To find a specific author or title, press the Ctrl + F key and enter your search criteria.  Previous Page 2004 - Current 1990 - 1999 1980 - 1989 1950 - 1979 Year Citation Care Area Primary Application Summary Link 1989 Bernstein D. Noninvasive cardiac output measurement. Textbook of Critical Care Medicine. Saunders. 1989:159-185. Critical Care Technology and Application     1989 Borzotta AP et al. Assessing myocardial function by left ventriculography or thoracic electrical bioimpedance. Presented at the American College of Surgeons. 1989.   Cardiac Function Assessment     1989 Castor G et al. Clinical evaluation of cardiac output measurement by thoracic electrical bioimpedance. IV World Conference on Clinical Pharmacology & Therapeutics. 1989;Mannheim-Heidelbergy. Critical Care Accuracy     1989 Cox C et al. Continuous measurement of cardiac output by impedance cardiography during submaximal exercise. BJ Clin Pharm. April 1989;28:227-228.   Exercise Testing     1989 De Divitiis O et al. Effort blood pressure control in the course of antihypertensive treatment. Am J Med. 1989;87:(Suppl 3C)465-56S.   Hypertension     1989 Divitiis O, Somma SD, Liguori V, Petito M, Magnotta C, Ausiello M, Natale N, Brignoli M, Galderisi M. Effort blood pressure control in the course of antihypertensive treatment. American Journal of Medicine. 1989;87(suppl 3c):46s-56s.   Hypertension "Cardiac function was assessed by a computerized method that calculated stroke volume values from changes in the transthoracic electrical impedance (BOMED) due to the cardiac cycle, at rest and immediately after ther peak of effort, in both cases lying down. The drug (rilmenidine) exerts its antihypertensive effect through the normalization of the altered hemodynamic parameters of hypertension (high cardiac output and /or increased systemic vascular resistance)."   1989 Easterling TR, Benedetti TJ, Carlson KL, et al. Measurement of cardiac output in pregnancy by thermodilution and impedance techniques. Br J Obstet Gynaecol 1989; 96:67-69.   Accuracy     1989 Eugene M et al. Assessment of the optimal atrio-ventricular delay in DDD paced patients by impedance cardiography. European Heart Journal. 1989;10:250-255.   Pacing "In some patients with a damaged myocardium, the stroke volume appeared to be highly sensitive to multiple AV delay settings. Impedance plethysmography can permit such repetitive non-invasive quick measurements, increasing the accuracy of optimal AV delay determination and is well suited for routine examination of patients with cardiac dual chamber pacemakers."   1989 Gayes JM et al. Transthoracic electrical bioimpedance: A noninvasive measurement of cardiac output. J Post Anesth Nurs 1989;4: 300-305.   Technology and Application     1989 Gotshall RW et al. Modified head-up tilt test for orthostatic challenge of critically ill patients. Critical Care Medicine. 1989;17(11):1156-1158. Critical Care Fluid Management     1989 Gotshall RW, Wood VC, Miles DS. Comparison of two impedance cardiographic techniques for measuring cardiac output. Ann Biomed Eng 1989;17: 495-505. Critical Care Accuracy     1989 Haljamae H et al. Alterations in cardiac function in patients with acute embolic lower limb ischemia. 5th world congress on intensive & critical care medicine. 1989, Kyoto, Japan. Critical Care Cardiac Function Assessment     1989 Kerkamp H et al. Cardiovascular effects of lumbar epidural blockade and the influence of epinephrine added to bupivacaine. Presented at the 14th annual ASRA. 1989. Surgical       1989 Kirch W, Halabi A, Linde M, et al. Negative effects of famotidine on cardiac performance assessed by noninvasive hemodynamic measurements. Gastroenterology 1989; 96:1388-1392.   Cardiac Function Assessment     1989 Klocke RK et al. Continuous noninvasive real-time monitoring of cardiac output by means of the new beat-to-beat bioimpedance (BoMed NCCOM3) theory-validity-possibilities of clinical applications. Intensivmedizin und Notfallmedizin. 1989;26:161-167.   Accuracy     1989 Kubicek WG. On the source of peak first time derivative (dZ/dt)during impedance cardiography. Ann Biomed Eng. 1989;17(5):459-462.   