Noninvasive continuous blood pressure measuring apparatus and a method of noninvasively measuring continuous blood pressure

US 6,802,815 B2
Filed: 11/26/2003
Issued: 10/12/2004
Est. Priority Date: 04/20/1998
Status: Expired due to Fees

First Claim

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1. A noninvasive continuous blood pressure measuring apparatus comprising:

oscillating means for generating an oscillation signal of which frequency is controlled;

an exciter responsive to said oscillation signal for inducing an exciter waveform in an artery and blood in said artery of a living body;

a sensor arranged a predetermined interval apart from said exciter for receiving said induced exciter waveform transmitted through said artery from said living body and outputting detection signal;

calibration hemadynamometer means for detecting absolute values of a maximum blood pressure and a minimum blood pressure of said living body;

frequency determining means responsive to said sensor for controlling said oscillating means to successively control said frequency at different frequencies, determining one of said different frequencies in accordance with said detection signal outputted at different frequencies, and then, controlling said oscillating means to continuously generating said oscillation signal at said one of said different frequencies;

calculating means responsive to said frequency determining means for receiving absolute values from said calibration hemadynamometer means and successively calculating and outputting an instantaneous blood pressure value from a phase relation between said oscillation signal and said detection signal at said one of said different frequencies and said absolute values; and

displaying means for displaying a continuous blood pressure variation from said instantaneous blood pressure successively outputted by said calculation means.

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Abstract

One of pairs of an exciter and a sensor is selected in accordance with the detection signal which is derived from an exciter waveform induced in an artery transmitted therethrough. The pairs of exciters and sensors are arranged on a substrate in various formations. A/D converters are provided to respective detection signals. A frequency of the oscillation signal supplied to the exciter is controlled by various oscillation signal generation circuits. Bandpass filtering for extracting the exciter waveform, low-pass-filtering for extracting a natural blood pressure waveform, phase difference detection processes are provided by a microprocessor, wherein the bandpass filtering and low-pass-filtering processes may be replaced with a bandpass filter and a low pass filter, and their outputs are selected by a switching circuit and supplied to the microprocessor through one a/d converter. The frequency of the oscillation signal is controlled to an optimum frequency by detecting the detection signal and estimating the attenuation, dispersion, phase shift with respect to different frequency and by determining one of the different frequency in accordance with the estimation result. The waveform of the oscillation signal is controlled to an optimum waveform similarly.

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10 Claims

1. A noninvasive continuous blood pressure measuring apparatus comprising:
- oscillating means for generating an oscillation signal of which frequency is controlled;
  
  an exciter responsive to said oscillation signal for inducing an exciter waveform in an artery and blood in said artery of a living body;
  
  a sensor arranged a predetermined interval apart from said exciter for receiving said induced exciter waveform transmitted through said artery from said living body and outputting detection signal;
  
  calibration hemadynamometer means for detecting absolute values of a maximum blood pressure and a minimum blood pressure of said living body;
  
  frequency determining means responsive to said sensor for controlling said oscillating means to successively control said frequency at different frequencies, determining one of said different frequencies in accordance with said detection signal outputted at different frequencies, and then, controlling said oscillating means to continuously generating said oscillation signal at said one of said different frequencies;
  
  calculating means responsive to said frequency determining means for receiving absolute values from said calibration hemadynamometer means and successively calculating and outputting an instantaneous blood pressure value from a phase relation between said oscillation signal and said detection signal at said one of said different frequencies and said absolute values; and
  
