Impedance Cardiography for Cardiac Output Estimation in Pacemaker Patients: Review of the Literature

Impedance curdiogrciphy permits noninvasive beat‐to‐beat determination of cardiac output, the product of the amplitude of the first derivative of thonicic impedance signal (dZ/dt), the venfricular ejection time, and heart rate corrected by the distance between the measuring electrodes. Its use is based on: (1) the dZ/dt signal that originates from the upper thorax; (2) the ventricular ejection period measured by the dZ/dt curve that occurs between the opening and closing of the aortic vnlve: (3) the dZ/dt curve is similar in morphology and timing to the aortic flow curve measured by an electromagnetic flowmefer with a significant linear correlation (r = 0.9) between dZ/dt and peak aortic flow; (4) similarity of the linear correlation between stroke volume, determined by the flowmeter and the impedance signal; and (5) significant reduction of the dZ/dt signal by 90% follows simultaneous occlusion of the aorta and the pulmonary artery. The rapid systolic portion of the impedance signal occurs only when blood is ejected into the aorta and is independent of right ventricular ejection. Most studies comparing impedance cardiography results with standard cardiac output determination have shown a correlation of 0.7–0.9. While the accuracy of impedance cardiography remains controversial and can be affected by the inherent limitations of the technique and by low cardiac output, intracardiac shunts. and valvular regurgitation. the high reproducibility of the method is established and may be comparable or superior to other commonly used techniques. When accurate determination of cardiac output is crucial, impedance cardiography may be used in conjunction with a standard technique to establish a baseline reference, thereby permitting further analysis. If only the trend need be followed, the high reproducibility of impedance cardiography measurements allows small changes in cardiac output to be detected on a frequent and ongoing basis. The ease and precision of this technique warrants its more widespread use in the assessment of pacemaker patients. Further use of this promising technique will allow a better definition of its role in the assessment of a wide range of cardiac patients.

[1]  L. Baker,et al.  Comparative evaluation of the thoracic impedance and isotope dilution methods for measuring cardiac output. , 1969, Aerospace medicine.

[2]  S. Mohapatra,et al.  Non Invasive Cardiovascular Monitoring by Electrical Impedance Technique , 1988 .

[3]  B. C. Penney,et al.  Theory and cardiac applications of electrical impedance measurements. , 1986, Critical reviews in biomedical engineering.

[4]  C. D. De Mey,et al.  Noninvasive assessment of cardiac performance by impedance cardiography: disagreement between two equations to estimate stroke volume. , 1988, Aviation, space, and environmental medicine.

[5]  N. Haites,et al.  HOW FAR IS THE CARDIAC OUTPUT? , 1984, The Lancet.

[6]  J. Ross,et al.  Progress toward an orthotopic cardiac prosthesis. , 1973, Biomaterials, medical devices, and artificial organs.

[7]  R. Patterson,et al.  The Minnesota impedance cardiograph- theory and applications. , 1974, Biomedical engineering.

[8]  P E Leaverton,et al.  The First Derivative Thoracic Impedance Cardiogram , 1970, Circulation.

[9]  J. Chalmers,et al.  Automated non-invasive measurement of cardiac output: comparison of electrical bioimpedance and carbon dioxide rebreathing techniques. , 1988, British heart journal.

[10]  S. White,et al.  Thoracic resistivity for stroke volume calculation in impedance cardiography. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.

[11]  K. Tremper,et al.  Thoracic bioimpedance and Doppler cardiac output measurement: learning curve and interobserver reproducibility. , 1989, Critical care medicine.

[12]  J. Rawles HOW FAR IS THE CARDIAC OUTPUT? , 1985, The Lancet.

[13]  J. Holm,et al.  Cardiac output determinations in the pig--thoracic electrical bioimpedance versus thermodilution. , 1990, Critical care medicine.

[14]  T. Raffin,et al.  Reliability of the thermodilution method in the determination of cardiac output in clinical practice. , 2015, The American review of respiratory disease.

[15]  E. Kinnen CARDIAC OUTPUT FROM TRANSTHORACIC IMPEDANCE VARIATIONS * , 1970 .