Technology and Application     1989 Lopez-saucedo A, Hirt M, Appel PL, Curtis DL, Harrier HD, Shoemaker WC. Feasibility of noninvasive physiologic monitoring in resuscitation of trauma patients in the emergency department. Critical Care Medicine. 1989;17(6):567-568. ED Hypotension     1989 Masaki DI et al. Cardiac output and systemic vascular resistance during regional anesthesia: Correlation with maternal hypotension. University of Southern Calif. Medical student research forum. Presented at the American College of Obstetrics and College district 8&9, Denver Colorado, September 1989. OB Hypotension     1989 Masaki DL, Greespoon JS, Quzounian JG. Measurement of cardiac output in pregnancy by thoracic electrical bioimpedance and thermodilution. America Journal of Obstetrics and Gynecology. 1989;161(3):680-684. OB Accuracy     1989 Miles DS, Gotshall RW. Impedance cardiography: Non-invasive assessment of human central hemodynamics at rest and during exercise. Exerc Sport Sci Rev 1989;17: 231-263.   Exercise Testing     1989 Nishimura RA. Another measurement of cardiac output: Is it truly needed? J Am Coll Cardiol 1989;13:1393-1394.   Technology and Application     1989 Porterfield J et al. Cardiac output measurement by transthoracic electrical impedance in the noninvasive assessment of aortic valve area before and after balloon valvuloplasty. American College of Chest Physicians. 1989   Aortic Valve Disease     1989 Preiser JC, Doper A, Parquier JN, et al. Transthoracic electrical bioimpedance versus thermodilution technique for cardiac measurement during mechanical ventilation. Intensive Care Med 1989;15: 221-223.   Accuracy     1989 Rowland T, Staab J, Unnithan V, Rambusch J, Siconlfi S. Thoracic bioimpedance measurement of cardiac response to maximal cycle exercise. Journal of Cardiopulmonary Rehabilitation. 1989;9:311-315.   Exercise Testing     1989 Rowland TW et al. Impedance-derived cardiac responses to maximal cycle exercise in prepubertal and adult males. Unpublished clinical study from the department of pediatrics. Baystate Medical Center, Springfield College, Massachusetts. Pediatric Exercise Testing     1989 Rowland TW et al. Thoracic bioimpedance measurement of cardiac response to maximal cycle exercise. J Cardiopulmonary Rehabil. 1989;9:311-315.   Exercise Testing     1989 Safar M et al. Calcium blocker lacidipine and carotid arteriolar vasodilation in healthy volunteers. Clinical Pharmacology & Therapeutics. 1989;46:94-98.   Cardiac Function Assessment     1989 Spiess B et al. Bioimpedance hemodynamics compared to pulmonary artery catheter monitoring during liver transplantation. American Society Anesthesiology. 1989. Surgical Accuracy     1989 Sramek B. Hemodynamic and pump-performance monitoring by electrical bioimpedance. Problems in Respiratory Care. 1989;2(2):274-290.   Cardiac Function Assessment     1989 Sramek BB. Hemodynamic and pump performance monitoring by electrical bioimpedance: New Concepts. Problems in Respiratory Care. J.B. Lippincott Company. April/June 1989;2:274-290.   Cardiac Function Assessment     1989 Sramek BB. Noninvasive hemodynamic monitoring. Medical Electronics. September 1989:103-105.   Cardiac Function Assessment     1989 Sramek BB. Systemic Hemodynamics: Measured pressure and flow determine the percentage deviations in volume, inotropy an vasoactivity. 5th World Congress on Int & Crit Care Med. 1989.   Cardiac Function Assessment     1989 Sramek BB. The impact on diagnosis and therapy of computerized integration, processing and display of noninvasive hemodynamic and cardiodynamic parameters. Intensive Care World. 1989;6:205-210.   Cardiac Function Assessment     1989 Tremper et al. Transthoracic electrical bioimpedance versus thermodilution technique for cardiac output measurement during mechanical ventilation. Intensive Care Med 1989;15:219-220. Critical Care Accuracy     1989 Wilson MF, Sung BH, Pincomb GA, et al. Simultaneous measurement of stroke volume by impedance cardiography and nuclear ventriculography: Comparisons at rest and exercise. Ann Biomed Eng 1989;17:475-482.   Accuracy     1989 Wong DH et al. Changes in cardiac output after acute blood loss and position change in man. Crit Care Med. 1989;17:979-983   Fluid management     1989 Wong DH et al. Thoracic bioimpedance and doppler cardiac output measurement: Learning curve and interobserver reproducibility. Crit Care Med. 1989;17:1194-1198. Critical Care Reproducibility     1989 Zimlichman R, Mossinson D, Ovsyshcher IE. Assessment of hemodynamic changes in the early phase of uncomplicated acute myocardial infarction. International Journal of Cardiology. 