  displaying means for displaying a continuous blood pressure variation from said instantaneous blood pressure successively outputted by said calculation means.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The noninvasive continuous blood pressure measuring apparatus as claimed in claim 1, wherein said frequency determining means detects attenuations in said detection signal at different frequencies and determines said one of said difference frequencies in accordance with a minimum of said attenuations.
  - 3. The noninvasive continuous blood pressure measuring apparatus as claimed in claim 1, wherein said frequency determining means detects dispersions in amplitudes of said detection signal at different frequencies and determines said one of said different frequencies in accordance with a minimum of said dispersions.
  - 4. The noninvasive continuous blood pressure measuring apparatus as claimed in claim 1, wherein said frequency determining means detects phase shifts in said detection signal at different frequencies and determines said one of said difference frequencies in accordance with a maximum of said phase shifts.
  - 5. The noninvasive continuous blood pressure measuring apparatus as claimed in claim 1, wherein said frequency determining means detects attenuations in said detection signal at different frequencies, detects dispersions in amplitudes of said detection signal at said different frequencies, and detects phase shifts in said detection signal at said different frequencies, obtains estimation values at said different frequencies through an estimating function for estimating said attenuations, said dispersions, and said phase shifts, and determines said one of said difference frequencies in accordance with the estimation values at said different frequencies.

6. A method of noninvasively measuring continuous blood pressure comprising the steps of:
- (a) generating an oscillation signal of which frequency is controlled;
  
  (b) providing an exciter responsive to said oscillation signal inducing an exciter waveform in an artery and blood in said artery of a living body;
  
  (c) providing a sensor arranged a predetermined interval apart from said exciter for receiving said induced exciter waveform transmitted through said artery from said living body and outputting a detection signal;
  
  (d) detecting absolute values of a maximum blood pressure and a minimum blood pressure of said living body;
  
  (e) controlling said oscillation signal to successively control said frequency at different frequencies;
  
  (f) determining one of said different frequencies in accordance with said detection signal outputted at different frequencies;
  
  (g) continuously generating said oscillation signal at said one of said different frequencies;
  
  (h) receiving absolute values and successively calculating and outputting an instantaneous blood pressure value from a phase relation between said oscillation signal and said detection signal at said one of said different frequencies and said absolute values; and
  
  (i) displaying a continuous blood pressure variation from said instantaneous blood pressure successively outputted.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The method as claimed in claim 6, further comprising the step of:
8. The method as claimed in claim 6, further comprising the step of:
- detecting dispersions in amplitudes of said detection signal at different frequencies, wherein in said step (f) said one of said difference frequencies is determined in accordance with a minimum of said dispersions.
9. The method as claimed in claim 6, further comprising the step of:
- detecting phase shifts in said detection signal at different frequencies, wherein in said step (f) said one of said difference frequencies is determined in accordance with a maximum of said phase shifts.
10. The method as claimed in claim 6, further comprising the steps of:
- detecting attenuations in said detection signal at different frequencies;
  
  detecting dispersions in amplitudes of said detection signal at said different frequencies;
  
  detecting phase shifts in said detection signal at said different frequencies;
  
  obtaining estimation values at said different frequencies through an estimating function for estimating said attenuations, said dispersions, and said phase shifts; and
  
  determining said one of said difference frequencies in accordance with the estimation values at said different frequencies.

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Current Assignee
Matsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
Original Assignee
Matsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
Inventors
Hagiwara, Hisashi, Hasegawa, Kinya, Nishimura, Yushi
Primary Examiner(s)
Nasser, Robert L.

Application Number

US10/721,083
Publication Number

US 20040077957A1
Time in Patent Office

321 Days
Field of Search

600/485, 600/500-503
US Class Current

600/485
CPC Class Codes

A61B 2562/0247   Pressure sensors

A61B 2562/043   in a linear array

A61B 5/021   Measuring pressure in heart...

A61B 5/02116   of pulse wave amplitude A61...

A61B 5/02133   by using induced vibration ...

Noninvasive continuous blood pressure measuring apparatus and a method of noninvasively measuring continuous blood pressure

First Claim

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Abstract

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Noninvasive continuous blood pressure measuring apparatus and a method of noninvasively measuring continuous blood pressure

First Claim

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Abstract

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10 Claims

Specification

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