Total compliance method and apparatus for noninvasive arterial blood pressure measurement

US 5,423,322 A
Filed: 04/14/1994
Issued: 06/13/1995
Est. Priority Date: 12/29/1988
Status: Expired due to Fees

First Claim

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1. An apparatus for automatically and noninvasively monitoring the blood pressure of patients having either normal or abnormal blood pressure levels or blood pressure waveforms, the apparatus comprising:

means for noninvasively detecting volume changes in an artery of the patient and for generating a volume signal;

pressure means for applying counter pressure to the artery;

processor means, electrically coupled to the means for noninvasively detecting volume changes and the pressure means, for coordinating the operation of each said means in relation to one another and for deriving from the variations in the volume signal accompanied by at least intermittent application of counter pressure to the artery by the pressure means at least the following parameters;

(1) maximum volume of the artery, (2) residual volume of the artery, and (3) at least a first compliance value and a second compliance value, the first compliance value representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is greater than zero and the second compliance value representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is less than zero, the maximum volume of the artery, the residual volume of the artery, and the compliance values being used to noninvasively determine the actual blood pressure within the artery; and

output means for receiving information from the processor means.

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Abstract

A system and method for automatically and noninvasively monitoring the blood pressure of a subject. The volume changes of an artery, such as a digital artery or the temporal artery, are detected by a photoplethysmograph. The volume changes are then used to determine the blood pressure and the blood pressure waveform, of the subject. The model used to relate the volume of the artery to the pressure contained within the artery is referred to as the total compliance model. The total compliance model determines the compliance of each patient'"'"'s artery which is being used as a sensing site. The compliance information is then used to determine the blood pressure at any particular point in time to the detected volume of the artery. Thus, the present invention can be reliably and accurately used with patients which have abnormal blood pressure levels and waveforms which heretofore could not be accurately measured using previous noninvasive methods and apparatus that assumed once the mean pressure for a patient was determined, the systolic and diastolic pressure could be found by applying fixed ratio techniques to detected changes in arterial volume.

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32 Claims

1. An apparatus for automatically and noninvasively monitoring the blood pressure of patients having either normal or abnormal blood pressure levels or blood pressure waveforms, the apparatus comprising:
- means for noninvasively detecting volume changes in an artery of the patient and for generating a volume signal;
  
  pressure means for applying counter pressure to the artery;
  
  processor means, electrically coupled to the means for noninvasively detecting volume changes and the pressure means, for coordinating the operation of each said means in relation to one another and for deriving from the variations in the volume signal accompanied by at least intermittent application of counter pressure to the artery by the pressure means at least the following parameters;
  
  (1) maximum volume of the artery, (2) residual volume of the artery, and (3) at least a first compliance value and a second compliance value, the first compliance value representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is greater than zero and the second compliance value representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is less than zero, the maximum volume of the artery, the residual volume of the artery, and the compliance values being used to noninvasively determine the actual blood pressure within the artery; and
  
  output means for receiving information from the processor means.
- View Dependent Claims (9)
- - 9. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim 1 wherein the output means comprises a visual monitor.

2. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim wherein the means for noninvasively detecting volume changes in an artery of the patient comprises:
- light means for passing a light beam into a body part of said subject containing an arterial blood vessel; and
  
  detection means for detecting the amount of said light beam absorbed by blood in the blood vessel.
- View Dependent Claims (3, 4, 5, 6)
- - 3. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim 2 wherein the light means comprises a light source positioned to emit light into the subject'"'"'s body part and wherein the detection means comprises a photo detector positioned to receive the light not absorbed by the blood in the blood vessel.
  - 4. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim 3 wherein the photo detector is positioned to receive light transmitted through the body part.
  - 5. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim 3 wherein the photo detector is positioned to receive light reflected from the body part.
  - 6. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claims 4 or 5 wherein the light source comprises a semiconductor light emitting source and wherein the photo detector comprises a semiconductor light sensing device.

7. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim wherein the pressure means comprises:
- an inflatable air bladder configured to apply pressure to a body part; and
  
  a pressure generator connected to the inflatable bladder and being controlled by the processor means.

8. An apparatus for automatically and noninvasively monitoring the blood pressure of patients as defined in claim wherein the processor means comprises:
- a microprocessor;
  
  at least one analog to digital convertor interfacing the detection means and microprocessor; and
  
  at least one digital to analog convertor interfacing the microprocessor and the pressure means.