[16]  W. Shoemaker,et al.  Comparison of measurements of cardiac output by bioimpedance and thermodilution in severely ill surgical patients , 1986, Critical care medicine.

[17]  L. Baker,et al.  Thoracic impedance changes following saline injection into right and left ventricles. , 1972, Journal of applied physiology.

[18]  John G. Webster,et al.  The Contribution of Vessel Volume Change and Blood Resistivity Change to the Electrical Impedance Pulse , 1985, IEEE Transactions on Biomedical Engineering.

[19]  F. Traugott,et al.  EFFECTS OF CHANGING HAEMATOCRIT, VENTRICULAR RATE AND MYOCARDIAL INOTROPY ON THE ACCURACY OF IMPEDANCE CARDIOGRAPHY , 1981, Clinical and Experimental Pharmacology and Physiology.

[20]  T. N. Stevenson,et al.  Fluid Mechanics , 2021, Nature.

[21]  D. Wong Noninvasive cardiac output measurement. , 1990, The Western journal of medicine.

[22]  R. Frank,et al.  Assessment of the optimal atrio-ventricular delay in DDD paced patients by impedance plethysmography. , 1989, European heart journal.

[23]  S Wilbur,et al.  Noninvasive cardiac output: simultaneous comparison of two different methods with thermodilution. , 1990, Anesthesiology.

[24]  G. Wolf,et al.  Comparison of Four Noninvasive Techniques to Measure Stroke Volume: Dual-Beam Doppler Echoaortography, Electrical Impedance Cardiography, Mechanosphygmography and M Mode Echocardiography of the Left Ventricle , 1990 .

[25]  J M Levett,et al.  Thermodilution cardiac output: a critical analysis and review of the literature. , 1979, The Journal of surgical research.

[26]  K. Visser,et al.  Investigation of the origin of the impedance cardiogram by means of exchange transfusion with stroma free haemoglobin solution in the dog. , 1990, Cardiovascular research.

[27]  F. Tristani,et al.  Application of impedance cardiography to study of postural stress. , 1970, Journal of applied physiology.

[28]  D. Eckberg,et al.  Impedance cardiograms reliably estimate beat-by-beat changes of left ventricular stroke volume in humans. , 1984, Cardiovascular research.

[29]  J. Reeves,et al.  Cardiac output in normal resting man. , 1961, Journal of applied physiology.

[30]  S. Furman,et al.  Measurements of cardiac output by impedance cardiography in pacemaker patients at rest: effects of various atrioventricular delays. , 1993, Journal of the American College of Cardiology.

[31]  A. Pelech,et al.  Thoracic electric bioimpedance measurement of cardiac output in the newborn infant. , 1988, The Journal of pediatrics.

[32]  R. Gotshall,et al.  Comparison of two impedance cardiographic techniques for measuring cardiac output in critically ill patients. , 1989, Critical care medicine.

[33]  D. Sahn Determination of cardiac output by echocardiographic Doppler methods: relative accuracy of various sites for measurement. , 1985, Journal of the American College of Cardiology.

[34]  Orthostatic Responses in Patients with ODD Pacemakers: Signs of Autonomic Dysfunction , 1992, Pacing and clinical electrophysiology : PACE.

[35]  B. Hockings,et al.  Comparison of transthoracic electrical impedance and thermodilution methods for measuring cardiac output , 1986, Critical care medicine.

[36]  F. H. Bonjer,et al.  The Origin of the Variations of Body Impedance Occurring during the Cardiac Cycle , 1952, Circulation.

[37]  Non-invasive determination of cardiac output by Doppler echocardiography and electrical bioimpedance , 1990, British heart journal.

[38]  F. Treiber,et al.  Noninvasive assessment of cardiac output in children using impedance cardiography. , 1990, American heart journal.

[39]  K. Yamakoshi,et al.  A Model Study of Stroke Volume Values Calculated from Impedance and Their Relation to the Waveform of Blood Flow , 1977, IEEE Transactions on Biomedical Engineering.