1989;25:303-312.   CAD     Year Citation Care Area Primary Application Summary Link 1988 Appel PL et al. Noninvasive monitoring systems for acute care. Anesthesiology. 1988:43-46. Critical Care       1988 Aupetit JF et al. Measurement of cardiac output by a new non-invasive bioimpedance system: Comparison with the fick method. Journal of European Society of Cardiology. 1988;9:332. Critical Care Accuracy     1988 Belik J et al. Thoracic electric bioimpedance measurement of cardiac output in the newborn infant. J Pediatr. 1988;113:890-895. Pediatric Accuracy     1988 Boldt J, Kling D, Thiel A, et al. Noninvasive versus invasive hemodynamic monitoring. Anaesthesist 1988;37:218-223.   Accuracy     1988 Buell J. A practical cost effective noninvasive system for cardiac output and hemodynamic analysis. American Heart Journal. 1988;116:657-664.   Technology and Application     1988 Castor G et al. Comparison of measurements of cardiac output by thermodilution and bioimpedance with the computerized system NCCOM3. Unpublished clinical study from institute for anaesthesie, Universitat des Saarlandes, D-6650 Homburg/Saar, FRG. Surgical Accuracy     1988 Castor G et al. Influence of peep-ventilation on accuracy of cardiac output measurement by thoracic electrical impedance. Institut fur Anaesthesie, Universitat des Saarlandes, D-6650, Homburg-Saar, FRG. Critical Care Accuracy     1988 Castor G et al. Measurement of cardiac output with the aid of noninvasive electrical bioimpedance in comparison with the thermodilution method. Anaesthesiologie und Intensivmedizin. 1988;339-334. Surgical Accuracy     1988 Castor G et al. Noninvasive estimation of ejection fraction. Institut fur Anaesthesie, Universitat des Saarlanders, D-6650 Homburg/Saar, FRG.   Cardiac Function Assessment     1988 de Mey C, Enterling D. Noninvasive assessment of cardiac performance by impedance cardiography: Disagreement between two equations to estimate stroke volume. Aviat Space Environ Med 1988;59:57-62.   Accuracy     1988 Eliot RS. The dynamics of hypertension -- an overview: present practices, new possibilities, and new approaches. American Heart Journal. 1988;116:583.   Hypertension "In our experience, the modified impedance cardiogrph greatly enhances the clnical diagnostic picutre. It often provide the equivalent of invasive hemodynamic measurements, thereby permitting the management of events such as hypertension, postbypass, and postinfarction to be custom-tailored to the underlying physiologic state. Thus it is time to rethink the management of hypertension, especially the use of 'stepped care' therapy, which consideres only on partr of a three-part equation, blood pressure. Hypertensive patients can have any one of three major hemodynamic profiles: 1) elevation of output, 2) elevation of output and resistance, and 3) vasoconstriction with a possible fall in cardiac output. Therefore it is critical to determine the subset before treatment is instituted. Results obtained during challenges and at rest indicate whether blood pressure is raised by increased CO, increased resistance, or both. The choice of medication can then be custom-tailored to normalize the patient's physiologic maladjustment. Furthermore, repeat testing while the patient receives medication can verify the therapeutic efficacy of the drug oor indicate what type of medication should be added or substituted."   1988 Feng S, Okuda N, fujinami t, takada K, Nakano s, Ohte N. detection of impaired left ventricular function in coronary artery disease with acceleration index in the first derivative of the transthoracic impedance change. Clinical Cardiology. 1988;11:843-847.   Cardiac Function Assessment     1988 Flanagan ML et al. Non-invasive hemodynamic monitoring in patients with pregnancy induced hypertension during caesarean section. Canadian Anesthesists' Society. 1988. Vancouver, B.C. OB Hypertension     1988 Franciosa J. Application of noninvasive techniques for measuring cardiac output in hypertensive patients. American Heart Journal. 