The present invention relates to a wearable device for acquiring plural electrocardiogram lead signals, and more particularly, to a wearable device as a plurality of electrocardiogram measuring devices (measurement sensors) wearable by an individual, which is convenient to carry so as to be easily used regardless of time and place, and configured to acquire six electrocardiogram lead signals through two limb lead signals measured simultaneously.

The present invention relates to a wearable device for acquiring plural electrocardiogram lead signals, and more particularly, to a wearable device as a plurality of electrocardiogram measuring devices (measurement sensors) wearable by an individual, which is convenient to carry so as to be easily used regardless of time and place, and configured to acquire six electrocardiogram lead signals through two limb lead signals measured simultaneously.

A body impedance analysis, BIA, system comprising a host and an accessory device connectable to the host device via a data cable. A first and a second electrode are arranged on an outside of the accessory device and a third and a fourth electrode are arranged on an outside of the host device. A BIA circuitry is connected to the third and the fourth electrode and connectable to the first and the second electrode via the data cable. The BIA circuitry is configured to drive an alternating current through the body via the first and the third electrode, to sense a voltage indicative of a body impedance via the second and the fourth electrode and to determine the body impedance depending on the sensed voltage.

A diagnostic device for acquiring a twelve-lead electrocardiogram of a patient is provided. The diagnostic device has a first glove, or right glove, and a second glove, or left glove, configured to be worn in the hands of a user and intended, in use, to be placed at a portion of a patient's chest to acquire an electrocardiogram of the patient. The first glove, or right glove, and the second glove, or left glove, have a plurality of electrodes configured to detect at least three cardiac signals, corresponding to three cardiac leads. The diagnostic device also includes an electronic unit configured to receive and process said at least three cardiac signals to obtain a 12-lead electrocardiogram.

A diagnostic device for acquiring a twelve-lead electrocardiogram of a patient is provided. The diagnostic device has a first glove, or right glove, and a second glove, or left glove, configured to be worn in the hands of a user and intended, in use, to be placed at a portion of a patient's chest to acquire an electrocardiogram of the patient. The first glove, or right glove, and the second glove, or left glove, have a plurality of electrodes configured to detect at least three cardiac signals, corresponding to three cardiac leads. The diagnostic device also includes an electronic unit configured to receive and process said at least three cardiac signals to obtain a 12-lead electrocardiogram.

An apparatus and a method for monitoring cardiovascular health are provided. The apparatus includes a housing, a control circuitry, an inflatable cuff for surrounding an upper limb of a user, a pump contained in the housing, at least a first electrode and a second electrode, and an ear-worn structure having the first electrode mounted thereon. When performing blood pressure measurement, the processor controls the pump to inflate and deflate the cuff, for measuring blood pressure of the user. When performing electrocardiographic signal measurement, through mounting the ear-worn structure on an ear of the user, the first electrode contacts the skin of the ear or around the ear, and through mounting the cuff surrounding the upper limb, the second electrode contacts the skin of the upper limb, enabling the processor to acquire electrocardiographic signals through the first electrode and the second electrode.

Certain embodiments are directed to an electrocardiogram system or components of a system, the system comprising a smartwatch configured to perform an electrocardiogram of a first subject wearing the smartwatch; an electrocardiogram adapter, the adapter configured to interface smartwatch sensors with an electrocardiogram lead; and an electrocardiogram lead operatively coupled to the smartwatch by the electrocardiogram adapter, wherein the system is configured to perform an electrocardiogram of a second subject that is not wearing the smartwatch.

Certain embodiments are directed to an electrocardiogram system or components of a system, the system comprising a smartwatch configured to perform an electrocardiogram of a first subject wearing the smartwatch; an electrocardiogram adapter, the adapter configured to interface smartwatch sensors with an electrocardiogram lead; and an electrocardiogram lead operatively coupled to the smartwatch by the electrocardiogram adapter, wherein the system is configured to perform an electrocardiogram of a second subject that is not wearing the smartwatch.

An embodiment of the invention provides an electrocardiography (ECG) signal processing device. The ECG signal processing device includes a first part, a second part and a flexible printed circuit board. The first part may comprise a first electrode and a processing circuit. The second part includes a second electrode. The flexible printed circuit board is coupled to the first part and the second part to fold the first part and the second part. When a closed loop is formed between the first electrode and the second electrode, the processing circuit obtains an ECG signal from the user.

An embodiment of the invention provides an electrocardiography (ECG) signal processing device. The ECG signal processing device includes a first part, a second part and a flexible printed circuit board. The first part may comprise a first electrode and a processing circuit. The second part includes a second electrode. The flexible printed circuit board is coupled to the first part and the second part to fold the first part and the second part. When a closed loop is formed between the first electrode and the second electrode, the processing circuit obtains an ECG signal from the user.