Method for noninvasive blood-pressure measurement by evaluation of waveform-specific area data
First Claim
1. A noninvasive, oscillometric blood-pressure measurement method to determine blood-pressure parameters derived from data acquired relative to blood-pressure-induced pressure waveforms, said method enabling the acquisition of such data with improved accuracy and an improved faster rate, and said method, in operative condition relative to a blood vessel in a living subject, comprisingestablishing in a means for producing a baseline counterpressure adjacent such vessel a predetermined beginning counterpressure above systolic pressure, thus to occlude the vessel,progressively reducing counterpressure in steps from a beginning counterpressure step to a predetermined ending counterpressure step,during said reducing, and on a step-by-step basis, monitoring the waveforms of blood-pressure-induced changes in the pressure in such means,on the basis of said step-by-step monitoring, developing and storing waveform-specific partial-area data, andfrom such stored data, calculating the desired parameters.
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Abstract
A microprocessor-controlled, oscillometric method for determining a patient'"'"'s systolic, diastolic, and mean arterial pressure, practiced in a system comprising an inflatable, occluding cuff, a pump and a valve coupled to the cuff, and monitoring apparatus coupled to the cuff adapted to measure cuff pressure and recurring blood-pressure pulsations occurring in the cuff that are caused by each heart contraction occurring in a measurement cycle. Cuff pressure is raised to a level above the patinet'"'"'s systolic pressure, and progressively reduced in a stepwise fashion to an ending cuff pressure. A fixed number of pulsations are measured and processed at a first and second cuff-pressure step, and a generally lesser number of oscillations are measured and processed at a third and subsequent cuff-pressure steps. The method includes a first artifact rejection technique used to check for false data relative to the formation of each blood-pressure pulsation. Further, the method includes calculating, for each blood-pressure pulsation, the impulse of a force that is exerted upon the patinet'"'"'s blood from, and during, each heart contraction that occurs in the measurement cycle. An impulse value is stored relative to each pulsation. A second artifact rejection technique is used, beginning at the second cuff-pressure step, to generate a prediction curve for predicting a next, expected-to-be-stored pulsation impulse value for a next, lower cuff-pressure step. The second artifact rejection technique is also used to repeatedly smooth the prediction curve based on the difference between a pulsation'"'"'s calculated impulse value and its respective predicted impulse value. A final, smoothed curve is generated reflecting a final impulse value for each cuff-pressure step. From the final curve, the desired blood pressure parameters are derived and displayed in the form of arabic numerals by means of an LCD readout.
96 Citations
20 Claims
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1. A noninvasive, oscillometric blood-pressure measurement method to determine blood-pressure parameters derived from data acquired relative to blood-pressure-induced pressure waveforms, said method enabling the acquisition of such data with improved accuracy and an improved faster rate, and said method, in operative condition relative to a blood vessel in a living subject, comprising
establishing in a means for producing a baseline counterpressure adjacent such vessel a predetermined beginning counterpressure above systolic pressure, thus to occlude the vessel, progressively reducing counterpressure in steps from a beginning counterpressure step to a predetermined ending counterpressure step, during said reducing, and on a step-by-step basis, monitoring the waveforms of blood-pressure-induced changes in the pressure in such means, on the basis of said step-by-step monitoring, developing and storing waveform-specific partial-area data, and from such stored data, calculating the desired parameters.
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9. A noninvasive, oscillometric blood-pressure measurement method to determine blood-pressure parameters derived from data acquired relative to blood-pressure-induced pressure waveforms, said method promoting the rapid acquisition and verification of such data, and in operative condition relative to a blood vessel in a living subject, comprising
establishing in a means for producing a baseline counterpressure adjacent such vessel a predetermined beginning counterpressure above systolic pressure, thus to occlude the vessel, progressively reducing counterpressure in steps from a beginning counterpressure step to a predetermined ending counterpressure step, during said reducing, monitoring the waveforms of blood-pressure-induced changes in the pressure in such means, on the basis of said monitoring, developing and storing waveform-specific partial-area data, and determining from such data: -
(a) means arterial pressure to the lowest baseline counterpressure corresponding in time with occurrence of the blood-pressure waveform associated with the largest area-data value; (b) systolic pressure to be the baseline counterpressure corresponding in time with occurrence of the blood-pressure waveform whose associated area-data value has a first predetermined fractional relationship with the value identified above in subparagraph (a); and (c) diastolic pressure to be the baseline counterpressure corresponding in time with occurrence of the blood-pressure waveform whose associated area-data value has a second predetermined fractional relationship with the value identified above in subparagraph (a). - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. An artifact-rejection method to be used with noninvasive blood-pressure measuring apparatus that determines blood-pressure parameters derived from data acquired relative to blood-pressure-induced pressure waveforms, said method comprising:
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in a means for producing a baseline counterpressure adjacent a blood vessel in a living subject, progressively reducing such counterpressure in counterpressure steps from a predetermined beginning, occluding baseline counterpressure above systolic pressure to a predetermined ending baseline counterpressure; during said reducing, and for a predetermined number of such counterpressure steps, and at each such step, monitoring a plurality of the waveforms of blood-pressure-induced changes in the pressure of such means; on the basis of said monitoring, developing and storing waveform-specific area data; at each of such counterpressure steps, choosing a predetermined number of stored, waveform-specific area-data values as indicative of blood pressure and computing an average waveform-specific area value from such chosen values; thereafter, from such average values, fitting a curve and, from such curve, predicting an expected-to-be-stored waveform-specific area-data value for a next baseline counterpressure step, and applying experimentally determined bounds to such expected-to-be-stored waveform-specific area-data value; modifying said monitoring at such next baseline counterpressure step so that a single waveform-specific area-data value is developed and stored; and checking whether such single value is within such bounds from said predicting as a way of determining the acceptability of the value. - View Dependent Claims (18)
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19. An artifact-rejection method to be used with noninvasive blood-pressure measuring apparatus that processes two streams of data corresponding to blood-pressure-induced pressure waveforms, said method comprising:
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in a means for producing a baseline counterpressure adjacent a blood vessel in a living subject, progressively reducing such counterpressure in counterpressure steps from a predetermined beginning, blood-vessel-occluding, baseline-counterpressure step above systolic pressure to an ending baseline counterpressure step; during said reducing, and at each such counterpressure step, monitoring at least one waveform of blood-pressure-induced changes in the pressure within such means; said monitoring including, for each such waveform, acquiring two streams of data, the first such stream corresponding to baseline counterpressure data, and the second such stream corresponding to blood-pressure-induced, pressure-pulsation data, viewing such data in three different phases of activity; and from said viewing, verifying that such waveform is blood-pressure-induced by checking the first such data-phase according to a first, predetermined verification criteria, by checking the second such phase according to a second, predetermined verification criteria, and by checking the third such phase according to a third, predetermined verification criteria. - View Dependent Claims (20)
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Specification