1988;116:650-656.   Hypertension “Our understanding of the hemodynamics of hypertension is based on sparse data. Until recently, measurement of cardiac output, which is required to calculate systemic vascular resistance, necessitated invasive procedures…Thus our hemodynamic data has been limited predominantly to one-time measurements taken invasively in hospitalized patients who are frequently atypical of the hypertensive population in general. Little is known about longitudinal changes in cardiac output in hypertensive patients, with or without treatment. Although the clinical relevance of measuring cardiac output in patients is not fully understood, knowledge of cardiac output could be of considerable value in elucidating the pathophysiology of hypertension and the mechanism of action of therapeutic interventions. The ability of follow systemic vascular resistance, in addition to blood pressure, might also be of prognostic value.”   1988 Goli VC, Teague SM, Prasad R, harvey J, Voyles WF, Olson EG, Schechter E, Thadani U. Noninvasive evaluation of aortic stenosis severity utilizing doppler ultrasound and electrical bioimpedance. Journal of the American College of Cardiology. 1988;11:66-71.   Aortic Valve Disease     1988 Graziani G, Como G, Ambroso G, et al. The reliability of thoracic fluid bioimpedance in haemodialysis patients (unpublished manuscript). Dialysis Fluid Management     1988 Greco EM et al. Non-invasive determination of cardiac output with transthoracic electric impedance at rest and during ergometer exercise stress test: Reliability and advantages. The Journal of European Society of Cardiology. 1988;p703. Vienna, Austria.   Accuracy     1988 Haljamae H et al. Influence of Preoperative fluid regime on hemodynamic stability and leg blood flow in vascular surgical patients during epidural anesthesia. Reg Anesth. 1988;13:25:3. Surgical Fluid Management     1988 Hanna L et al. Non-invasive ejection fraction monitoring: A comparison of the impedance method to the radionuclide cardiography. Anesthesiology. 1988;69:A308.   Cardiac Function Assessment     1988 Introna RPS et al. Use of transthoracic bioimpedance to determine cardiac output in pediatric patients. Crit Care Med. 1988;16:1101-1105. Pediatric Accuracy     1988 Jaros J et al. Non-invasive cardiodynamic measurements during cesarean section under epidural anesthesia. Unpublished clinical study from the department of Anesthesiology. Rush Presbytarian/St Luke's Medical Center, Chicago, IL. OB Caesarean     1988 Jaros J et al. Non-invasive cardiodynamic measurements made during cesarean section. Unpublished clinical study from the department of anesthesiology, Rush Presbyterian/St Luke's Medical Center, Chicago, IL. OB Accuracy     1988 Kullus R, Saks K, Ratassepp J, Laane E. Hemodynamic changes in orthostasis in hypertensive patients depending on the hemodynamic type.   Hypertension "In order to assess hemodynamics in orthostasis, the values of both cardiac and stroke index as well as peripheral resistance should be followed. No change was revealed in mean arterial pressure in the persons studied."   1988 Lin H et al. Thoracic fluid index in normal adult and patient with different type of chest disease. Chin Med J. 1988;42:191-196.   Fluid Management     1988 Liu ZK, DeQuattro V. Utilizing a noninvasive hemodynamic system for assessment and management of patients with hypertension.   Hypertension "Out of the 21 hypertensive patients, 23 (92%) were hypervolemic, suggesting that more diuretics should be used; 17(68%) patients had vasoconstriction which prompted the need for more vasodilators, such as calcium channel blockers or ACE inhibitors."   1988 Lodi G et al. Hemodynamic benefits of atrial systole evaluated by impedenziometric monitoring. Congress, The New Frontiers of Arrhythmias. 1988;785-788. Marilleva, Italy.   Pacing     1988 Lumb PD. Noninvasive cardic output. Perspectives in Critical Care. Quality Medical Publishing, Inc. 1988;1:45-59. Critical Care Technology and Application     1988 Masaki DI et al. Does the index of contractility predict maternal hypotension during regional anesthesia? Society for Obstetric Anesthesia and Perinatology. 