Blood pressure monitoring method and apparatus

US 4,799,491 A
Filed: 11/06/1986
Issued: 01/24/1989
Est. Priority Date: 11/06/1986
Status: Expired due to Term

First Claim

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1. A machine implemented method for determining correct hold-down pressure to be applied to an external pressure transducer that includes a pressure sensitive element applied to a subject at a location overlying an artery, the determined correct hold-down pressure identifying the hold-down pressure to be employed to obtain correct blood pressure measurements using said transducer, said method comprising,(1) obtaining a continuous measurement of blood pressure with the external pressure transducer while changing the hold-down pressure on the transducer over a range from where the underlying artery is substantially unflattened to where the artery is substantially occluded,(2) obtaining from the blood pressure measurement of step 1 a set of at least one of the diastolic pressure, systolic pressure, and pulse amplitude values versus hold-down pressure over said range of hold-down pressures,(3) fitting a polynomial to at least one set of values obtained in step 2,(4) using the polynomial obtained in step 3, obtaining an indication of the correct hold-down pressure required for accurate blood pressure measurements, and(5) setting the transducer hold-down pressure at substantially the indicated correct hold-down pressure obtained in step 4 in preparation for obtaining accurate blood pressure measurements from said transducer.

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Abstract

Intraarterial blood pressure is measured noninvasively by an electromechanical transducer. The correct hold-down force to be applied to the transducer for obtaining accurate blood pressure measurements is determined by obtaining a set of at least one of the diastolic pressure, systolic pressure, and pulse amplitude versus hold-down pressure values over a range of hold-down pressures between which the underlying artery is unflattened and it is occluded. A polynomial is fitted to at least one of the sets of values, from which polynomial the correct hold-down pressure is determined. The hold-down pressure at the point of minimum slope of graphs of the polynominals fitted to the systolic and diastolic versus hold-down pressure values provides an indication of the correct hold-down pressure. An indication of the correct hold-down pressure using the pulse amplitude measurements is provided by locating the midpoint of a pair of hold-down pressures at which the pulse amplitude is substantially sixty percent of the maximum pulse amplitude on the graph of the polynomial fitted to the pulse amplitude versus hold-down pressure values. An alternative method determines the correct hold-down pressure directly from the pulse-amplitude polynomial coefficients. A measure of the compliance of the underlying artery is obtained from the ratio of the minimum slope of the graph of the polynomial fitted to one of the systolic and diastolic versus hold-down pressure values to the slope of a straight line fitted to a subset of one of the systolic and diastolic versus hold-down pressure values over a range of hold-down pressures below which flattening of the underlying artery occurs.

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20 Claims

1. A machine implemented method for determining correct hold-down pressure to be applied to an external pressure transducer that includes a pressure sensitive element applied to a subject at a location overlying an artery, the determined correct hold-down pressure identifying the hold-down pressure to be employed to obtain correct blood pressure measurements using said transducer, said method comprising,(1) obtaining a continuous measurement of blood pressure with the external pressure transducer while changing the hold-down pressure on the transducer over a range from where the underlying artery is substantially unflattened to where the artery is substantially occluded,(2) obtaining from the blood pressure measurement of step 1 a set of at least one of the diastolic pressure, systolic pressure, and pulse amplitude values versus hold-down pressure over said range of hold-down pressures,(3) fitting a polynomial to at least one set of values obtained in step 2,(4) using the polynomial obtained in step 3, obtaining an indication of the correct hold-down pressure required for accurate blood pressure measurements, and(5) setting the transducer hold-down pressure at substantially the indicated correct hold-down pressure obtained in step 4 in preparation for obtaining accurate blood pressure measurements from said transducer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method as defined in claim 1 wherein a set of diastolic pressure versus hold-down pressure values are obtained in step 2, and in step 3 a polynomial of at least third-order is fitted to the set of diastolic pressure versus hold-down pressure values.
  - 3. A method as defined in claim 2 wherein step 4 includes locating the point of minimum slope of the graph of the polynomial fitted in step 3 using coefficients of the polynomial, the hold-down pressure at the point of minimum slope providing an indication of the correct hold-down pressure.
  - 4. A method as defined in claim 1 wherein a set of systolic pressure versus hold-down pressure values are obtained in step 2, and in step 3 a polynomial of at least third-order is fitted to the set of systolic pressure versus hold-down pressure values.
  - 5. A method as defined in claim 4 wherein step 4 includes locating the point of minimum slope of the graph of the polynomial fitted in step 3 using coefficients of the polynomial, the hold-down pressure at the point of minimum slope providing an indication of the correct hold-down pressure.
  - 6. A method as defined in claim 1 wherein a set of pulse amplitude versus hold-down pressure values are obtained in step 2, and in step 3 a polynomial of at least second-order is fitted to the set of pulse amplitude versus hold-down pressure values.
  - 7. A method as defined in claim 6 wherein step 4 includes locating a pair of hold-down pressure points at which pulse amplitude is substantially sixty percent of maximum pulse amplitude of the graph of the polynomial, the hold-down pressure at substantially the midpoint of said pair of hold-down pressure points providing an indication of the correct hold-down pressure.
  - 8. A method as defined in claim 6 wherein step 4 includes locating the point of maximum pulse amplitude on the graph of the polynomial fitted in step 3 using coefficients of the polynomial, the hold-down pressure at the point of maximum pulse amplitude providing an indication of the correct hold-down pressure.

