Methods and systems for determining cardiac output based on a valve cross sectional area estimate
First Claim
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1. A method of determining the cardiac output of a patient, the method comprising the steps of:
- (a) measuring the patient'"'"'s height;
(b) measuring the patient'"'"'s heart rate;
(c) measuring the velocity time integral or stroke distance of blood flowing from the heart of the patient via the pulmonary valve;
(d) calculating, using a single variable formula, the diameter of the pulmonary valve of the patient wherein the single variable is the patient'"'"'s height, and thereby calculating the cross sectional area of the pulmonary valve;
(e) calculating a value for the cardiac output of the patient as the product of the heart rate, the velocity time integral and the cross sectional area of the pulmonary valve; and
f) measuring the correlation between the patient'"'"'s height and of the diameter of the pulmonary valve for a population of individuals, wherein said correlation is determined through the utilization of a first ratio of the relative speed of the flow velocity through the pulmonary artery and the flow velocity through the aortic annulus, and a second ratio of the patient'"'"'s height to the aortic annulus diameter.
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Abstract
Described herein are systems and methods for determining the cardiac output of a patient. One such method includes measuring the patient'"'"'s height and the velocity time integral or stroke distance of blood flowing from the heart of the patient, and subsequently utilising these measurements to determine the cardiac output of the patient based on a valve cross sectional area estimate.
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5 Claims
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1. A method of determining the cardiac output of a patient, the method comprising the steps of:
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(a) measuring the patient'"'"'s height; (b) measuring the patient'"'"'s heart rate; (c) measuring the velocity time integral or stroke distance of blood flowing from the heart of the patient via the pulmonary valve; (d) calculating, using a single variable formula, the diameter of the pulmonary valve of the patient wherein the single variable is the patient'"'"'s height, and thereby calculating the cross sectional area of the pulmonary valve; (e) calculating a value for the cardiac output of the patient as the product of the heart rate, the velocity time integral and the cross sectional area of the pulmonary valve; and f) measuring the correlation between the patient'"'"'s height and of the diameter of the pulmonary valve for a population of individuals, wherein said correlation is determined through the utilization of a first ratio of the relative speed of the flow velocity through the pulmonary artery and the flow velocity through the aortic annulus, and a second ratio of the patient'"'"'s height to the aortic annulus diameter. - View Dependent Claims (2, 3, 4, 5)
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Specification