10. A system for noninvasively measuring arterial blood pressure of a subject, the system comprising:
- light means for passing a light beam into a body part of said subject containing an arterial blood vessel;
  
  detection means for detecting the amount of said light beam absorbed by blood in the blood vessel;
  
  pressure means for applying counter pressure to the arterial blood vessel;
  
  processor means, electrically coupled to the light means, the detection means and the pressure means, for coordinating the operation of each said means in relation to one another and for deriving from the variations in the detected light beam accompanied by at least intermittent application of counter pressure to the artery by the pressure means the maximum volume of the artery, the residual volume of the artery, and at least a first compliance of the artery wall to changes of pressure contained therein and a second compliance of the artery wall to changes of pressure contained therein, the first compliance representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is greater than zero and the second compliance representing the compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is less than zero, the maximum volume of the artery, the residual volume of the artery, the first compliance of the artery wall to pressure changes, and the second compliance of the artery wall to pressure changes both being used to noninvasively determine the actual blood pressure within the artery; and
  
  display means, electrically coupled to the processor means, for outputting a visually perceptible indication of the subject'"'"'s arterial blood pressure.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 11. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 10 wherein the light means comprises a light source positioned to emit light into the subject'"'"'s body part and wherein the detection means comprises a photo detector positioned to receive the light not absorbed by the blood in the blood vessel.
  - 12. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 11 wherein the photo detector is positioned to receive light transmitted through the body part.
  - 13. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 11 wherein the photo detector is positioned to receive light reflected from the body part.
  - 14. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim as defined in claims 12 or 13 wherein the light source comprises a semiconductor light emitting source and wherein the photo detector comprises a semiconductor light sensing device.
  - 15. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 10 wherein the pressure means comprises:
    - an inflatable air bladder; and
      
      a pressure generator connected to the inflatable bladder and being controlled by the processor means.
  - 16. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 15 wherein the inflatable bladder is configured to substantially encircle the body part.
  - 17. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 15 wherein the inflatable bladder is configured to impose a planar pressure on the body part.
  - 18. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 17 wherein the body part is the forehead of the subject and the detection means comprises a photo detector which is positioned to receive light reflected from the body part.
  - 19. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 10 wherein the processor means comprises:
    - a microprocessor;
      
      at least one analog to digital convertor interfacing the detection means and microprocessor; and
      
      at least one digital to analog convertor interfacing the microprocessor and the pressure means.
  - 20. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 10 wherein the processor means utilizes the intermittent application of counter pressure to the artery by the pressure means the maximum volume of the artery, the residual volume of the artery, and the compliance of the artery wall to changes of pressure contained therein to noninvasively determine the actual blood pressure within the artery in accordance with ##EQU30## where Vm is the maximum volume of the artery, Vo is the residual volume of the artery, and k and k'"'"' are compliance indices.
  - 21. A system for noninvasively measuring arterial blood pressure of a subject as defined in claim 10 wherein the display means comprises a video monitor.

22. A method for noninvasively measuring arterial blood pressure of a subject, the method comprising the steps of:
- (a) passing a light beam into a body part of said subject containing an arterial blood vessel;
  
  (b) detecting the amount of said light beam absorbed by blood in the blood vessel;
  
  (c) applying counter pressure to the arterial blood vessel;
  
  (d) coordinating the operation of passing a light beam, detecting the amount of said light beam absorbed, and applying the counter pressure;
  
  (e) deriving from the variations in the detected light beam, such variations corresponding to changes in the volume of said artery, accompanied by the intermittent application of counter pressure to the artery, the artery'"'"'s residual volume, the artery wall'"'"'s compliance to changes of pressure contained therein when the transmural pressure is greater than zero, the artery wall'"'"'s compliance to changes of pressure contained therein when the transmural pressure is less than zero, and the artery'"'"'s maximum volume,(f) calculating the actual blood pressure within the artery using the maximum volume of the artery, the residual volume of the artery, the compliance of the artery wall to pressure changes when the transmural pressure is greater than zero, and the compliance of the artery wall when the transmural pressure is less than zero; and
  
