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A computer for determining human cardiac output

Date

1960

Journal Title

Journal ISSN

Volume Title

Publisher

ORCID

Type

Degree Level

Masters

Abstract

In the last twenty years many methods of cardiac output determination have been developed such as the Ballistocardiograph by Henderson and later by Cournand, pulse and blood pressure techniques employed by Bazett and associates, magnetic procedures and lately ferromagnetic resonance techniques have been tried. Most of these methods, however, either have severe operational disadvantages or are still in experimental states. Of course, efforts to determine cardiac output would be fruitless if its determinations were of no practical importance. However, much valuable information is given by a knowledge of cardiac output and blood transit time through the heart and lungs. At present a surgeon or physician can have the blood pressure, pulse and electrocardiogram continuously available to him during surgery or diagnostic work. If at the same time the cardiac output were available, its correlation with the above information would give a much clearer picture of the condition and reactions of the cardiovascular system. It is therefore obvious that the determination of cardiac output is not only of general interest but is of considerable importance in medical practice. To date, the most clinically adaptable method appears to be that using the indicator dilution technique. This method depends upon two important considerations. The indicator that is used must be non-toxic, even in large doses. The unit used for the detection of the dilution must be sensitive only to that indicator. The indicator may be either a chemical dye and the recording apparatus a densitometer, or an isotope with the detecting unit being a radiation monitor. Indicator dilution curves depend for their validity upon satisfactory and complete mixing of the dye with the blood. In addition, it is assumed that the densitometer samples a representative portion of that blood. Recent work (17) has shown that the indicator dilution technique for cardiac output determination has many advantages over the other methods mentioned above. This method allows the determination of cardiac output on severely ill patients. It is also possible to make repeated measurements, and in addition this method allows the determination of other important cardiovascular indices. However, a technician must spend between 30 and 60 minutes analysing each curve before all the answers are available. Thus, while this technique has many advantages, this time factor is one criticism. It was therefore thought desirable to design a computer which would allow the rapid determination of these important cardiopulmonary variables. Such a computer should be technically and operationally as simple as possible and should have an accuracy consistent with the accuracy of the method of determination. Numbers in brackets refer to bibliography.

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Citation

Degree

Master of Science (M.Sc.)

Department

Electrical Engineering

Program

Electrical Engineering

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DOI

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