Method and apparatus for determining blood pressure
First Claim
1. A method of measuring blood pressure, comprising the steps of:
- (a) providing at least one transducer in contact with a subject and a pressurizable cuff for urging the transducer means against the subject;
(b) pressurizing the cuff to a pressure that exceeds a typical systolic blood pressure, thereby substantially completely occluding an artery of the subject;
while depressurizing the cuff, performing the steps of,(c) monitoring an output of the transducer to detect a first oscillation, the first oscillation indicating a presence of arterial blood flow in response to a heart beat;
(d) recording an amplitude of the first oscillation;
(e) monitoring the output of the transducer to detect a further oscillation;
(f) recording an amplitude of the further oscillation;
(g) determining if the amplitude of the further oscillation is greater than the amplitude of a preceding oscillation by a predetermined first increment of amplitude;
if the determined amplitude of the further oscillation is not greater than the amplitude of the preceding oscillation by the predetermined first increment of amplitude, then repeating steps (e), (f) and (g), else(h) recording a current pressure within the cuff as a systolic blood pressure;
(i) continuing to monitor the output of the transducer means to detect an oscillation having a maximum amplitude;
(j) recording as a mean arterial blood pressure a pressure within the cuff at the time of the detection of the oscillation having the maximum amplitude;
(k) monitoring the output of the transducer to detect another oscillation;
(l) recording an amplitude of said another oscillation;
(m) determining if the amplitude of said another oscillation is less than the amplitude of a preceding oscillation by a predetermined second increment of amplitude;
if the determined amplitude of said another oscillation is not less than the amplitude of the preceding oscillation by the predetermined second increment of amplitude, then repeating steps (k), (l) and (m), else(o) recording a pressure within the cuff at the time of the preceding oscillation as a diastolic blood pressure.
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Accused Products
Abstract
A transducer assembly (12) is applied to the surface of the body beneath an inflatable cuff (10). Transducers (12c) are disposed upon a substrate (12a) and may include from one to some large number of transducers suitable for detecting an oscillation resulting from arterial blood flow within a partially occluded artery. Each transducer (12c) can be of large size, relative to an artery (16), to eliminate a requirement that the transducer be accurately placed over and maintained upon the artery. The substrate can be provided to have a surface with a radius of curvature selected to approximate a curvature of the extremity to which the transducer array is applied. The cuff pressure is increased to a level above the systolic pressure of the individual and then gradually reduced. Oscillations are sensed by one or more of the transducers as the cuff pressure is decreased. When the systolic pressure is reached, the sensed oscillations begin to increase in amplitude until they reach a maximum amplitude. The cuff pressure at the point of maximum amplitude is correlated with the Mean Arterial Pressure of the subject. Methods for accomplishing a sub-diastolic continuous measurement cycle and a Mean Arterial Pressure monitoring cycle are also provided.
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Citations
7 Claims
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1. A method of measuring blood pressure, comprising the steps of:
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(a) providing at least one transducer in contact with a subject and a pressurizable cuff for urging the transducer means against the subject; (b) pressurizing the cuff to a pressure that exceeds a typical systolic blood pressure, thereby substantially completely occluding an artery of the subject; while depressurizing the cuff, performing the steps of, (c) monitoring an output of the transducer to detect a first oscillation, the first oscillation indicating a presence of arterial blood flow in response to a heart beat; (d) recording an amplitude of the first oscillation; (e) monitoring the output of the transducer to detect a further oscillation; (f) recording an amplitude of the further oscillation; (g) determining if the amplitude of the further oscillation is greater than the amplitude of a preceding oscillation by a predetermined first increment of amplitude; if the determined amplitude of the further oscillation is not greater than the amplitude of the preceding oscillation by the predetermined first increment of amplitude, then repeating steps (e), (f) and (g), else (h) recording a current pressure within the cuff as a systolic blood pressure; (i) continuing to monitor the output of the transducer means to detect an oscillation having a maximum amplitude; (j) recording as a mean arterial blood pressure a pressure within the cuff at the time of the detection of the oscillation having the maximum amplitude; (k) monitoring the output of the transducer to detect another oscillation; (l) recording an amplitude of said another oscillation; (m) determining if the amplitude of said another oscillation is less than the amplitude of a preceding oscillation by a predetermined second increment of amplitude; if the determined amplitude of said another oscillation is not less than the amplitude of the preceding oscillation by the predetermined second increment of amplitude, then repeating steps (k), (l) and (m), else (o) recording a pressure within the cuff at the time of the preceding oscillation as a diastolic blood pressure. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification