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The importance of blood resistivity in the measurement of cardiac output by the thoracic impedance method

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Abstract

Twenty simultaneous pairs of cardiac output values from patients who did not have valvular abnormalities were obtained by the radioisotope method and the electrical-impedance method of Kubicek et al. (1966). If a standard value of 150Ω-cm was assumed for the resistivity of each patient's blood, the mean value for the impedance cardiac output was 14·5% high compared with the mean radioisotope value. In this study the patient's haematocrits ranged from 20 to 48%. Inserting the appropriate value of the resistivity for each patient into the stroke volume equation of Kubicek from the data of Geddes and Sadler (1973) made the mean impedance value 10·3% low compared with the mean isotope value. The use of our measured resistivity data made the mean impedance cardiac output value 21·5% lower than the mean isotope value. The correlation coefficient between the impedance and isotope techniques was 0·61 for the standard value of resistivity of 150Ω-cm. Using the resistivity data of Geddes and Sadler (1973) the correlation became 0·87, and with our data it was 0·88.

Sommaire

Vingt paires simultanées de valeurs de débit sanguin en provenance de patients ne présentant pas d'anormalités valvulaires ont été obtenues par la méthode radio-isotopique et la méthode d'impédance életrique deKubicek et al (1966). Si on a admis pour la résistité sanguine de chaque patient une valeur-type de 150Ω, la valeur d'impédance moyenne de débit sanguin était supérieure de 14·5% par rappórt à la valeur radio-isotopique moyenne. Dans la présente étude, les hématocrites des patients s'échelonnaient de 20 à 48%. En faisant passer la valeur de résistivité appropriée pour chaque patient dans l'équation de volume d'apoplexie de Kubicek à partir des données de Geddes et de Sadler (1973), on obtient une valeur d'impédance moyenne inférieure de 10·3% par rapport à la valeur isotopique moyenne. L'utilisation de nos données de résistivité mesurées ont amené la valeur d'impédance moyenne de débit sanguin à 21·5% au-dessous de la valeur isotopique moyenne. Le coefficient de corrélation entre les techniques à impédance et les techniques à isotopes était de 0·61 pour la valeur-type de résistivité de 150Ωcm. Ce coefficient a été amené à 0.87 par l'utilisation des données de résistivité de Geddes et Sadler (1973), contre 0·88 avec nos données.

Zusammenfassung

Zwanzig simultane Herzleistungspaarwerte von Patienten ohne Herzklappen-Anomalitäten wurden durch das Radioisotopenverfahren und das elektrische Impedanzverfahren von Kubicek und anderen (1966) erhalten. Wenn ein Standardwert von 150Ωcm für den spezifischen Widerstand des Blutes eines jeden Patienten angenommen wurde, betrug der Durchschnittswert für die Impedanz-herzleistung 14·5%, was im Vergleich zum durchschnittlichen Radioisotopenwert hoch ist. In dieser Untersuchung lagen die Blutzentrifugenwerte der Patienten zwischen 20 and 48%. Wenn man den entsprechenden spezifischen Widerstandswert für jeden Patienten in die Hubvolumengleichung von Kubicek aus den Daten nach Geddes und Sadler (1973) eisetzt, ist der mittlere Impedanzwert von 10·3% im Vergleich zum mittleren Isotopenwert niedrig. Bei Anwendung unserer gemessenen Widerstandsdaten lag der mittlere Herzleistungs-impedanzwert um 21·5% unter dem mittleren Isotopenwert. Der Korrelationskoeffizient zwischen Impedanz-und Isotopen-technik betrug 0·61 für den Standard-Widerstandswert von 150Ωcm. Bei Verwendung der Widerstandsdaten nach Geddes und Sadler (1973) betrug der Korrelationskoeffizient 0·87 mit unseren Daten 0·88.

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References

  • Baker, L. E., Judy, W. V., Geddes, L. E., Langley, F. M. andHill, D. W. (1971) The measurement of cardiac output by means of electrical impedance.Cardiovasc. Res. Centre Bull. 9, 135–145.

    Google Scholar 

  • Farmer, J. B., Kennedy, I., Levy, G. P. andMarshall, R. J. (1972) Pharmacology of AH 5158: a drug which blocks both alpha-and beta-adrenoceptors.Brit. J. Pharmacol. 45, 660–675.

    Google Scholar 

  • Geddes, L. A. andSadler, C. (1973) The specific resistance of blood at body temperature.Med. Biol. Engng. 11, 336–339.

    Google Scholar 

  • Hill, D. W. andLowe, H. J. (1973) The use of the electrical impedance technique for the monitoring of cardiac output during anaesthesia.Med. Biol. Engng. 11, 534–545.

    Google Scholar 

  • Hill, D. W., Thompson, F. D..,Valentinuzzi, M. E. andPate, T. D. (1973) The use of a compartmental hypothesis oor the estimation of cardiac output from dye dilution curves and the analysis of radiocardiograms.Med. Biol. Engng. 11, 43–54.

    Google Scholar 

  • Hill, D. W. andThompson, F. D. (1974) The effect of haematocrit on the resistivity of blood.Med. Biol. Engng. 12.

  • Kubicek, W. G., Karnegis, J. N., Patterson, R. P., Witsoe, D. A. andMattson, R. H. (1966) Development and evaluation of an impedance cardiac output system.Aerospace Med. 37, 1208.

    Google Scholar 

  • Lewis, M. L., Giuntini, C., Donato, L., Harvey, R. M. andCournand, A. (1972) Quantitative radiocardiography. III—Results and validation of theory and method.Circulation 26, 189–199.

    Google Scholar 

  • Shipley, R. A., Clark, R. E., Liebowitz, D. andKrohmer, J. S. (1953) Analysis of radiocardiogram in heart failure.Circ. Res. 1, 428.

    Google Scholar 

  • Sova, J. (1970) Cardiac rheometry: Impedance plethysmography of the human trunk as a method for measurement of stroke volume and cardiac output.Ann. NY Acad. Sci. 170, 577.

    Google Scholar 

  • Stewart, G. N. (1929) The conductivity of erythrocytes compared with that of serum.Am. J. Physiol.,90, 194.

    Google Scholar 

  • Uhrenholdt, A. (1968) Radiocardiography: validity and reproductibility. In:Blood flow through organs and tissues. Eds.W. H. Bain, A. M. Harper andW. A. Mackay, pp. 67–69. Edinburgh, Livingstone.

    Google Scholar 

  • Veall, N., Pearson, J. D., Hanley, T. andLowe, A. E. (1954) A method for the determination of cardiac output. Preliminary Report, p. 183, Radioisotope Conference, London, Butterworth.

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Authors and Affiliations

  1. Research Department of Anaesthetics, The Royal College of Surgeons of England, Lincoln's Inn Fields, EWC2A 3PN, London, England

    D. W. Hill

  2. Renal Unit, St. Paul's Hospital, Endell Street, WC2, London, England

    F. D. Thompson

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  1. D. W. Hill
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  2. F. D. Thompson
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Hill, D.W., Thompson, F.D. The importance of blood resistivity in the measurement of cardiac output by the thoracic impedance method. Med. & biol. Engng. 13, 187–191 (1975). https://doi.org/10.1007/BF02477726

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