[40]  Alison C. Smith,et al.  Relationship of bioimpedance to thermodilution and echocardiographic measurements of cardiac function , 1990, Critical care medicine.

[41]  K. Yamakoshi,et al.  Evaluation of the Parallel Conductor Theory for Measuring Human Limb Blood Flow by Electrical Admittance Plethysmography , 1982, IEEE Transactions on Biomedical Engineering.

[42]  T. Ryan,et al.  Accuracy of the stroke index as determined by the transthoracic electrical impedance method. , 1975, Anesthesiology.

[43]  I. Findlay,et al.  Non-invasive determination of cardiac output by Doppler echocardiography and electrical bioimpedance. , 1990, British heart journal.

[44]  W. Judy,et al.  Reproducibility of haemodynamic measurements by impedance cardiography. , 1983, Cardiovascular research.

[45]  R. Zimlichman,,et al.  Clinical evaluation of impedance cardiography. , 1986, Clinical physiology.

[46]  M. Girling,et al.  A model for the cardiac-associated changes of the thoracic electrical impedance in man. , 1979, Physics in medicine and biology.

[47]  D. Spodick,et al.  Systolic time intervals reconsidered. Reevaluation of the preejection period: absence of relation to heart rate. , 1984, The American journal of cardiology.

[48]  J C Buell,et al.  A practical, cost-effective, noninvasive system for cardiac output and hemodynamic analysis. , 1988, American heart journal.

[49]  F. Spinale,et al.  Comparison of bioimpedance and thermodilution methods for determining cardiac output: experimental and clinical studies. , 1988, The Annals of thoracic surgery.

[50]  F. Gollan,et al.  ELECTRICAL IMPEDANCE OF PULSATILE BLOOD FLOW IN RIGID TUBES AND IN ISOLATED ORGANS , 1970 .

[51]  J. Atterhög,et al.  Measurement of cardiac output by impedance cardiography in patients with myocardial infarction. Comparative evaluation of impedance and dye dilution methods. , 1976, Scandinavian journal of clinical and laboratory investigation.

[52]  C. Gambini,et al.  Impedance Cardiography for Repeated Determination of Stroke Volume in Elderly Hypertensives: Correlation with Pulsed Doppler Echocardiography , 1991, Angiology.

[53]  K. Visser,et al.  Investigation of the parallel conductor model of impedance cardiography by means of exchange transfusion with stroma free haemoglobin solution in the dog. , 1987, Cardiovascular research.

[54]  J. Maher,et al.  Measurement of cardiac output by electrical impedance at rest and during exercise. , 1976, Journal of applied physiology.

[55]  N. M. Greene An A.S.A. Overseas Teaching Program , 1990 .

[56]  B. Sramek Measurement of cardiac output in pregnancy by thermodilution and impedance techniques , 1990 .

[57]  P. Arnsbo,et al.  Measurements of cardiac stroke volume in various body positions in pregnancy and during Caesarean section: a comparison between thermodilution and impedance cardiography. , 1979, Scandinavian journal of clinical and laboratory investigation.

[58]  R. Zimlichman,,et al.  Assessment of hemodynamic changes in the early phase of uncomplicated acute myocardial infarction. , 1989, International journal of cardiology.

[59]  M. Winniford,et al.  Analysis of factors affecting the variability of Fick versus indicator dilution measurements of cardiac output. , 1985, The American journal of cardiology.

[60]  S. A. Bellows Comparison of two impedance cardiographic techniques for measuring cardiac output in critically ill patients. , 1990, Critical Care Medicine.

[61]  T. Benedetti,et al.  Measurement of cardiac output in pregnancy by thermodilution and impedance techniques , 1989, British Journal of Obstetrics and Gynaecology.

[62]  T. Dillon,et al.  Accuracy of electrical impedance cardiography for measuring cardiac output in children with congenital heart defects. , 1988, The American journal of cardiology.

[63]  I. Ovsyshcher,et al.  Precision of Impedance Cardiography Measurements of Cardiac Output in Pacemaker Patients , 1992, Pacing and clinical electrophysiology : PACE.

[64]  A. Rossier Letter to the Editor , 1986, Paraplegia.