovoltaic cell. The coupling module (10) is coupled directly to a fixing area of the electrode module (40), such that the photovoltaic cell be in electrical contact with the first and second electrodes (41, 42).