It is provided an electrode extension assembly comprising: a fastener for releasably fastening the electrode extension assembly to a user; a device holder for releasably holding a portable sensor device configured to capture electrocardiogram signals and audio signals; at least two extenders extending radially outwards from the device holder, wherein each extender comprises: a connector configured to connect to a respective electrode of the portable sensor device; an outer electrode connected at a distal end of the extender, the outer electrode being configured to be applied to a user; a conductor connected on one end to the connector and on the other end to the outer electrode; and an audio signal conveyor for conveying audio signals from the user to an audio sensor of the portable sensor device.

One aspect relates to a medical electrode, having a conductor, an insulation, which surrounds the conductor at least in some sections over its entire circumference, protrusions in the insulation, electrode segments arranged between the protrusions, and insulating areas arranged between the electrode segments, wherein the electrode segments have steps, wherein the steps engage with the insulating areas.

One of the methods includes positioning the physiological data acquirer on the body of a mammal with the electrodes exposed to the body; activating a data acquisition mode of operation of the physiological data acquirer and acquiring physiological data from the user when in said data acquisition mode. Another one of the methods includes extracting the acquired data using a data extraction device.

One of the methods includes positioning the physiological data acquirer on the body of a mammal with the electrodes exposed to the body; activating a data acquisition mode of operation of the physiological data acquirer and acquiring physiological data from the user when in said data acquisition mode. Another one of the methods includes extracting the acquired data using a data extraction device.

A bioelectrode sheet (100) is configured to be affixed to the skin of a subject, a drug (104b) being mixed in an adhesive layer (104) provided at a peripheral position of a conductive gel layer (103) so as to avoid the conductive gel layer (103). The drug (104b) admixed with the adhesive layer (104) can thereby be caused to penetrate the body while biological information is acquired by an electrode (102) via the conductive gel layer (103).

A bioelectrode sheet (100) is configured to be affixed to the skin of a subject, a drug (104b) being mixed in an adhesive layer (104) provided at a peripheral position of a conductive gel layer (103) so as to avoid the conductive gel layer (103). The drug (104b) admixed with the adhesive layer (104) can thereby be caused to penetrate the body while biological information is acquired by an electrode (102) via the conductive gel layer (103).

An electrode device is disclosed that is removably implantable at least partially in a bone or other tissue. The electrode device includes a head and a shaft connected to the head. The shaft has a shaft body extending distally from the head in an axial direction of the shaft, and a conductive element including a conductive surface at a distal end of the shaft. A plurality of discrete anchor elements can project from an outer surface of the shaft body in a transverse direction of the shaft. A conductive wire can be permanently fixed to a proximal end surface of the conductive element, the end surface being located in or adjacent the head. The head can have a convex outer surface and a concave inner surface. An electrode array and a reamer tool is also disclosed.

A clamping device (1), for coupling a sensor cable (2) to an electrical contact, has a circumferential, elastically deformable frame (3). The frame has an outer surface (5), an inner surface (6) facing an inner area (4), a first end face (7) and an opposite second end face (8). A contact device (9) is held at the frame and extends into the inner area. A counter-holding device (10), at the frame, has a counter-holding element (11). The contact device and the counter-holding device form a receiving space for holding the electrical contact in a holding position. A relative movement into a first released position is brought about by a pressing on both sides from the outside against the outer surface on a first frame axis (12). A second released position is provided by pressing on both sides against the frame outer surface on a second frame axis (13).

An electronic sensor device has one or more sensor electrodes and one or more electrical conductors printed on a substrate. Textile layers are attached on either side of the substrate with access to the electrical conductors provided by a conductive snap assembly. The substrate can be a TPU (thermoplastic polyurethane) film. The sensor can be a biosensor, and the biosensor is attached to a compression textile, such as a compression shirt, and electrically interconnected using printed conductive ink interconnects to a conductive snap button.

A system for heart monitoring including an electronic monitoring unit, a flexible carrier member, and a liner. The flexible carrier member includes a central void adapted to carry the electronic monitoring unit within the void and a back surface having a first connector component. The liner includes a back, adhesive surface, an opposing front surface, and a second connector component located on the front surface and adapted to secure to the first connector component of the flexible carrier member.