A method includes, inserting into an organ of a patient, a catheter having an expandable distal-end assembly, which is coupled to a shaft and includes multiple splines, at least a given spline among the multiple splines includes an electrode that is being placed in contact with tissue of the organ. At least a size of a section of the electrode in contact with the tissue, is controlled by moving a tube over at least a portion of the expandable distal-end assembly.

The present invention provides a stretchable and flexible multi-leads ECG monitoring apparatus having a primary circuitry encased in a thin and flexible polymer patch configured to be worn on a human body. At least four flexible leads are connected to the primary circuitry at a first end and are configured to be connected to ECG electrode patches at a second end. The ECG electrode patches being configured to be attached to a plurality positions on a human body. The wireless transmitter is configured to transmit the ECG monitoring signals to a receiving device for recording or displaying the ECG monitoring signal.

The present invention provides a stretchable and flexible multi-leads ECG monitoring apparatus having a primary circuitry encased in a thin and flexible polymer patch configured to be worn on a human body. At least four flexible leads are connected to the primary circuitry at a first end and are configured to be connected to ECG electrode patches at a second end. The ECG electrode patches being configured to be attached to a plurality positions on a human body. The wireless transmitter is configured to transmit the ECG monitoring signals to a receiving device for recording or displaying the ECG monitoring signal.

An electrocardiography device (ECG device) designed for use in combination with a magnetic resonance device, including: a carrier unit; a receiving unit designed to mount on the carrier unit; an electrode; an electrode conductor connecting the electrode to the receiving unit, wherein the electrode conductor is stabilized at least partially by way of a shapeable guide element.

An electrode configured for use in electromyography procedures including a shaft having a first end and a second end, where the shaft consists of a conductive material; an electrically insulative first coating configured to encase the conductive material; a tapered tip at the first end of the shaft, where the tip is angled and is formed by removing the first coating from a first portion of the shaft and exposing a first length of conductive material; and a hub positioned at the second end of the shaft, wherein the hub is positioned after removing the first coating from a second portion of the shaft and exposing a second length of conductive material, wherein the hub is configured to electrically couple a lead wire to the second length of conductive material at the second end.

An electrode configured for use in electromyography procedures including a shaft having a first end and a second end, where the shaft consists of a conductive material; an electrically insulative first coating configured to encase the conductive material; a tapered tip at the first end of the shaft, where the tip is angled and is formed by removing the first coating from a first portion of the shaft and exposing a first length of conductive material; and a hub positioned at the second end of the shaft, wherein the hub is positioned after removing the first coating from a second portion of the shaft and exposing a second length of conductive material, wherein the hub is configured to electrically couple a lead wire to the second length of conductive material at the second end.

A method of processing of electrocardiogram includes the steps of providing an electrocardiogram comprising signals in at least two channels; selecting at least two frequency ranges of the signal in each of the said at least two channels; calculating an envelope for the signal in each frequency range in each channel; dividing the calculated envelope of the signal in each frequency range in each channel into QRS complex segment envelopes; and computing an average or median envelope as an average or mean of QRS complex segment envelopes for each frequency range in each channel.

A system provides a burr hole cap assembly configured to secure a position of a lead implanted through a burr hole in a cranium of a patient. One or more electrodes are coupled to one or more components of the burr hole cap assembly. The one or more electrode is disposed within the burr hole cap assembly for sensing signals within a brain of the patient or stimulating a portion of the brain of the patient.

A system provides a burr hole cap assembly configured to secure a position of a lead implanted through a burr hole in a cranium of a patient. One or more electrodes are coupled to one or more components of the burr hole cap assembly. The one or more electrode is disposed within the burr hole cap assembly for sensing signals within a brain of the patient or stimulating a portion of the brain of the patient.

A wearable article (1) includes a sensor assembly (104) for sensing biosignals of a wearer of the wearable article, and an electronic device (102) that can be attached to the sensor assembly to receive and the process biosignals. The electronic device is detachable from the garment and includes a housing (128a, 128b). The electronic device is retained in place by means of a magnet (132) within the housing which cooperates with a magnet on the garment. The sensor assembly includes a sensing electrodes and conductors (112; 122a) which couple the sensing electrodes to an interface that is configured to couple the sensed biosignals to the electronic device. The electronic device attaches to the garment at the interface. The electronic device includes one or more contacts (138b) which engage with the interface at the conductors so that biosignals can be coupled to the electronic device. The garment can also include a locating ring (130) to help locate the electronic device on the garment. The electronic device can be easily attached by a wearer, for example with the use of only one hand.