Spot-electrode Array for Impedance Cardiography Determined from the Measurement of Current Distribution on the Thorax
Transthoracic impedance or admittance cardiography has been one of the simple and useful methods for noninvasive monitoring of cardiovascular function. Generally, a tetra-polar band-electrode system proposed by Kubicek et al. has been used in this method. However, the band-electrode attachment is tr...
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| Published in | Japanese journal of medical electronics and biological engineering Vol. 38; no. 3; pp. 238 - 245 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Japanese Society for Medical and Biological Engineering
2000
一般社団法人 日本生体医工学会 |
| Online Access | Get full text |
| ISSN | 0021-3292 2185-5498 |
| DOI | 10.11239/jsmbe1963.38.238 |
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| Abstract | Transthoracic impedance or admittance cardiography has been one of the simple and useful methods for noninvasive monitoring of cardiovascular function. Generally, a tetra-polar band-electrode system proposed by Kubicek et al. has been used in this method. However, the band-electrode attachment is troublesome, makes the subject uncomfortable during long-term monitoring and is often inconvenient for clinical practice. We designed a new spot-electrode array in place of the band-electrode array. Its location was determined by measuring current distribution on the thorax using a 64-ch impedance mapping system. A uniform distribution of current density suitable for an electrical cylinder model of the thorax was evaluated using this mapping. The new spot-electrode array was developed and investigated for suitability in a cylindrical model using 11 normal male subjects in supine position. The current distribution made by the new spot-electrode array was similar to the uniform current distribution (γ=0.920-0.962, p<0.001) and capable of emulating the band-electrode array (γ=0.969-0.975, p<0.001). In a comparison between the new spot-electrode array and band-electrode array for impedance cardiography, the stroke volume values obtained by the spot electrode were 5-19% larger than those by the band electrode. The loss of uniform current distribution on the thorax under the impedance change related to cardiac ejection, which was observed in this study, may cause an over-estimation of the stroke volume measured by the new spot-electrode array. |
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| AbstractList | Transthoracic impedance or admittance cardiography has been one of the simple and useful methods for noninvasive monitoring of cardiovascular function. Generally, a tetra-polar band-electrode system proposed by Kubicek et al. has been used in this method. However, the band-electrode attachment is troublesome, makes the subject uncomfortable during long-term monitoring and is often inconvenient for clinical practice. We designed a new spot-electrode array in place of the band-electrode array. Its location was determined by measuring current distribution on the thorax using a 64-ch impedance mapping system. A uniform distribution of current density suitable for an electrical cylinder model of the thorax was evaluated using this mapping. The new spot-electrode array was developed and investigated for suitability in a cylindrical model using 11 normal male subjects in supine position. The current distribution made by the new spot-electrode array was similar to the uniform current distribution (γ=0.920-0.962, p<0.001) and capable of emulating the band-electrode array (γ=0.969-0.975, p<0.001). In a comparison between the new spot-electrode array and band-electrode array for impedance cardiography, the stroke volume values obtained by the spot electrode were 5-19% larger than those by the band electrode. The loss of uniform current distribution on the thorax under the impedance change related to cardiac ejection, which was observed in this study, may cause an over-estimation of the stroke volume measured by the new spot-electrode array. |
| Author | NAKAGAWARA, Minoru YAMAKOSHI, Ken-ichi |
| Author_FL | 中川原 実 山越 憲一 |
| Author_FL_xml | – sequence: 1 fullname: 中川原 実 – sequence: 2 fullname: 山越 憲一 |
| Author_xml | – sequence: 1 fullname: YAMAKOSHI, Ken-ichi organization: Department of Human & Mechanical Systems Engineering, Faculty of Engineering, Kanazawa University – sequence: 1 fullname: NAKAGAWARA, Minoru organization: Department of Human & Mechanical Systems Engineering, Faculty of Engineering, Kanazawa University |
| BackLink | https://cir.nii.ac.jp/crid/1390001204556384640$$DView record in CiNii |