9. A blood pressure monitoring system for the continuous external measurements of blood pressure in an underlying artery comprising,an external pressure transducer applied to a subject at a location overlying an artery, said pressure transducer including a pressure sensitive element having at least one dimension smaller than the lumen of the underlying artery in which blood pressure is measured and substantially centrally positioned over the underlying artery, said pressure sensitive element producing a continuous waveform having an amplitude which is a function of blood pressure in the underlying artery,means for applying a variable hold-down pressure to the transducer, the hold-down pressure being variable over a range of at least from where the underlying artery is substantially unflattened to where the artery is substantially occluded,means responsive to the waveform for obtaining a set of at least one of the diastolic pressure, systolic pressure, and pulse amplitude values over a range of hold-down pressures,means for fitting a polynomial to a set of at least one of the diastolic pressure, systolic pressure, and pulse amplitude versus hold-down pressure values to obtain coefficients of the polynomial,means employing the polynomial for obtaining an indication of the correct hold-down pressure required for making accurate blood pressure measurements, andmeans for maintaining the transducer hold-down pressure at substantially the indicated correct hold-down pressure for obtaining accurate blood pressure measurements from the transducer.
- View Dependent Claims (10, 11, 12, 13)
- - 10. A blood pressure monitoring system as defined in claim 9 wherein said means responsive to the waveform comprises means for obtaining a set of diastolic pressure versus hold-down pressure points,said fitting means includes means for fitting a polynomial of at least a third-order to the set of diastolic versus hold-down pressure points where the polynomial is of the following type:
    - space="preserve" listing-type="equation">P.sub.m =a.sub.0 +a.sub.1 P.sub.h +a.sub.2 P.sub.h.sup.2 +a.sub.3 P.sub.h.sup.3
      wherein;
      
      P_m =measured diastolic pressure,P_h =hold-down pressure, anda₀, a₁, a₂, and a₃ are coefficients of the polynomial, and,
      said means for obtaining an indication of correct hold-down pressure comprises means for locating the hold-down pressure, P3, at the point of minimum slope of the graph of the polynomial in accordance with the following equation;
      
      space="preserve" listing-type="equation">P3=-a.sub.2 /3a.sub.3.
  - 11. A blood pressure monitoring system as defined in claim 9 wherein said means responsive to the waveform comprises means for obtaining a set of systolic pressure versus hold-down pressure points,said fitting means includes means for fitting a polymonial of at least third-order to the set of systolic versus hold-down pressure points where the polynomial is of the following type:
    - space="preserve" listing-type="equation">P.sub.m =a.sub.0 +a.sub.1 P.sub.h +a.sub.2 P.sub.h.sup.2 +a.sub.3 P.sub.h.sup.3
      wherein;
      
      P_m =measured systolic pressure,P_h =hold-down pressure, anda₀, a₁, a₂, and 1₃ are coefficients of the polynomial, and,
      said means for obtaining an indication of correct hold-down pressure comprises means for locating the hold-down pressure, P3, of the point of minimum slope of the graph of the polynomial in accordance with the following equation;
      
      space="preserve" listing-type="equation">P3=-a.sub.2 /3a.sub.3
  - 12. A blood prssure monitoring system as defined in claim 9 wherein said means responsive to the waveform comprises means for obtaining a set of pulse amplitude versus hold-down pressure points,said fitting means comprises means for fitting a polynomial of at least a second-order to the set of pulse amplitude versus hold-down pressure points,said means for obtaining an indication of the correct hold-down pressure comprises means for locating a pair of hold-down pressure points on a graph of the polynomial at which the pulse amplitude equals substantially sixty percent of maximum pulse amplitude of the graph, the hold-down pressure at substantially the means of said pair of hold-down pressure points comprising the correct hold-down pressure.
  - 13. A blood pressure monitoring system as defined in claim 9 wherein said means responsive to the waveform comprises means for obtaining a set of pulse amplitude versus hold-down pressure points,said fitting means comprises means for fitting a polynomial of at least second order to the set of pulse amplitude versus hold-down pressure points, andsaid means for obtaining an indication of the correct hold-down pressure comprises means employing coefficients of the polynomial for identifying the hold-down pressure at which pulse amplitude is maximum.

