De volgende lijst bevat een aantal beschikbare materialen over Biphasic-technologie. We adviseren u om naar Waarom SMART Biphasic? te gaan voor overzichten en commentaren op een aantal van deze belangrijkste onderzoeken en voor meer informatie over het verschil tussen SMART Biphasic en alle andere technologieën. We blijven deze referenties bijwerken, dus beschouw ons als uw bron voor bifasisch onderzoek.  Bardy, GH, Gilner BE, Kudenchuk PJ, et al. Truncated biphasic pulses for transthoracic defibrillation. Circulation 1995;91:1768-1774.
| Bardy GH, Marchlinski FE, Sharma AD, Worley SJ, Luceri RM, Yee R, et al. Multicenter comparison of truncated biphasic shocks and standard damped sine wave monophasic shocks for transthoracic ventricular defibrillation. Circulation 1996;94:2507-2514. | Cummins RO, et al. Low-Energy Biphasic Waveform Defibrillation: Evidence-Based Review Applied to Emergency Cardiovascular Care Guidelines. | Gliner BE, Jorgenson DB, Poole JE, et al. Treatment of out-of-hospital cardiac arrest with a low-energy impedance-compensating biphasic waveform automatic external defibrillator. Biomed Instrumentation & Technol 1998;32:631-644. | Gliner BE, White RD. Electrocardiographic evaluation of defibrillation shocks delivered to out-of-hospital sudden cardiac arrest patients. Resuscitation 1999;41:133-144. | Niemann, JT, Walker RG, Rosborough, JP, et al. Intracardiac voltage gradients during transthoracic defibrillation: Implications for post-shock myocardial injury. Academic Emergency Medicine, 2005. | Page RL, Kerber R, Russell JK, et al. Biphasic versus monophasic shock waveform for conversion of atrial fibrillation. The results of an international randomized, double-blind multicenter trial. American College Cardiology 2002;39:1956-1963. | Schneider T, Martens P, Paschen HP, et al. Multicenter, randomized, controlled trial of 150-J biphasic shocks compared with 200- to 360-J monophasic shocks in the resuscitation of out-of-hospital cardiac arrest victims. Circulation 2000;102:1780-1787. | Stiell, et al. Biphasic Trial: A randomized comparison of fixed lower versus escalating higher energy levels for defibrillation in out-of-hospital cardiac arrest. 2007. | Tang W, Weil MH, Klouche K, et al. Effects of low- and higher-energy biphasic waveform defibrillation on success of resuscitation and post- resuscitation myocardial function. Circulation (Suppl) 1999;100(18):I-662(#3491). | Tang W, Weil MH, Jorgenson DB, et al. Fixed-energy biphasic waveform defibrillation in a pediatric model of cardiac arrest and resuscitation. Critical Care Medicine 2002;30(12):2736-2741. | Tang W. et al. The effects of biphasic waveform design on post-resuscitation myocardial function. American College of Cardiology Vol.43, No.7, 2004. | Weaver WD, Cobb, LA, Copass MK, et al. Ventricular fibrillation - a comparative trial using 175-J and 320-J shocks. N Engl JMed 1982;307:1101-1106. | White MD, RD, Blackwell MD, TH, et al. Body weight does not affect defibrillation resuscitation, or survival in patients with out-of-hospital cardiac arrest treated with a non-escalating biphasic waveform defibrillator. Critial Care Medicine 2004 Vol.32, Nr.9 (Suppl.)S387-S392. | White MD, RD, Russell JK. Refibrillation, resuscitation and survival in out-of-hospital sudden cardiac arrest victims treated with biphasic automated external defibrillators. Resuscitation 2002;55:17-23. | White MD, RD, Blackwell MD, TH, et al. Tranthoracic impedance does not affect defibrillation, resuscitation or survival in patients with out-of-hospital cardiac arrest treated with a non-escalating biphasic waveform defibrillator. Resuscitation 64 (2005) 63-69. |
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