MAGNETICALLY CONNECTED ELECTRODE FOR MEASURING PHYSIOLOGICAL SIGNALS
First Claim
1. A method for measuring a bioimpedance signal from a patient, comprising:
- contacting a first region of the patient'"'"'s body with a first electrode, the first electrode comprising;
i) a first conductive gel;
ii) a first Ag/AgCl film comprising Ag/AgCl in electrical contact with the first conductive gel;
iii) a first metal film in electrical contact with the first Ag/AgCl film; and
iv) a first magnet in electrical contact with the first metal film;
injecting an electrical current into the patient through the first magnet and into the first electrode;
contacting a second region of the patient'"'"'s body with a second electrode, the second electrode comprising;
i) a second conductive gel;
ii) a second Ag/AgCl film comprising Ag/AgCl in electrical contact with the second conductive gel;
iii) a second metal film in electrical contact with the second Ag/AgCl film; and
iv) a second magnet in electrical contact with the second metal film;
measuring a signal from the second magnet to generate a voltage, the voltage related to a product of the electrical current injected through the first electrode and a bioimpedance of the patient; and
,processing the voltage to generate the bioimpedance signal.
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Accused Products
Abstract
The invention provides an electrode and associated electrode holder that are used for physiological measurements, e.g. measurements of signals that can be processed to generate ECG and TBI waveforms. The electrode and electrode holder connect to each other using a magnetic interface. In embodiments, for example, the magnetic interface includes oppositely polled magnets integrated in both the electrode and electrode holder. The magnets are typically rare earth magnets coated with a thin, electrically conductive metal film. This way, when the magnets come in contact with each other, the metal films touch to form both a mechanical and electrical connection. Thus the magnetic interface can replace conventional mechanisms used to connect rivet-based electrodes to leads, which are typically used to secure electrodes for physiological measurements.
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Citations
1 Claim
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1. A method for measuring a bioimpedance signal from a patient, comprising:
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contacting a first region of the patient'"'"'s body with a first electrode, the first electrode comprising;
i) a first conductive gel;
ii) a first Ag/AgCl film comprising Ag/AgCl in electrical contact with the first conductive gel;
iii) a first metal film in electrical contact with the first Ag/AgCl film; and
iv) a first magnet in electrical contact with the first metal film;injecting an electrical current into the patient through the first magnet and into the first electrode; contacting a second region of the patient'"'"'s body with a second electrode, the second electrode comprising;
i) a second conductive gel;
ii) a second Ag/AgCl film comprising Ag/AgCl in electrical contact with the second conductive gel;
iii) a second metal film in electrical contact with the second Ag/AgCl film; and
iv) a second magnet in electrical contact with the second metal film;measuring a signal from the second magnet to generate a voltage, the voltage related to a product of the electrical current injected through the first electrode and a bioimpedance of the patient; and
,processing the voltage to generate the bioimpedance signal.
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Specification