Abstract: A medical device includes a case and a core assembly. The core assembly includes operational circuitry enclosed within a core assembly housing. The medical device also includes a battery assembly, which includes a battery enclosed within a battery housing. The case includes the core assembly housing and the battery housing. A first electrode is coupled to, and electrically isolated from, the case; and a second electrode is electrically coupled to the case. The second electrode is electrically coupled to the operational circuitry via a sensing pathway that includes a portion of the case. The battery is electrically coupled to the operational circuitry via an energy supply pathway that includes the portion of the case.

Abstract: A stick-on biosensor capable of acquiring satisfactory biological information is provided. The stick-on biosensor includes a pressure-sensitive adhesive layer and an electrode part, said pressure-sensitive adhesive layer having a stick-on surface to be attached to a subject; a base material layer provided on the side opposite the stick-on surface of the pressure-sensitive adhesive layer; and an electronic device provided on the base material layer and configured to process a biological signal acquired through the electrode part. A structure, which includes the pressure-sensitive adhesive layer, the electrode part, and the base material layer, has a flexural rigidity of 0.010 [MPa·mm3/mm] or higher, and an adhesive strength of the electrode part to adhere to the subject is greater than 0.6 [N/cm2] and less than or equal to 5.0 [N/cm2].

Abstract: The purpose of the present invention is to provide a biological information measuring garment having excellent exterior design, and yet with high measurement accuracy. A biological information measuring garment is provided with an electrode support portion which is joined to a garment body with an amount of freedom and which preferably has a covered-binding structure (looped structure), wherein the amount of freedom of the electrode support portion is set in a predetermined range such that, even when an electrode is in contact with the skin and in a semi-fixed state, the outer side of the garment can accommodate natural movements. In addition, a garment includes at least: a cup portion which covers the female breasts; and a front body, the garment further including on the inside thereof an electrode support portion provided with an electrode for biological information measurement.

Abstract: A first electrode and a second electrode are attached to a subject. A processor module acquires physiological information of the subject based on biopotential that are detected by the first electrode and the second electrode, respectively. A housing has a battery housing member for housing a primary battery which supplies an electric power to the processor module. The processor module is attachable to and detachable from the housing.

Abstract: A microelectromechanical device and method for neuroprosthetics comprises microactuators and microelectrodes. The microelectrodes are to be positioned in a nerve bundle and bonded with the microactuators through an interconnect. The position of each of the microactuators can be individually tuned through control signals so that the microelectrodes are implanted at desired positions in the nerve bundle. The control signals are transmitted to the microactuators and generated with a open-loop or closed-loop control scheme that uses signals acquired by the microelectrodes from the nerve bundle as feedback.

Abstract: A hand tool has a pivot connection pivotally attaching a first arm to a second arm, with the pivot connection fixed relative to the first arm and movable to first and second positions relative to the second arm. A spring urges the pivot connection into the first position. When jaws on the front ends of the arms clamp tissue with force greater than a pre-set threshold, the spring force is overcome and the jaws may move linearly apart, allowing for more uniform clamping of the tissue. The first arm may have an arm spring extending between a front segment pivotally attached to a rear segment of the first arm.

Abstract: A wearable electrode includes an electrode (203) fixed to garment (21) such that the electrode (203) can simultaneously come in contact with the skin of respective parts from the ventral side to the dorsal side of the upper left part of the body of a wearer (20), and an electrode (204) fixed to the garment such that the electrode (204) can simultaneously come in contact with the skin of respective parts from the ventral side to the dorsal side of the upper right part of the body of the wearer (20). The electrodes (203, 204) are installed such that the attaching positions gradually descend from the ventral side to the dorsal side with the wearer (20) standing upright, or the attaching positions gradually ascend from the ventral side to the dorsal side with the wearer (20) standing upright.

Abstract: A physiological signal collection electrode comprising a signal collection portion, a signal output terminal and a signal transmission portion interconnecting the signal collection portion and the signal output terminal, wherein the signal collection portion comprises a signal collection pad and the signal transmission portion comprises a signal transmission pad, wherein the signal collection portion and the signal transmission portion are integrally formed into an elongate and conductive electrode pad which extends in a longitudinal direction along a longitudinal axis; wherein the signal collection portion has a signal collection surface for making abutment contact with a signal surface and the signal collection surface is parallel to the longitudinal axis; and wherein the signal output terminal is parallel to the signal collection surface, extends transversely to the longitudinal axis and protrudes above the signal collection surface.

Abstract: A flexible neural electrode array is provided, comprising a layer of metal which is arranged on a first layer of polymeric material and which forms a number of contact pads. The first layer of polymeric material is flexible along a predefined direction, each contact pad of the number of contact pads having a sequence of cuts through the metal, each cut extending in a straight line across the predefined direction. Each cut has an inner end and an outer end, the inner end being within the contact pad, the outer end being at an edge of the contact pad, and each second cut of the sequence of cuts having its outer end at the same edge of the contact pad. A method is further provided for fabricating a flexible neural electrode array.

Abstract: An input device includes two conductors that are sewn onto a fiber sheet and an output unit configured to determine an impedance variation in a predetermined area on the basis of a voltage value between the two conductors to which a high-frequency current is applied.

