An electrocardiography (ECG) physiological monitoring system including an ECG sensor assembly further having at least a first capacitive electrode fabric layer configured to electrically couple to the subject's skin and detect ECG signals, a second reference electrode fabric layer that is configured to shield the first capacitive electrode fabric layer from electromagnetic interference, an electronics module that is in direct communication with the ECG sensor assembly and programmed to control the ECG sensor assembly, process ECG signals therefrom, and wirelessly transmit the processed ECG signals, and transmission conductors that are configured to provide a signal communication path between the electronics module and the ECG sensor assembly.

A lightweight, disposable and substantially radiolucent electrode or sensor assembly for that universally connects to separate, non-integrated electrodes or sensors for the monitoring of the physiological parameters of a live subject wherein the electrode assembly is comprised of one or more radiolucent electrical connectors for connecting the electrode assembly to the sensors. The present invention also discloses a method of positioning the electrode assembly on a patient whose physiological signs are being monitored such that access to the patient's chest is substantially unimpeded so as not to obstruct the electromagnetic imaging of the patient's chest, the application of defibrillation paddles or surgical procedures that require access to the chest area.

A bioelectrode including a plate, a first electrode disposed on a first side of the plate, and a second electrode disposed on the first side of the plate and separate from the first electrode. The bioelectrode further includes a first guard portion disposed on a second side of the plate, a second guard portion disposed on the second side of the plate and separate from the first guard portion, and a preamplifier configured to output a voltage signal based on a biosignal measured between the first electrode and the second electrode.

A pair of new catheters designed to be deployed as a catheter system to allow a simultaneous acquisition of electrograms from widely dispersed electrodes in the left atrium, right atrium, and coronary sinus. The first catheter is the spiral globe catheter which has the primary shape of a spiral globe and has additional modifications to facilitate safe entry into the left atrium, to orient the primary axis of the spiral globe toward the mitral valve, and to maximize contact of electrodes to multiple areas of the left atrium. The second catheter is the right atrial and coronary sinus catheter (RA-CS catheter) which allows for electrogram acquisition from the length of the coronary sinus and dispersed areas of the right atrium. The catheter system is designed to provide adequate electrode sensor information so that panoramic mapping of the both atria and the coronary sinus may be performed.

Ambulatory monitoring of human health is provided by a multi-component multi-sensor wireless wearable biosignal acquisition system comprising a torso device and a peripheral device communicating wirelessly, and a mobile phone for receiving collected data and uploading it over cellular network or WiFi to a remote computer for multivariate analysis. Biosignals include EKG and PPG, from which a determination of pulse transit time can be made.

A flexible dry electrode comprises a multi-walled carbon nanotube (MWCNT)/polydimethylsiloxane (PDMS) composite. The flexible dry electrode may be utilized for monitoring electrocardiogram (ECG) signals. The dry ECG electrode may be fabricated by screenprinting silver (Ag) ink on flexible polyethylene terephthalate (PET) substrate, followed by bar coating of a MWCNT/PDMS composite.

Various embodiments of the present disclosure relate to an electronic device for measuring biometric information and a device for charging the electronic device. The electronic device may include a housing having a top surface and a bottom surface, a first electrode disposed on the top surface of the housing, the first electrode electrically isolated from rest of the top surface, a second electrode disposed on the bottom surface of the housing and contacting a user's body when the electronic device is worn by the user, a sensor module electrically coupled to the first electrode and the second electrode, a processor electrically coupled to the sensor module, a display module electrically coupled to the processor; and a memory electrically coupled to the processor. The memory can store instructions that, when executed by the processor, causes the sensor module to measure the user's bio-signal using the first electrode and the second electrode, and the processor to provide the user's health state information by analyzing the measured bio-signal. Further, various embodiments can be implemented on the basis of the technical spirit and scope of the present disclosure.

The present invention relates to a method of diagnosing whether a subject with no known history of atrial fibrillation is suffering from atrial fibrillation, or not, said method comprising the steps of a) determining the amount of a BNP-type peptide in a sample of said subject; b) comparing the amount the BNP-type peptide to a reference, and c) assessing intermittent ECG recordings obtained from said subject over a period of at least one week by using a handheld ECG device.

A wrist-type body composition measuring apparatus is provided to measure body composition conveniently. The wrist-type body composition measuring apparatus includes a main body comprising a measurer configured to measure body impedance of a user, and an analyzer configured to analyze a body composition of the user based on the measured body impedance; a strap connected to the main body and configured to be flexible; a first inner electrode and a second inner electrode which are provided on a rear surface of the main body to be in direct contact with the user; and a first outer electrode and a second outer electrode which are provided on a surface of the main body to be in contact with the user during measurement of the body composition, wherein the first outer electrode and the second outer electrode are each formed as a half ring and face each other with a gap therebetween.

The present disclosure describes systems, apparatus, and methods for collecting biometric data from a patient. In some cases, this biometric data can be collected during the course of an emergency encounter using a medical device. The medical device can also perform other functions, such as monitor patient vital signs, receive and record notes and textual information, communicate with other devices, and/or deliver a therapeutic treatment. The medical device can also be configured to record and/or maintain a patient record, and to embed the patient biometric data into the patient record for use in later confirming and/or determining an identity of the patient. Some embodiments can also collect biometric data relating to one or more caregivers of the patient, and to embed the caregiver biometric data into the patient record. This caregiver biometric data can be used to confirm and/or identify one or more caregivers in a patient record.