A pulse sensor is capable of measuring a pulse rate of a wearer at a peripheral artery. In an embodiment, the pulse sensor includes a magnet supported to move responsive to an arterial pulse and a magnetometer configured to detect changes in a magnetic field produced by the magnet. The magnet may include a plurality of ferromagnetic particles disposed in or on a flexible substrate configured to be held adjacent to human skin subject to arterial palpation and a magnetic sensor configured to sense movement of the ferromagnetic particles. A system and method may measure hydration includes using a pulse sensor to measure pulse rate and modulation. The wearer is prompted when the pulse rate and pulse modulation indicate a response to dehydration of the wearer.

Techniques are described for a non-invasive detection of a health condition of an organ. In an example, the electrical conductivity of the organ reflects the organ's health of. An inductive damping sensor can be used to detect the organ's electrical conductivity and, thus, its health. The inductive damping sensor can be placed in proximity of the organ such as the organ is within the magnetic field generated based on a coil of the inductive damping sensor. The conductivity of the organ impacts the inductance and the resistance of the coil. Hence, the inductance and/or resistance of the coil can be measured, where the measurements can be associated with the health of the organ.

Techniques are described for a non-invasive detection of a health condition of an organ. In an example, the electrical conductivity of the organ reflects the organ's health of. An inductive damping sensor can be used to detect the organ's electrical conductivity and, thus, its health. The inductive damping sensor can be placed in proximity of the organ such as the organ is within the magnetic field generated based on a coil of the inductive damping sensor. The conductivity of the organ impacts the inductance and the resistance of the coil. Hence, the inductance and/or resistance of the coil can be measured, where the measurements can be associated with the health of the organ.

A method and apparatus generate electrical currents and/or voltage in tissue using particles composed of liquid crystals and magnetic particles.

A method and apparatus generate electrical currents and/or voltage in tissue using particles composed of liquid crystals and magnetic particles.

Embodiments of the present disclosure provide a biofield apparatus. The apparatus includes a first vial and a second vial configured to hold fluid for storing biofield information associated with a subject. The apparatus includes an input plate and an output plate. The input plate and the output plate include an input plate vial well and an output plate vial well, respectively. The apparatus includes a control unit configured to provide a first signal to the input plate for capturing the biofield information from the subject. The control unit encodes and transmits the biofield information captured from the subject, to the fluid within the first vial. Further, the control unit amplifies the biofield information within the first vial based on a target amplification level. The control unit transmits the biofield information from the fluid within the second vial to the subject for enhancing the biofield information and properties of the subject.

Embodiments of the present disclosure provide a biofield apparatus. The apparatus includes a first vial and a second vial configured to hold fluid for storing biofield information associated with a subject. The apparatus includes an input plate and an output plate. The input plate and the output plate include an input plate vial well and an output plate vial well, respectively. The apparatus includes a control unit configured to provide a first signal to the input plate for capturing the biofield information from the subject. The control unit encodes and transmits the biofield information captured from the subject, to the fluid within the first vial. Further, the control unit amplifies the biofield information within the first vial based on a target amplification level. The control unit transmits the biofield information from the fluid within the second vial to the subject for enhancing the biofield information and properties of the subject.

A system for stimulating a tissues to obtain therapeutic effects, such as pain relief. The system can include stimulating leads that are operably coupled to a control unit. The control unit can include processors for generating desired waveform pattern of electrical pulses. The system can further include magnetic sensors to measure the magnetic fields generated by action potentials in the excited tissue and using the measured magnetic field to optimize the neurostimulation pattern.

The objective of the present invention is to provide a biomagnetism measuring device with which it is possible for a magnetic sensor to be disposed in an optimal position in accordance with an object being measured. A biomagnetism measuring device (1) according to the present invention is provided with: a plurality of magnetic sensors (11) which detect biomagnetism; and a holding portion (12) in which are formed frames (13) which detachably hold the plurality of magnetic sensors (11) in such a way as to face a living body. Further, the biomagnetism measuring device (1) according to the present invention is provided with: a plurality of magnetic sensors (11) which detect biomagnetism; and a holding portion (12) in which are formed rails (16) which movably hold the plurality of magnetic sensors (11) in such a way as to face a living body.

The objective of the present invention is to provide a biomagnetism measuring device with which it is possible for a magnetic sensor to be disposed in an optimal position in accordance with an object being measured. A biomagnetism measuring device (1) according to the present invention is provided with: a plurality of magnetic sensors (11) which detect biomagnetism; and a holding portion (12) in which are formed frames (13) which detachably hold the plurality of magnetic sensors (11) in such a way as to face a living body. Further, the biomagnetism measuring device (1) according to the present invention is provided with: a plurality of magnetic sensors (11) which detect biomagnetism; and a holding portion (12) in which are formed rails (16) which movably hold the plurality of magnetic sensors (11) in such a way as to face a living body.