1988. OB Hypotension     1988 Mattar JA et al. Noninvasive cardiac output determination by thoracic electrical bioimpedance. Intensive & Critical Care Digest. 1988;7:14-17. Critical Care       1988 Measurement of cardiac output (editorial). Lancet 1988; 2:257-258.   Technology and Application     1988 Mesa A et al. Thoracic electrical bioimpedance for preoperative assessment during valsalva maneuver and exercise. Department of Anesthesiology & Critical Care. Cook county Hospital, Chicago, Illinois. Surgical Accuracy     1988 Northridge D et al. Noninvasive determination of cardiac output by electrical bioimpedance and doppler echocardiography. European Society of Cardiology Meeting. Vienna, Austria. 1988.   Accuracy     1988 Pasquale M, Fuss MA, Basa L. Thoracic electrical bioimpedance: a safe, accurate and cost effective alternative to thermodilution cardiac output measurements. Unpublished manuscript Critical Care Accuracy     1988 Peterson J et al. Hemodynamic and atrial natriuretic peptide (ANP) responses to fluid removal and reinfusion in hemodialysis patients. Unpublished Clinical Study from Stanford Univ. Palo Alto, CA. Dialysis Fluid Management     1988 Ramanathan S et al. Vasopressor therapy for hypotension due to epidural anesthesia for cesarean section. Acta Anaesthesiol Scand. 1988;32:559-565 OB Hypotension     1988 Sabbah HN et al. Assessment of global systolic left ventricular function based on measurements of thoracic electrical bioimpedance. 61st Scientific Sessions of the American Heart Association, 1988.   Cardiac Function Assessment     1988 Salandin V, Zussa C, Risica G, Michhielon P, Paccagnella A, Cipolotti G, simini G. Comparison of cardiac output estimation by thoracic electrical bioimpedance, thermodilution, and fick methods. Critical Care Medicine. 1988;16(11):1157-1158. Critical Care Accuracy     1988 Saunders C. The use of transthoracic electrical bioimpedance in assessing thoracic fluid status in emergency department patients. American Journal of Emergency Medicine. 1988;6(4):337-340. ED Fluid Management     1988 Shoemaker WC et al. Multicomponent noninvasive physiologic monitoring of circulatory function. Crit Care Med. 1988;16:482-490. Critical Care Accuracy     1988 Smith SA et al. Automated non-invasive measurement of cardiac output: Comparison of electrical bioimpedance and carbon dioxide re-breathing techniques. Br Heart J 1988;59:292-298.   Accuracy     1988 Spiess BD et al. Hemodynamic monitoring during autologous blood donation for high risk patients. Anesth. 1988;69:A727.   Blood donation     1988 Spinale FG et al. Comparison of bioimpedance and thermodilution methods for determining cardiac output: Experimental and clinical studies. Ann Thorac Surg. 1988;45:421-425. Animal Accuracy     1988 Sramek BB. Normal values of physiological data obtained with NCCOM3-R7. 1988.   Technology and Application     1988 Sramek BB. Status report on bomed's electrical bioimpedance. IEEE Engineering in Medicine & Biology Society; 10th Annual Int'l Conference. Louisiana. 1988.   Cardiac Function Assessment     1988 Taylor SH, Silke B. Is the measurement of cardiac output useful in clinical practice? Br J Anaesth 1988;60: 90S-98S.   Technology and Application     1988 Thoracic electrical bioimpedance. Monitor:169-185.. Critical Care Accuracy     1988 Toth PD, Demeter RJ, Woods JR, Nyhuis AW, Judy WV. Comparison of the effects of pindolol and atenolol on hemodynamic function in systemic hypertension. Am J Cardiol. 1988;62:413-418. HTN "These data confirm prior studies with other technologies which demonstrated that pindolol decreases blood pressure by reducing vascular resistance while atenolol decreases cardiac function." 1988 Wong DH et al. Acute cardiovascular response to passive leg raising. Crit Care Med. 1988;16:123-125. Surgical       1988 Wong DH et al. Noninvasive cardiac output: Simultaneous comparisons of two methods with thermodilution. J Clin Monitor. 1988;4:163-164. Critical Care Accuracy     1988 Wong DH et al. Noninvasive cardiac output: Two measurement methods compared with thermodilution and the importance of measured heart rate and ejection time. Anesth Analg. 1988;67:S1-S266.   Accuracy     1988 Wong DH, Tremper KK, Zaccari J, et al. Thoracic Bioimpedance Cardiac Output: should it be adjusted for body weight? Critical Care Medicine. 