Abstract: A mono-layer electrode sensor suitable for a multitude of electrophysiology testing applications is disclosed. The electrode sensor can include a mono-layer of conductive film shaped with a soft-form geometry that is modifiable to a targeted size tailored to a patient. The conductive film includes a sensing area that is complementary to a size and morphology of a body structure of the patient. The conductive film can have a connector coupled to the sensor, and the skin adherent side can have a bio-compatible hydrogel coated there over including a non-conductive material formed over the connector portion of the conductive film.

Abstract: A partially-masked electrode includes a conductive material and an insulated coating having an outer surface. The insulated coating defines a contoured opening that exposes or reveals an area of the conductive material, wherein the contoured opening has an upper perimeter at the outer surface of the insulated coating. When the upper perimeter of the insulated surface coating is placed in contact with a tissue of interest, wherein the tissue of interest is proximate a blood pool, the insulated coating creates a seal between the blood pool and the contoured opening so that no blood in the blood pool can contact the conductive material. This seal reduces or eliminates the reception of far field effects in the blood pool by the electrode, making it easier to locate and diagnose unhealthy tissue.

Abstract: An electroencephalogram electrode includes: a bottom portion on which a connection member is placed, the connection member which is configured to supply a biological signal that is acquired from a subject through conductive gel, to an external apparatus; an annular wall which annularly extends from the bottom portion in a contact direction with respect to the subject; and a plurality of barb members which are disposed in a holding space for the conductive gel that is located inside the annular wall, and which elongate from the bottom portion in the contact direction with respect to the subject.

Abstract: Embodiments of the disclosure provide systems and methods for wearable dry electrodes for collecting biometric information. According to one embodiment, a dry electrode bio-sensor can comprise one or more conductive pads comprising electrodes of the dry electrode bio-sensor and one or more connectivity traces coupled with each of the one or more conductive pads. The connectivity traces can provide electrical connections for one or more of power to the one or more conductive pads or signals comprising biometric information from the one or more conductive pads. A backing can be coupled with and can retain the one or more conductive pads and the one or more connectivity traces. The dry electrode bio-sensor can comprise an electrocardiography (ECG) sensor, a respiration sensor, a PhotoPlethysmoGram (PPG) sensor, a temperature sensor, an electromyography (EMG) sensor, or another biometric sensor.

Abstract: The present invention comprises a heat transfer vest. The vest is configured to mount a plurality of heat transfer packs on its interior surface. In the preferred embodiments the appropriate portions of the interior surface are covered in a hook-compatible material. In these versions, the thermal transfer packs include one or more hook panels that are used to attach the packs to the interior surface.

Abstract: An electrocardiography device is provided, including an adhesive assembly, a printed circuit board, two electrodes, a power supply assembly, and a sensing assembly. The printed circuit board is disposed on the adhesive assembly. The electrodes are connected to the circuit board and arranged along a first direction. The power supply assembly and the sensing assembly are disposed on the adhesive assembly and arranged along a second direction. The first direction is different from the second direction, and the power supply assembly is separate from the sensing assembly.

Abstract: A biosensor having a satisfactory wearing comfort is provided, taking the compressive elastic modulus, the thickness and the planar area of the component into account. The biosensor includes a substrate having a rigidity K of 3.0 N·mm2 or less expressed by following formula (1), and a component provided on a first main surface of the substrate, the component having a rigidity that satisfies following formula (2) and is equal to or greater than a predetermined value, K=ET3/12??(1) K?6.34×1014×S?10.6??(2) where E and T in formula (1) denote a compressive elastic modulus at 23° C. expressed in megapascals (MPa), and a thickness expressed in millimeters (mm), respectively. In formula (2), K denotes the rigidity expressed by formula (1) in newton millimeters squared (N·mm2), and S denotes a planar area expressed in square centimeters (cm2).

Abstract: Disclosed embodiments provide an electroencephalogram system and method. A novel electrode holder provides multiple net grooves for quick attachment and detachment from an electroencephalogram net. The electrode holder further includes a slot adapted to receive a tab that holds the electrode securely in place. The electrode holder can be configured to operate without gel by using sponges containing water or saline solution that provides moisture for enhancing conductivity. The electrode holder can alternatively be configured to operate with gel by using a tab that keeps the gel in contact with the electrode, for situations that warrant the use of gel instead of water.

Abstract: We disclose a portable wearable device for measuring electrocardiographic signals, the device comprising a first portion comprising at least two electrodes; a second portion comprising at least three electrodes; the first portion and the second portion being vertically spaced from one another; a controller configured to take: a first potential difference measurement using one of the electrodes of the first portion and one of the electrodes of the second portion; a second potential difference measurement using one other of the electrodes of the first portion and one other of the electrodes of the second portion; and a third potential difference measurement using one other of the electrodes of the first portion and one other of the electrodes of the second portion. The controller is configured to simultaneously take the first, second and third potential difference measurements at three independent positions of a user's body.

Abstract: A sensor device includes a sensor housing defining a channel extending along a channel axis through the housing from a first side of the sensor housing to a second side of the sensor housing opposite the first side, at least one contact electrode extending from the first side of the housing, an electrically-conducting lead attached to the housing in electrical communication with the at least one contact electrode, and a locking mechanism located in the channel permitting one-way axial motion of a thread threaded through the channel from the first side to the second side.