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| References | 13) Z. Lababidi, D. A. Ehmke, R. E. Durnin, P. E. Leaverton & R. M. Lauer: The first derivative thoracic impedance cardiogram, Circulation, 41, 651/658 (1970 2) H. Ito, K. Yamakoshi & T. Togawa: Transthoracic admittance plethysmography for measuring cardiac output, J. Appl. Physiol., 40, 451/454 (1976 1) W. G. Kubicek, R. P. Patterson & D. A. Witsoe: Impedance cardiography as a noninvasive method of monitoring cardiac function and other parameters of the cardiovascular system, Ann. NY Acad. Sci., 170, 724/732 (1970 12) B. J. M. Meer, H. H. Woltjer, A. M. Sousman, W. O. Schreuder, E. R. Bulder, M. A. J. M. Huybregts & P. M. J. M. Vries: Impedance cardiography —importance of the equation and the electrode configuration—, Inten sive. Care Med, 22, 1120/1124 (1996 7) R. W. Gotshall & W. R. Sexson: Comparison of band and spot electrodes for the measurement of stroke volume by the bioelectric impedance technique, Crit. Care Med., 22-3, 420/425 (1994 4) M. Nakagawara & K. Yamakoshi: A portable instrument for non-invasive monitoring of beat-by-beat cardiovascular haemodynamic parameters based on the volume-compensation and electrical-admittance method, Med. Biol. Eng. Compt., 38, 17/25 (2000 9) D. P. Bernstein: Continuous noninvasive real-time monitoring of stroke volume and cardiac output by thoracic electrical bioimpedance, Crit. Care Med., 14, 898/901 (1986 6) M. Qu, Y. Zhang, J. G. Webster & W. J. Tompkins: Motion artifact from spot and band electrodes during impedance cardiography, IEEE Trans., BME-33, 1029/1035 (1986 8) H. H. Woltjer, B. W. G. Arntzen, H. J. Bogaard & P. M. J. M. Vries: Optimalisation of the spot electrode array in impedance cardiography, Med. Biol. Eng. Compt., 34, 84/87 (1996 10) D. I. Boomsma, J. D. Vries & J. F. Orlebeke: Comparison of spot and band impedance cardiogram electrodes across different tasks, Psychophysiology, 26-6, 695/699 (1989 5) B. C. Penney, N. A. Patwardhan & H. B. Wheeler: Simplified electrode array for impedance cardiography, Med. Biol. Eng. Compt., 23, 1/7 (1985 14) E. Raaijmakers, T. J. C. Faes, H. G. Goovaerts, J. H. Meijer, P. M. J. M. Vries & R. M. Heethaar: Thoracic geometry and its relation to electrical current distribution: consequences for electrode placement in electrical impedance cardiography, Med. Biol. Eng. Compt., 36, 592/597 (1998 3) J. Nyboer: Electrical impedance plethysmography —A physical and physiological approach to peripheral vascular study—, Circulation, 2, 811/821 (1950 11) A. Sherwood, S. A. Royal, J. S. Hutcheson & J. R. Turner: Comparison of impedance cardiographic measurements using band and spot electrodes, Psychophysiology, 29-6, 734/741 (1992 |
| References_xml | – reference: 9) D. P. Bernstein: Continuous noninvasive real-time monitoring of stroke volume and cardiac output by thoracic electrical bioimpedance, Crit. Care Med., 14, 898/901 (1986) – reference: 14) E. Raaijmakers, T. J. C. Faes, H. G. Goovaerts, J. H. Meijer, P. M. J. M. Vries & R. M. Heethaar: Thoracic geometry and its relation to electrical current distribution: consequences for electrode placement in electrical impedance cardiography, Med. Biol. Eng. Compt., 36, 592/597 (1998) – reference: 10) D. I. Boomsma, J. D. Vries & J. F. Orlebeke: Comparison of spot and band impedance cardiogram electrodes across different tasks, Psychophysiology, 26-6, 695/699 (1989) – reference: 6) M. Qu, Y. Zhang, J. G. Webster & W. J. Tompkins: Motion artifact from spot and band electrodes during impedance cardiography, IEEE Trans., BME-33, 1029/1035 (1986) – reference: 1) W. G. Kubicek, R. P. Patterson & D. A. Witsoe: Impedance cardiography as a noninvasive method of monitoring cardiac function and other parameters of the cardiovascular system, Ann. NY Acad. Sci., 170, 724/732 (1970) – reference: 2) H. Ito, K. Yamakoshi & T. Togawa: Transthoracic admittance plethysmography for measuring cardiac output, J. Appl. Physiol., 40, 451/454 (1976) – reference: 4) M. Nakagawara & K. Yamakoshi: A portable instrument for non-invasive monitoring of beat-by-beat cardiovascular haemodynamic parameters based on the volume-compensation and electrical-admittance method, Med. Biol. Eng. Compt., 38, 17/25 (2000) – reference: 11) A. Sherwood, S. A. Royal, J. S. Hutcheson & J. R. Turner: Comparison of impedance cardiographic measurements using band and spot electrodes, Psychophysiology, 29-6, 734/741 (1992) – reference: 7) R. W. Gotshall & W. R. Sexson: Comparison of band and spot electrodes for the measurement of stroke volume by the bioelectric impedance technique, Crit. Care Med., 22-3, 420/425 (1994) – reference: 12) B. J. M. Meer, H. H. Woltjer, A. M. Sousman, W. O. Schreuder, E. R. Bulder, M. A. J. M. Huybregts & P. M. J. M. Vries: Impedance cardiography —importance of the equation and the electrode configuration—, Inten sive. Care Med, 22, 1120/1124 (1996) – reference: 13) Z. Lababidi, D. A. Ehmke, R. E. Durnin, P. E. Leaverton & R. M. Lauer: The first derivative thoracic impedance cardiogram, Circulation, 41, 651/658 (1970) – reference: 8) H. H. Woltjer, B. W. G. Arntzen, H. J. Bogaard & P. M. J. M. Vries: Optimalisation of the spot electrode array in impedance cardiography, Med. Biol. Eng. Compt., 34, 84/87 (1996) – reference: 3) J. Nyboer: Electrical impedance plethysmography —A physical and physiological approach to peripheral vascular study—, Circulation, 2, 811/821 (1950) – reference: 5) B. C. Penney, N. A. Patwardhan & H. B. Wheeler: Simplified electrode array for impedance cardiography, Med. Biol. Eng. Compt., 23, 1/7 (1985) |
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| Title | Spot-electrode Array for Impedance Cardiography Determined from the Measurement of Current Distribution on the Thorax |
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