A STUDY OF INDIRECT METHOD FOR CARDIAC OUTPUT DETERMINATION BY CONTINUOUS GAS-ANALYSIS OF PROLONGED EXPIRATION
Theoretical principle of the indirect method for cardiac output determination by continuous gas-analysis of prolonged expiration was introduced and its practical utility and error sources were discussed. Merits and demerits of this method are as followd; 1) No blood sampling nor catheterzation is re...
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| Published in | Japanese Journal of Physical Fitness and Sports Medicine Vol. 22; no. 1; pp. 26 - 32 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
The Japanese Society of Physical Fitness and Sports Medicine
1973
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| Online Access | Get full text |
| ISSN | 0039-906X 1881-4751 |
| DOI | 10.7600/jspfsm1949.22.26 |
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| Abstract | Theoretical principle of the indirect method for cardiac output determination by continuous gas-analysis of prolonged expiration was introduced and its practical utility and error sources were discussed. Merits and demerits of this method are as followd; 1) No blood sampling nor catheterzation is required. 2) Nonphysiological gas inhalation or injection of dye or other substances are not required. 3) Real time determination of cardiac output is possible when used with online computor processing. 4) Repeated measurement on the same subject is able to perform once every two minute at rest and once a minute during exercise. 5) Measurement during exercise is performed without any dificulty. 6) Several suppositions which used in this method may cause some error, especially anemia and unevenness of ventilation-perfusion ratio are possible two major error sources. Using a gas-spectometer, cardiac output of six subjects was measured by this principle at rest and during exercise of several intensities on a bicycle ergometer. Average values of cardiac output were 4.5, 7.5, 9.4, 12.3, and 14.1 1/min. at rest and during exercise of 150, 300, 450, and 600 kpm/min., respectively. From the results, utility of this method was practically confirmed for application to exercise physiology. |
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| AbstractList | Theoretical principle of the indirect method for cardiac output determination by continuous gas-analysis of prolonged expiration was introduced and its practical utility and error sources were discussed. Merits and demerits of this method are as followd; 1) No blood sampling nor catheterzation is required. 2) Nonphysiological gas inhalation or injection of dye or other substances are not required. 3) Real time determination of cardiac output is possible when used with online computor processing. 4) Repeated measurement on the same subject is able to perform once every two minute at rest and once a minute during exercise. 5) Measurement during exercise is performed without any dificulty. 6) Several suppositions which used in this method may cause some error, especially anemia and unevenness of ventilation-perfusion ratio are possible two major error sources. Using a gas-spectometer, cardiac output of six subjects was measured by this principle at rest and during exercise of several intensities on a bicycle ergometer. Average values of cardiac output were 4.5, 7.5, 9.4, 12.3, and 14.1 1/min. at rest and during exercise of 150, 300, 450, and 600 kpm/min., respectively. From the results, utility of this method was practically confirmed for application to exercise physiology. |
| Author | YUZA, NOBUO IKEGAMI, HARUO SAKAKIBARA, CHIEKO |
| Author_xml | – sequence: 1 fullname: SAKAKIBARA, CHIEKO organization: Aeromedical Laboratory, Japan Air Self Defence Force – sequence: 1 fullname: IKEGAMI, HARUO organization: Aeromedical Laboratory, Japan Air Self Defence Force – sequence: 1 fullname: YUZA, NOBUO organization: Aeromedical Laboratory, Japan Air Self Defence Force |
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| References | 1) Bickel, R.G., C.F. Diener and H.L. Brammell, (1970) : Analog computer program for cardiac output in humans using mass-spectrometer analysis of expired air, Aerospace Med., 41, 203-207 8) Miller, V.A., A. Hemingway, A.O. Nier, R.T.Knight, E.B. Brown, and R.L. Varco, (1950) : The development of, and certain clinical applications for a prolable mass spectrometer. J. Thor. Surgery, 20, 714. 7) Knowles, J.H., W, Newman, and W.O. Penn, (1960) : Determination of oxygenated mixed venous blood CO2 tension by a breath-holding method, J. Appl. physiol., 15, 225-228 4) Dubois, A.B., W.O. Penn, and A.G. Britt, (1953) : CO2 dissociation curve of lung tissue, J. Appl. physiol., 5, 13-16 3) Dill, D.B., H.T. Edwards, and W.V. Consolazio, (1937) : Blood as a physicochemical system of human at rest, J. Biol. Chem., 118, 635-648 2) Christensen, J., C.G. Douglas and J.S. Haldane, (1914) : The absorption and dissociation of carbon dioxide by human blood, J. physiol.48, 244-271, 1914 5) Fowler, K.T., and P. Hugh-Jones, (1957) : Mass spectrometry applied to clinical practice and research, Brit. Med. J., 1, 1205-1211 6) Kim, T.S., H. Rahn and L.E. Farhi, (1963) : Estimation of true venous and arterial Pco2 and cardiac output by gas analysis of a single breath, Aeromedical Laboratory, USAF, AM-RL-TDR-61-103 (1) , pp58-73 |
| References_xml | – reference: 1) Bickel, R.G., C.F. Diener and H.L. Brammell, (1970) : Analog computer program for cardiac output in humans using mass-spectrometer analysis of expired air, Aerospace Med., 41, 203-207 – reference: 3) Dill, D.B., H.T. Edwards, and W.V. Consolazio, (1937) : Blood as a physicochemical system of human at rest, J. Biol. Chem., 118, 635-648 – reference: 4) Dubois, A.B., W.O. Penn, and A.G. Britt, (1953) : CO2 dissociation curve of lung tissue, J. Appl. physiol., 5, 13-16 – reference: 5) Fowler, K.T., and P. Hugh-Jones, (1957) : Mass spectrometry applied to clinical practice and research, Brit. Med. J., 1, 1205-1211 – reference: 8) Miller, V.A., A. Hemingway, A.O. Nier, R.T.Knight, E.B. Brown, and R.L. Varco, (1950) : The development of, and certain clinical applications for a prolable mass spectrometer. J. Thor. Surgery, 20, 714. – reference: 2) Christensen, J., C.G. Douglas and J.S. Haldane, (1914) : The absorption and dissociation of carbon dioxide by human blood, J. physiol.48, 244-271, 1914 – reference: 7) Knowles, J.H., W, Newman, and W.O. Penn, (1960) : Determination of oxygenated mixed venous blood CO2 tension by a breath-holding method, J. Appl. physiol., 15, 225-228, – reference: 6) Kim, T.S., H. Rahn and L.E. Farhi, (1963) : Estimation of true venous and arterial Pco2 and cardiac output by gas analysis of a single breath, Aeromedical Laboratory, USAF, AM-RL-TDR-61-103 (1) , pp58-73 |
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| Title | A STUDY OF INDIRECT METHOD FOR CARDIAC OUTPUT DETERMINATION BY CONTINUOUS GAS-ANALYSIS OF PROLONGED EXPIRATION |
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