Determination of oscillometric blood pressure by linear approximation
First Claim
1. An automated sphygmomanometer apparatus, comprising:
- an inflatable and deflatable pressure cuff;
inflating means operatively coupled to said cuff for selectively applying a medium under pressure to said cuff for inflating and pressurizing said cuff;
cuff pressure sensing means coupled to said cuff for sensing cuff pressure including any arterial blood pressure oscillations therein;
deflating means operatively coupled to said cuff for selectively relieving pressure from said cuff;
control means for controlling said inflating means to inflate said cuff and said deflating means to deflate said cuff to respective cuff pressure levels for the detection of said arterial blood pressure oscillations at each of said respective cuff pressure levels during a blood pressure determination, and for determining an oscillometric envelope comprising pulse amplitude points corresponding to said arterial blood pressure oscillations at said respective cuff pressure levels during said blood pressure determination; and
processing means for linearly approximating said oscillometric envelope with a pair of best fit lines and for determining a mean arterial pressure of said patient based on a pressure at a point of intersection of said pair of best fit lines.
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Abstract
An automated sphygmomanometer which models the oscillometric envelope as two lines through the points defined by pressure and amplitude which are determined during the oscillometric blood pressure determination. One of the lines is the best fit through the points on the low pressure (diastolic) side of the oscillometric envelope, while the other line is the best fit through the points on the high pressure (systolic) side of the oscillometric envelope. The dividing point for the low and high pressure sides is chosen as the point where the best fit line through the points on one side and the best fit line through the points on the other side have the greatest amplitude at the point of intersection. The result is a linear approximation of the oscillometric envelope by two lines forming a triangle with the baseline. A second pass is preferably performed to improve the linear approximation by eliminating points with oscillation amplitudes that are outside of the area of interest. The best fit lines are then recalculated from the remaining points, and the points where the best fit lines intersect (or some function thereof) is then used as MAP and for determining the systolic and diastolic pressures. The resulting method for calculating systolic, MAP, and diastolic pressures is less sensitive to erroneous oscillation amplitudes since all points in the area of interest along the oscillometric envelope are weighted equally.
98 Citations
10 Claims
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1. An automated sphygmomanometer apparatus, comprising:
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an inflatable and deflatable pressure cuff; inflating means operatively coupled to said cuff for selectively applying a medium under pressure to said cuff for inflating and pressurizing said cuff; cuff pressure sensing means coupled to said cuff for sensing cuff pressure including any arterial blood pressure oscillations therein; deflating means operatively coupled to said cuff for selectively relieving pressure from said cuff; control means for controlling said inflating means to inflate said cuff and said deflating means to deflate said cuff to respective cuff pressure levels for the detection of said arterial blood pressure oscillations at each of said respective cuff pressure levels during a blood pressure determination, and for determining an oscillometric envelope comprising pulse amplitude points corresponding to said arterial blood pressure oscillations at said respective cuff pressure levels during said blood pressure determination; and processing means for linearly approximating said oscillometric envelope with a pair of best fit lines and for determining a mean arterial pressure of said patient based on a pressure at a point of intersection of said pair of best fit lines. - View Dependent Claims (2, 3, 4, 5)
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6. A method of measuring blood pressure of a patient using an automatic oscillometric blood pressure monitor comprising a cuff, means for inflating and deflating said cuff to respective cuff pressure levels during a blood pressure measurement, means for measuring arterial blood pressure oscillation complexes at said respective cuff pressure levels through measurement of time varying pressures within said cuff, and means for searching for arterial blood pressure oscillation complexes at said respective cuff pressure levels, said method comprising the steps of:
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selectively inflating and deflating said cuff and outputting a cuff pressure signal at a plurality of cuff pressure levels so as to form an oscillometric envelope comprising pulse amplitude points corresponding to said arterial blood pressure oscillations at said plurality of cuff pressure levels; determining a linear approximation to said oscillometric envelope as a pair of best fit lines through said pulse amplitude points; and determining a mean arterial pressure of said patient based on a pressure at a point of intersection of said pair of best fit lines. - View Dependent Claims (7, 8, 9, 10)
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Specification