14. A machine-implemented method of obtaining a measure of the compliance of a subject'"'"'s artery underlying an external pressure transducer that includes a pressure sensitive element applied to the subject using a variable hold-down pressure, the method comprising the steps of,(1) obtaining a continuous measurement of blood pressure with the external pressure transducer while changing the hold-down pressure on the transducer over a range from where the underlying artery is unflattened to where the artery is substantially occluded,(2) obtaining from the blood pressure measurement of step 1 a set of at least one of the diastolic and systolic pressure versus hold-down pressure values over said range of hold-down pressures,(3) fitting a polynomial of at least third-order to a set of values obtained in step 2,(4) determining the slope of a straight line fitted to a sub-set of values obtained in step 2 over a range of hold-down pressures below which flattening of the underlying artery occurs, and(5) determining the minimum slope of the graph of the polynomial fitted to said set of values, the ratio of slopes determined in steps 5 and 4 providing a measure of compliance of the underlying artery.
- View Dependent Claims (15, 16)
- - 15. A method as defined in claim 14 wherein step 5 includes using coefficients of the polynomial in determining the minimum slope of the graph of the polynomial fitted to said set of pressure values.
  - 16. A method as defined in claim 15 including(6) obtaining from the blood pressure measurement of step 1 a set of pulse amplitude versus hold-down pressure values over said range of hold-down pressures recited in step 2,(7) fitting a polynomial of at least second-order to said set of pulse amplitude versus hold-down pressure values,(8) identifying the hold-down pressure on a graph of the pulse amplitude versus hold-down pressure polynomial at which the pulse amplitude substantially equals to sixty percent of maximum pulse amplitude of the graph of the pulse amplitude versus hold-down pressure polynomial, and(9) employing the lower hold-down pressure identified in step 8 as the upper end of the range of hold-down pressures used in step 4 for determining the slope of said straight line.

17. A blood pressure monitoring system for continuous external measurement of blood pressure in an underlying artery and for obtaining a measure of compliance of said underlying artery comprisinga pressure transducer that includes a pressure sensitive element having at least one dimension smaller than the lumen of the underlying artery and substantially centrally positioned over the artery, said pressure sensitive element producing a continuous waveform having an amplitude which is a function of blood pressure in the underlying artery,means for applying a variable hold-down pressure to the transducer,means responsive to the waveform for obtaining a set of diastolic pressure values, a set of systolic pressure values, and a set of pulse amplitude values over a range of hold-down pressures,means for fitting a polynomial of at least third-order to a set of at least one of the diastolic pressure and systolic pressure versus hold-down pressure values and for fitting a polynomial of at least second-order to said pulse amplitude versus hold-down pressure values,means for identifying the lowest hold-down pressure at which the pulse amplitude substantially equals sixty percent of the maximum pulse amplitude on the graph of the pulse amplitude versus hold-down pressure polynomial,means for determining the slope of a straight line fitted to a sub-set of at least one of the diastolic pressure and systolic pressure values over a range of hold-down pressures below said hold-down pressure identified as the lowest hold-down pressure at which the pulse amplitude substantially equals sixty percent of the maximum, andmeans for determining the minimum slope of the graph of at least one of the polynomials of diastolic pressure and systolic pressure versus hold-down pressure values, the ratio of said minimum slope to the slope of said straight line providing a measure of compliance of the underlying artery.
- View Dependent Claims (18, 19, 20)
- - 18. A system as defined in claim 17 including means for setting the hold-down pressure of the transducer at substantially the hold-down pressure at which the slope of at least one of the graphs of the diastolic pressure and systolic pressure versus hold-down pressure polynomial is minimum.
  - 19. A system as defined in claim 17 including means for setting the hold-down pressure of the transducer at substantially the hold-down pressure midway between the pair of hold-down pressures at which the pulse amplitude polynomial substantially equals sixty percent of the maximum pulse amplitude on the graph of the pulse amplitude versus hold-down pressure polynomial.
  - 20. A system as defined in claim 17 including means for setting the hold-down pressure of the transducer at substantially the hold-down pressure at which the pulse amplitude polynomial is maximum.

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Current Assignee
SRI International, Inc.
Original Assignee
SRI International, Inc.
Inventors
Eckerle, Joseph S.
Primary Examiner(s)
Jaworski, Francis
Assistant Examiner(s)
MANUEL, GEORGE C

Application Number

US06/927,843
Time in Patent Office

810 Days
Field of Search

128/672, 128/677-683, 128/687-690, 73/4 R
US Class Current

600/485
CPC Class Codes

A61B 5/02007 Evaluating blood vessel con...

A61B 5/022 by applying pressure to clo...

Blood pressure monitoring method and apparatus

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

153 Citations

20 Claims

Specification

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Blood pressure monitoring method and apparatus

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

153 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links