1988;16(4):431.   Technology and Application     Year Citation Care Area Primary Application Summary Link 1987 Appel PL et al. Evaluation of a continuous, on-line real-time noninvasive cardiac output and ejection fraction measurements by electrical bioimpedance in critically ill patients. Crit Care Med. 1987;15:386. Critical Care Cardiac Function Assessment     1987 Capan LM et al. Measurement of ejection fraction by bioimpedance. 1987;Unpublished manuscript.   Cardiac Function Assessment     1987 Gambling DR et al. Anaesthetic management and non-invasive monitoring for caesarean section in a patient with cardiomyopathy. Canadian Journal of Anesthesiology. 1987;34:5:505-508. OB Caesarean     1987 Knobel E et al. Cardiac output in Critically ill patients: A comparison of thoracic electrical bioimpedance and thermodilution methods. Panamerican and Iberic Congress on Intensive and critical Care Medicine. Caracas, Venezuela, November 1987. Critical Care Accuracy     1987 McKinley DF et al. A comparison of thoracic bioimpedance to thermodilution. Critical Care Medicine. April 1987. Pediatric Accuracy     1987 Porter JM et al. Measurement of cardiac output by electrical impedance plethysmography. J Biomed Eng 1987;9:222-231.   Technology and Application     1987 Shellock FG et al. Cardiac output in Critically ill patients by a new noninvasive bioimpedance system: Comparison with the thermodilution method. The Physiologist. 1987;30:215. Critical Care Accuracy     1987 Shoemaker WC et al. Multiple noninvasive continuous monitoring systems for critically ill shock and trauma patients. Crit Care Med. 1987;15:386. Critical Care       1987 Sramek BB et al. Normal Values of indexed global blood flow parameters and indices of left-ventricular performance and thoracic fluids measured noninvasively on resting adults subjected to postural change by NCCOM3(Revision 7). October 1987.   Technology and Application     1987 Wong DH et al. Noninvasive preoperative cardiovascular assessment and intraoperative hypotension. Anesth Analq. 1987;66:S1-S191. Surgical Hypotension     Year Citation Care Area Primary Application Summary Link 1986 Appel PL, Kram HB, Mackabee J, Fleming AW, Shoemaker WC. Comparison of measurements of cardiac output by bioimpedance and thermodilution in severely ill surgical patients. Critical Care Medicine. 1986;14(11):933-935. Surgical Accuracy     1986 Bernstein DP et al. Continuous noninvasive real time monitoring of stroke volume and cardiac output by thoracic electrical bioimpedance. Crit Care Med. 1986;14:898-901. Critical Care Accuracy     1986 Bernstein DP. New stroke volume equation for thoracic electrical bioimpedance: Theory and rationale. Crit Care Med. 1986;15:904-909.   Technology and Application     1986 Donovan KD et al. Comparison of transthoracic electrical impedance and thermodilution methods for measuring cardiac output. Crit Care Med 1986;14: 1038-1044.   Accuracy     1986 Ebert TJ et al. The use of thoracic impedance for determining thoracic blood volume changes in man. Aviation, Space, and Environmental Medicine. 1986:49-53.   Fluid Management     1986 Goldstein DS, Cannon RO III, Zimlichman R, et al. Clinical evaluation of impedance cardiography. Clin Physiol 1986;6: 235-251.   Accuracy     1986 Guilleminault C et al. Obstructive sleep apnea and cardiac index. Chest. 1986;89:331-334. Sleep apnea Cardiac Function Assessment     1986 Hatcher DD et al. Comparison of two noninvasive techniques for estimating cardiac output during exercise. J Appl Physiol 1986;61: 155-159.   Accuracy     1986 Larsen F et al. Influence of furosemide and body posture on transthoracic electrical impedance in AMI. Chest. 1986;90(5):733-737. Critical Care Fluid Management     1986 Mattar J et al. A clinical comparison between cardiac output measured by thermodilution versus noninvasive thoracic electrical bioimpedance. Acute Care. 1986;12:58-60. Critical Care Accuracy     1986 Mattar JA et al. Comparison between cardiac output (CO) measured by thoracic electrical bioimpedance (TEB), Echocardiography (ECHO) and thermodilution (TD). III Congress Brasileiro de Medicina Intensiva. 