  (g) outputting the actual blood pressure within the artery to an electrical device such that the actual blood pressure can be processed, stored, or displayed.
- View Dependent Claims (23, 24, 25, 26, 27, 28, 29)
- - 23. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of passing a light beam into a body part comprises the step of passing a light beam through a body part and the step of detecting the amount of said light beam absorbed comprises the step of detecting the amount of said light beam which is transmitted through the body part.
  - 24. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of passing a light beam into a body part comprises the step of emitting a light beam into a body part and the step of detecting the amount of said light beam absorbed comprises the step of detecting the amount of said light beam which is reflected from the body part.
  - 25. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of coordinating the operation comprises the step carrying out steps (a) through (g) during a calibration interval and the step of carrying out steps (a) through (b) and (e) through (g) during a monitoring interval.
  - 26. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein method further comprises repeating steps (a) through (b) and (e) through (g).
  - 27. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of applying counterpressure comprises the step of ramping the pressure upward from less than the diastolic pressure of the artery to greater than the systolic pressure of the artery.
  - 28. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of calculating the actual blood pressure within the artery comprises the step of substantially performing the calculation ##EQU31## where Vm is the maximum volume of the artery, Vo is the residual volume of the artery, and k and k'"'"' are compliance indices.
  - 29. A method for noninvasively measuring arterial blood pressure of a subject as defined in claim 22 wherein the step of outputting the actual blood pressure comprises the step of outputting the actual blood pressure to a visual display device.

30. An apparatus for automatically and noninvasively monitoring the blood pressure of patients having either normal or abnormal blood pressure levels or blood pressure waveforms, the apparatus comprising:
- means for noninvasively detecting volume changes in an artery of the patient and for generating a volume signal;
  
  pressure means for applying counter pressure to the artery;
  
  first means, electrically coupled to the means for noninvasively detecting volume changes and the pressure means, for deriving from the variations in the volume signal accompanied by the intermittent application of counter pressure to the artery by the pressure means at least the following parameters;
  
  (1) maximum volume of the artery, (2) residual volume of the artery, and (3) a first compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transmural pressure is greater than zero, the maximum volume of the artery, the residual volume of the artery, and the first compliance of the artery wall to pressure changes being used to noninvasively determine at least a portion of the information needed to calculate pressure within the artery;
  
  second means, electrically coupled to the means for noninvasively detecting volume changes and the pressure means, for deriving from the variations in the volume signal accompanied by the intermittent application of counter pressure to the artery by the pressure means at least the following parameters;
  
  (1) maximum volume of the artery, (2) residual volume of the artery, and (3) a second compliance of the artery wall to changes of pressure exerted by the blood contained therein when the transluminal pressure is less than zero, the maximum volume of the artery, the residual volume of the artery, and the second compliance of the artery wall to pressure changes being used to noninvasively determine at least a portion of the information needed to calculate the pressure within the artery; and
  
  output means for receiving information from the first means for deriving and the second means for deriving.
- View Dependent Claims (31, 32)
- - 31. An apparatus for automatically and noninvasively monitoring the blood pressure of patients having either normal or abnormal blood pressure levels or blood pressure waveforms as defined in claim 30 wherein the first means for deriving and the second means for deriving comprise a processor means.
  - 32. An apparatus for automatically and noninvasively monitoring the blood pressure of patients having either normal or abnormal blood pressure levels or blood pressure waveforms as defined in claim 31 wherein the processor means comprises a microprocessor.

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Current Assignee
Physical Optics Corporation
Original Assignee
Physical Optics Corporation
Inventors
Sun, Shuxing, Clark, Justin S.
Primary Examiner(s)
Sykes, Angela D.

Application Number

US08/227,680
Time in Patent Office

425 Days
Field of Search

128/633-635, 128/664-667, 128/672, 128/677, 128/679-683, 128/687-690, 128/694
US Class Current

600/485
CPC Class Codes

A61B 5/02007   Evaluating blood vessel con...

A61B 5/02255   the pressure being controll...

A61B 5/02422   within occluders

A61B 5/1455   using optical sensors, e.g....

A61B 5/14552   Details of sensors speciall...

A61B 5/6814   Head

A61B 5/6826   Finger

A61B 5/6838   Clamps or clips

Total compliance method and apparatus for noninvasive arterial blood pressure measurement

First Claim

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Abstract

100 Citations

32 Claims

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Total compliance method and apparatus for noninvasive arterial blood pressure measurement

First Claim

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Accused Products

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Abstract

100 Citations

32 Claims

Specification

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Solutions

Use Cases

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