Method of determining the stroke volume and the cardiac output of the human heart
First Claim
1. A method for determining blood stroke volume from a pulsatile aorta blood-flow pressure signal in a subject, comprising the steps of:
- (a) providing a sensor means for measuring arterial blood pressure in a subject and obtaining a corresponding aorta blood-flow pressure signal consisting of a systolic and a diastolic period;
(b) preparing a simulation model of the aorta as a transmission line supplemented with a windkessel compliance including an arctangent relation for the non-linear pressure-volume relation in the aorta;
(c) calculating the flow of blood in the aorta as a function of time from the aorta blood-flow pressure signal employing the simulation model; and
(d) determining the blood stroke volume from the flow of blood in the aorta over the systolic period.
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Abstract
Method of determining the stroke volume of the human heart from the pulse-type blood-stream pressure signal derived from the aorta and consisting in each case of a systolic and a diastolic period. The method comprises calculating the flow q(t) from the pressure p(t) and integrating the flow over the systolic period, the aorta being regarded as a transmission line supplemented with a windkessel compliance and the pressure/volume relationship in the aorta as an arctangent relationship. The pressure represented by the pressure signal--for each stroke prior to the calculation of the flow--is linearized by the arctangent relationship, for fixed aorta length, or the aorta pressure/cross section, the values, associated with the final diastolic pressure, of the characteristic impedance of the transmission line and windkessel compliance being adhered to or is used without modification. The characteristic impedance of the transmission line and the windkessel compliance are continuously adapted to the pressure of the windkessel compliance for each stroke concerned. Additionally, to calculate the flow, the flow through the peripheral resistance is added.
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Citations
9 Claims
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1. A method for determining blood stroke volume from a pulsatile aorta blood-flow pressure signal in a subject, comprising the steps of:
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(a) providing a sensor means for measuring arterial blood pressure in a subject and obtaining a corresponding aorta blood-flow pressure signal consisting of a systolic and a diastolic period; (b) preparing a simulation model of the aorta as a transmission line supplemented with a windkessel compliance including an arctangent relation for the non-linear pressure-volume relation in the aorta; (c) calculating the flow of blood in the aorta as a function of time from the aorta blood-flow pressure signal employing the simulation model; and (d) determining the blood stroke volume from the flow of blood in the aorta over the systolic period. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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6. A method according to claim 1 including calculating cardiac output Q as product of the stroke volume and heart rate.
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7. A method according to claim 6 including calculating a peripheral resistance Rp in accordance with a formula Rp =pm /Q, where pm =mean pressure=(1/T)·
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p(t)dt, and calculating the flow through the peripheral resistance Rp in accordance with a formula QRp (t)=p0 /Rp.
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8. A method according to claim 1 including measuring the blood pressure in the arteria radialis or brachialis, and filtering the measured pressure signal in order to correct resonance distortion in the pressure curve caused by transmission.
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9. A method according to claim 1 including measuring the blood pressure, non-invasively, in the finger, and filtering the measured pressure signal in order to correct resonance distortion in the pressure curve caused by transmission.
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Specification