1986, Curitiba, Parana. Critical Care Accuracy     1986 Mattar JA et al. Noninvasive continuous cardiac output monitoring of patients in shock. Presented at III Congress Brasileiro de Mdicina Intensiva. July 1986, Curitiba, Parana. Critical Care       1986 Okuda N et al. Non-invasive estimation of aortic flow by local electrical impedance changes. J Cardiogr. 1986;16(3):727-733.   Cardiac Function Assessment     1986 Penney BC et al. Theory and cardiac applications of electrical impedance measurements. CRC Crit Rev Bioeng. 1986;13: 227-281.   Technology and Application     1986 Prasad R et al. A three-way comparison between doppler, bioimpedance and invasive indices of left ventricular function. American Federation for Clinical Research. 1986;34(1).   Cardiac Function Assessment     Year Citation Care Area Primary Application Summary Link 1985 Colace F et al. Comparison between a new impedance cardiography method and thermodilution in the measurement of cardiac output. Official Acts of the XIII European Congress on Noninvasive Cardiovascular Dynamic. 1985;683-686. Brescia, Italy. Critical Care Accuracy     1985 Koga Y, Gillum RF, Kubicek WG. An impedance cardiographic study of the mechanism of blood pressure fall after moderate dietary sodium restriction. Jpn Heart J. 1985;26(2):197-207.   Hypertension     1985 Lax A et al. Noninvasive determination of cardiac output: Comparison of a new method of impedance cardiography and echocardiographic measurement. Official Acts of the XIII European Congress on Noninvasive Cardiovascular Dynamics. 1985;244-247. Brescia, Italy.   Cardiac Function Assessment     1985 Linnarsson D et al. Effects of gravity on the fluid balance and distribution in man. The Physiologist. 1985;28(6)(suppl):S-28-29. Critical Care Fluid Management     1985 Luisada A, Singhal A, Portaluppi F. Assessment of left ventricular function by noninvasive methods. Advanced Cardiology. 1985;32:111-141.   Cardiac Function Assessment     1985 Muzi M, Ebert TJ, Tristani FE, et al. Determination of cardiac output using ensemble-averaged impedance cardiograms. J Appl Physiol 1985:58: 200-205.   Accuracy     1985 Parulkar GB, Jindal BD, Bhardwaj R, Suraokar S, Dharani JB. Impedance cardiography in mitral valve diseases. Indian Heart Journal. 1985;37(1):37-42.   Mitral Valve Disease     1985 Roos JC et al. Transthoracic electrical impedance as an index of extracellular fluid volume in man. Intensive Care Med. 1985;11:39-42.   Fluid Management     1985 Shoemaker WC et al. Therapy of critically ill postoperative patients based on outcome prediction and prospective clinical trial. Surgical Clinics of North America. 1985;65:811-833. Critical Care       1985 Teo KK et al. Cardiac output measured by impedance cardiography during maximal exercise tests. Cardiovasc Res 1985;19(12):737-743.   Accuracy     1985 Tozzi Q et al. Cardiac output evaluation by impedance cardiography before and after hemotransfusion in patients with cooley's anemia. Official Acts of the XIII European Congress on Noninvasive Cardiovascular Dynamics. 1985;687-689. Brescia, Italy.   Anemia     Year Citation Care Area Primary Application Summary Link 1984 Ebert TH et al. Impedance cardiograms reliably estimate beat-by-beat changes of left ventricular stroke volume in humans. Cardiovasc Res 1984;18:354-360.   Accuracy     1984 Porter JM, Shakespeare PG. Cardiac output after burn injury. Ann R Coll Surg Engl 1984;66: 33-35.   Burn     1984 Schuster CJ, Schuster HP. Application of impedance cardiography in critical care medicine. Resuscitation. 1984;11:255-274. Critical Care Technology and Application     Year Citation Care Area Primary Application Summary Link 1983 Dionne RA, Driscoll EJ, Butler DP, et al. Evaluation by thoracic impedance cardiography of diazepam, placebo, and two drug combinations for intravenous sedation of dental outpatients. J Oral Maxillofac Surg 1983;41:782-788.   Cardiac Function Assessment     1983 Milsom I, Forssman L, Biber B, Dottori O, Sivertsson R. Measurement of stroke volume during cesarean section: comparison between impedance cardiography and the dye dilution technique. Acta Anaesthesiol Scand 1983;27(5):421-426. OB Accuracy     1983 Milsom I, Forssman L, Sivertsson R, et al. Measurement of cardiac stroke volume by impedance cardiography in the last trimester of pregnancy. Acta Obstet Gynecol Scand 1983;62:473-477. OB Accuracy     1983 Saito Y, Terasaki G, Hayashida, et al. The effects of pulmonary circulation pulsatility on the impedance cardiogram. Archives International de Physiology et de Biochimie. 