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.

A conductive electrode that includes a substrate having first and second opposed main surfaces and a plurality of trenches extending between the first and second opposed main surfaces; and a conductive material within the plurality of trenches and extending between the first and second opposed main surfaces so as to provide an electrically conductive path between the first and second opposed main surfaces.

A conductive electrode that includes a substrate having first and second opposed main surfaces and a plurality of trenches extending between the first and second opposed main surfaces; and a conductive material within the plurality of trenches and extending between the first and second opposed main surfaces so as to provide an electrically conductive path between the first and second opposed main surfaces.

An adhesive electrode for the registration of electric and electrobiological signals and/or for stimulating a patient includes a patient contact portion and a transmission portion. The patient contact portion includes a layer of adhesive electrolyte material in contact with the patient's skin, a layer of conductive material, and a layer of insulating material. The transmission portion is also connected to the conductive layer. The layer of conductive material includes at least partially a layer of magnetic material, the transmission portion being removably secured to the layer of magnetic material.

An electrocardiography monitor is provided. A sealed housing includes one end wider than an opposite end of the sealed housing. Electronic circuitry is provided within the sealed housing. The electronic circuitry includes an electrographic front end circuit to sense electrocardiographic signals and a micro-controller interfaced to the electrocardiographic front end circuit to sample the electrocardiographic signals. A buzzer within the housing outputs feedback to a wearer of the sealed housing.

An electrocardiography monitor is provided. A sealed housing includes one end wider than an opposite end of the sealed housing. Electronic circuitry is provided within the sealed housing. The electronic circuitry includes an electrographic front end circuit to sense electrocardiographic signals and a micro-controller interfaced to the electrocardiographic front end circuit to sample the electrocardiographic signals. A buzzer within the housing outputs feedback to a wearer of the sealed housing.

Wearable devices are provided herein including wearable defibrillators, wearable devices for diagnosing symptoms associated with sleep apnea, and wearable devices for diagnosing symptoms associated with heart failure. The wearable external defibrillators can include a plurality of ECG sensing electrodes and a first defibrillator electrode pad and a second defibrillator electrode pad. The ECG sensing electrodes and the defibrillator electrode pads are configured for long term wear. Methods are also provided for using the wearable external defibrillators to analyze cardiac signals of the wearer and to provide an electrical shock if a treatable arrhythmia is detected. Methods are also disclosed for refurbishing wearable defibrillators. Methods of using wearable devices for diagnosing symptoms associated with sleep apnea and for diagnosing symptoms associated with heart failure are also provided.

Wearable devices are provided herein including wearable defibrillators, wearable devices for diagnosing symptoms associated with sleep apnea, and wearable devices for diagnosing symptoms associated with heart failure. The wearable external defibrillators can include a plurality of ECG sensing electrodes and a first defibrillator electrode pad and a second defibrillator electrode pad. The ECG sensing electrodes and the defibrillator electrode pads are configured for long term wear. Methods are also provided for using the wearable external defibrillators to analyze cardiac signals of the wearer and to provide an electrical shock if a treatable arrhythmia is detected. Methods are also disclosed for refurbishing wearable defibrillators. Methods of using wearable devices for diagnosing symptoms associated with sleep apnea and for diagnosing symptoms associated with heart failure are also provided.

The present invention relates to a respiratory sensing device attached to a patient's body and configured to acquire information regarding the patient's respiratory condition by sensing a vibration generated due to the patient's respiration using the piezoelectric effect and a respiratory monitoring system configured to output the acquired information regarding the patient's respiratory state.

The present invention relates to a respiratory sensing device attached to a patient's body and configured to acquire information regarding the patient's respiratory condition by sensing a vibration generated due to the patient's respiration using the piezoelectric effect and a respiratory monitoring system configured to output the acquired information regarding the patient's respiratory state.