Modeling in Cardiopulmonary Resuscitation: Pumping the Heart

Cardiovascular Engineering: An International Journal - 2005
Gerrit J. Noordergraaf1, Tammo Jan Dijkema2, Wil J. P. M. Kortsmit3, W.H.A. Schilders3, Gert Jan Scheffer4, Abraham Noordergraaf5
1Department of Anesthesia and Resuscitation, St. Elisabeth Hospital Tilburg, Tilburg, The Netherlands
2Department of Mathematics and Computer Science, Utrecht University, Utrecht, The Netherlands
3Department of Mathematics and Computer Science, Eindhoven University of Technology, Eindhoven, The Netherlands
4Department of Anesthesiology, University Medical Center Nijmegen, Nijmegen, The Netherlands
5Cardiovascular Studies Unit, University of Pennsylvania, Philadelphia, Pennsylvania

Tóm tắt

Từ khóa


Tài liệu tham khảo

Attinger EO, and Anné A. Simulation of the cardiovascular system. Ann NY Acad Sci 128: 810–829, 1966.

Babbs CF. Interposed abdominal compression CPR: A comprehensive evidence based review. Resuscitation 59: 71–82, 2003.

Babbs CF, Ralston SH, and Geddes LA. Theoretical advantages of abdominal counterpulsation in CPR as demonstrated in a simple electrical model of the circulation. Ann Emerg Med 13(9): 660–671, 1984.

Beneken EW, and De Wit B. A physical approach to hemodynamic aspects of the human cardio-vascular system. In Reeve EB and Guyton AC, Eds, Physical Bases of Circulatory Transport: Regulation and Exchange. Philadelphia, PA, Saunders, 1967, p. 1.

Beyar R., Kishon Y, Dinnar U, and Neufeld NH. Cardiopulmonary resuscitation by intrathoracic pressure variation—In vivo studies and computer simulation. Angiology 35: 71–78, 1984.

Beyar R, Kishon Y, Kimmel E, Neufeld H, and Dinnar U. Intrathoracic and abdominal pressure variations as an efficient method of cardiopulmonary resuscitation: Studies in dogs compared with computer model results. Cardiovasc Res 19: 335–342, 1985.

Criley M, Blaufuss AH, and Kissel GL. Cough-induced cardiac compression: Self-administered form of cardiopulmonary resuscitation. JAMA 236(11): 1246–1250, 1976.

Danielsen M, Palladino JL, and Noordergraaf A. The left ventricular ejection effect. In Ottesen JT and Danielsen M, Eds., Mathematical Modeling in Medicine, Washington, DC, IOS Press, 2000.

De Pater L, and Van den Berg JW. An electrical analogue of the entire human circulatory system. Med Biol Eng Comput 2: 161–166, 1964.

Desmuhk HG, Weil MH, Rachow EC, Trevino R, and Bisera J. Echocardiographis observations durng cardiopulmonary resuscitation: A preliminary report. Crit Care Med 13(11): 904–906, 1985.

Halperin HR, Tsitlik JE, Beyar R, Chandra N, and Geurci AD. Intrathoracic pressure fluctuations move blood during CPR: Comparison of hemodynamic data with predictions from a mathematical model. Ann Biomed Eng 15: 385–403, 1987.

Harvey G. Exercitatio Anatomica, De Motu Cordis et Sanguinis in Animalibus. Frankford, 1628.

Karreman G, and Weygandt CN. Theoretical control aspects of the circulation. In Baan J, Noordergraaf A, and Raines J, Eds., Cardiovascular System Dynamics, Cambridge MA, MIT Press, 1978.

Klouche K, Weil MH, Sun S, Provoas HP, Kamohara T, and Bisera J. Evolution of the stone heart after prolonged cardiac arrest. Chest 122: 1006–1011, 2002.

Kouwenhoven WB, Jude JR, and Knickerbocker GG. Closed chest cardiac massage. JAMA 173: 1064–1067, 1960.

Liebau G. Über ein Ventilloses Pumpprinzip. Naturwissenschaften 41: 327–328, 1954.

Maier GW, Newton JR, Wolfe JA, Tyson GS, Olsen CO, Glower DD, Spratt JA, Davis JW, Feneley MP, and Rankin JS. The influence of manual chest compression rate on hemodynamic support during cardiac arrest: High impulse cardiopulmonary resuscitation. Circulation 74(IV): 51–59, 1986.

Moser M, Huang JW, Schwarz, Kenner T, and Noordergraaf A. Impedance-defined flow. Generalization of William Harvey's concept of the circulation—370 years later. Int J Cardiovasc Med Sci 1: 205–211, 1998.

Noordergraaf A. Blood in Motion. New York, Springer-Verlag, 2006 (in press).

Noordergraaf GJ, Ottesen JT, Kortsmit WJPM, Schilders WHA, Scheffer GJ, and Noordergraaf A. The Donders Model in Physiology, 2006 (in press).

Noordergraaf GJ, van Tilborg GFAJB, Schoonen JAP, Ottesen JT, and Noordergraaf A. Thoracic CT-scans and cardiovascular models: the effect of external force in CPR. Int J Cardiovasc Med Sci 5(1): 2005 (in press).

Ornato JP, Levine RL, Young DS, Racht EM, Garnett AR, and Gonzalez ER. The effect of applied chest compression force on systemic arterial pressure and end-tidal carbon dioxide concentration during CPR in human beings. Ann Emerg Med 18: 732–737, 1989.

Palladino JL, Ribeiro LC, and Noordergraaf A. Human circulatory system model based on Frank's mechanism. In Ottesen JT and Danielsen M, Eds., Mathematical Modelling in Medicine. Washington, DC, IOS Press, 2000.

Tomaszewski CA, and Meador SA. Theoretical effects of fluid infusions during cardiopulmonary resuscitation as demonstrated in a computer model of the circulation. Resuscitation 15(2): 97–112, 1987.

Weber EH. Über die Anwendung der Wellenlehre auf die Lehre vom Kreislaufe des Blutes und ins besondere auf die Pulslehre. Ber Verh Kgl Sächs Ges Wiss, Math Phys Kl, 1850.

Weiser FM, Adler LN, and Kuhn LA. Hemodynamic effects of closed and open cardiac resuscitation in normal dogs and those with acute myocardial infarction. Am J Cardiol 10: 555–561, 1962.

Westerhof N and Noordergraaf A. Reduced models of systemic arteries. Proceedings of the 8th Internatonal Conference on Medical Engineering, Chicago IL, Session 6–2, 1969.

Wolfram S. The Mathematica Book, 5th ed. Cambridge University Press, Cambridge, UK, 2003.

Thông tin
Thông tin xuất bản

Cardiovascular Engineering: An International Journal

Thông tin tác giả