1983;91:339-344. Animal Technology and Application     1983 Sramek BB. Electrical bioimpedance. Medical Electronics. 1983:95-105.   Cardiac Function Assessment     1983 Sramek BB. Stroke volume equation with a linear base impedance model and its accuracy as compared to thermodilution and magnetic flowmeter techniques in humans and animals. Proceedings of the Sixth International Conference on Electrical Bioimpedance. 1983. Zadar, Yugoslavia.   Accuracy     1983 Tolle FA, Judy WV, Yu PL, et al. Reduced stroke volume related to pleural pressure in obstructive sleep apnea. J Appl Physiol Respir Environ Exerc Physiol 1983;55:1718-1724. Sleep apnea Cardiac Function Assessment     1983 Veigl VL, Judy WV. Reproducibility of haemodynamic measurements by impedance cardiography. Cardiovasc Res 1983;17:728-734.   Accuracy     1982 Freyschuss U, Gentz J, Noack G, et al. Circulatory adaptation in newborn infants of strictly controlled diabetic mothers. Acta Paediatr Scand 1982; 71:209-214. Pediatric       1982 Giovannitti JA, Henteleff HB, Bennett CR. Cardiorespiratory effects of meperidine, diazepam, and methohexital conscious sedation. J Oral Maxillofac Surg 1982;40:92-95.   Cardiac Function Assessment     1982 Myhrman P, Granerus G, Karlsson K, et al. Cardiac output in normal pregnancy measured by impedance cardiography. Scand J Clin Lab Invest 1982;42:513-518. OB Accuracy     1982 Sramek B. Cardiac output by electrical impedance. Medical Electronics. 1982:93-97.   Technology and Application     1982 Sramek BB. Cardiac output by electrical impedance. Medical Electronics. 1982:93-97.   Cardiac Function Assessment     Year Citation Care Area Primary Application Summary Link 1981 Barbacki M, Gluck A, Sandhage K. Estimation of the correlation between the transcutaneous aortic flow velocity curve and impedance cardiogram in normal children. Cor Vasa. 1981;23(4):291-8. Pediatric Accuracy     1981 Djordjevich L, Sadove MS. Experimental study of the relationship between the base impedance and its time derivative in impedance plethysmography. Medical Physics. 1981;8(1):76-78.   Cardiac Function Assessment     1981 Karnegis JN, Heinz J, Kubicek WG. Mitral regurgitation and characteristic changes in impedance cardiogram. British Heart Journal. 1981;45:542-548.   Mitral Valve Disease     1981 Miles DS, Sawka MN, Wilde SW, et al. Estimation of cardiac output by electrical impedance during arm exercise in women. J Appl Physiol Respir Environ Exerc Physiol 1981; 51:1488-1492.   Exercise Testing     1981 Quail AW, Traugott FM. Effects of changing the haematocrit, ventricular rate and myocardial inotropy on the accuracy of impedance cardiography. Clinical and Experimental Pharmacology & Physiology. 1981;8:335-43. Animal Technology and Application     1981 Schieken RM, Patel MR, Falsetti HL, Lauer rM. Effect of mitral valvular regurgitation on transthoracic impedance cardiogram. British Heart Journal. 1981;45:166-172.   Mitral Valve Disease     1981 Thayssen P, Andersen KH, Pindborg T. Non-invasive monitoring of cardiac function during haemodialysis. Scand J Urol Nephrol 1981;15: 13-317. Dialysis       1980 Gabriel S et al. Evaluation of diuretic therapy by impedance cardiography in acute myocardial infarction. Clin Cardiol. 1980;3:342-347. Critical Care Fluid Management     1980 Karnegis JN, Heinz J, Kubicek WG. The effect of atrial rhythm on the thoracic impedance cardiogram. American Journal of Medical Science. 1980;280(1):17-20.   Accuracy     1980 Schieken RM, Patel MR, Falsetti HL. The effect of acute aortic regurgitation on the transthoracic impedance cardiogram. Catheterization and Cardiovascular Diagnosis. 1980;6:61-71. Animal Aortic Valve Disease     1980 Scott DHT, Arthur GR, Scott DB. Haemodynamic changes following buprenorphine and morphine. Anaesthesia 1980;35:957-961.   Cardiac Function Assessment     1980 Subramanyan R, Manchanda SC, Nyboer J, et al. Total body water in congestive heart failure. A pre and post treatment study. J Assoc Physicians India. 1980;28:257-262.   Fluid Management