System for measuring vital signs using bilateral pulse transit time

摘要

The invention provides a monitor for measuring blood pressure and other vital signs from a patient without using a cuff. The invention provides a hand-held device for measuring vital signs (e.g. blood pressure) from a patient that features: i) a housing that encloses a first sensor, that includes a first electrode and a first optical system configured to generate a first optical signal; ii) a second sensor that includes a second electrode and a second optical system configured to generate a second optical signal; iii) an amplifier system, in electrical contact with the first and second electrodes, configured to processes electrical signals from the first and second electrodes to generate an electrical waveform; and iv) a microprocessor, in electrical communication with the amplifier system, first optical system, and second optical system, the microprocessor configured to process the electrical waveform and first and second optical signals with an algorithm to determine at least one of the patient's vital signs.

主权项

1. A device for measuring a patient's vital signs, comprising:
a housing configured to receive a first finger from the left hand of the patient at a first location of the housing and to receive a second finger from the right hand of the patient at a second location of the housing; a first sensor attached to the housing comprising a first electrode located at the first location on the housing and configured to contact the first finger, wherein the first sensor is configured to generate a first electrical signal indicative of the electrical activity of the patient's heart; a second sensor attached to the housing comprising a second electrode located at the second location on the housing and configured to contact the second finger, wherein the second sensor is configured to generate a second electrical signal indicative of the electrical activity of the patient's heart; an amplifier system, in electrical contact with the first and second electrodes, configured to receive and processes electrical signals from the first and second sensors and to generate therefrom an electrical waveform; a first optical system attached to the housing at the first location on the housing and configured to contact the first finger and to generate a first optical plethysmograph waveform for the patient; a second optical system attached to the housing at the second location on the housing and configured to contact the second finger and to generate a second optical plethysmograph waveform for the patient; and, a microprocessor within the housing, wherein the microprocessor is in electrical communication with the amplifier system, the first optical system, and the second optical system, the microprocessor configured to receive and process the electrical waveform, the first optical plethysmograph waveform, and the second optical plethysmograph waveform by (i) identifying a first feature in the electrical waveform corresponding to a heartbeat, (ii) identifying a second feature in the first optical plethysmograph waveform corresponding to the heartbeat, (iii) identify a third feature in the second optical plethysmograph waveform corresponding to the heartbeat, (iv) calculate a first time difference between the first feature and the second feature, (v) calculate a second time difference between the first feature and the third feature; (vi) calculate a third time difference between the first time difference and the second time difference and (vii) calculate the subject's blood pressure using the third time difference and an algorithm relating the third time difference to blood pressure.