A comparison of defibrillation efficacy between different impedance compensation techniques in high impedance porcine model

Resuscitation

Volumn 80, Issue 11, 2009, Pages 1312-1317

  Li, Yongqin ^a   Ristagno, Giuseppe ^a   Yu, Tao ^a   Bisera, Joe ^a,b   Weil, Max Harry ^a,b   Tang, Wanchun ^a,b  

^a INSTITUTE OF CRITICAL CARE MEDICINE   (United States)

^b UNIVERSITY OF SOUTHERN CALIFORNIA   (United States)

Author keywords

Cardiac arrest; Defibrillation efficacy; High impedance; Impedance compensation; Ventricular fibrillation

Indexed keywords

ANIMAL EXPERIMENT; ANIMAL MODEL; ARTICLE; CARDIOVERSION; COMPARATIVE STUDY; CONTROLLED STUDY; DEFIBRILLATION; DEFIBRILLATOR; DOMESTIC ANIMAL; ELECTRODE; HEART ARREST; HEART VENTRICLE FIBRILLATION; IMPEDANCE; MALE; NONHUMAN; PRIORITY JOURNAL; PROSPECTIVE STUDY; RANDOMIZATION; SWINE;

ANIMALS; DEFIBRILLATORS; DISEASE MODELS, ANIMAL; ELECTRIC COUNTERSHOCK; ELECTRIC IMPEDANCE; ELECTROCARDIOGRAPHY; EQUIPMENT DESIGN; HEART ARREST; MALE; SWINE; TREATMENT OUTCOME; VENTRICULAR FIBRILLATION;

EID: 70350025018     PISSN: 03009572     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.resuscitation.2009.08.004     Document Type: Article

References (33)

1. Blanchard S.M., and Ideker R.E. Mechanisms of electrical defibrillation: impact of new experimental defibrillator waveforms. Am Heart J 127 (1994) 970-977
2. Sirna S.J., Ferguson D.W., Charbonnier F., and Kerber R.E. Factors affecting transthoracic impedance during electrical cardioversion. Am J Cardiol 62 (1988) 1048-1052
3. Kerber R.E., Kouba C., Martins J., et al. Advance prediction of transthoracic impedance in human defibrillation and cardioversion: importance of impedance in determining the success of low-energy shocks. Circulation 70 (1984) 303-308
4. Kerber R.E., Martins J.B., Kienzle M.G., et al. Energy, current, and success in defibrillation and cardioversion: clinical studies using an automated impedance-based method of energy adjustment. Circulation 77 (1988) 1038-1046
5. Lerman B.B., Halperin H.R., Tsitlik J.E., Brin K., Clark C.W., and Deale O.C. Relationship between canine transthoracic impedance and defibrillation threshold. Evidence for current-based defibrillation. J Clin Invest 80 (1987) 797-803
6. Heavens J.P., Cleland M.J., Maloney J.P., and Rowe B.H. Effects of transthoracic impedance and peak current flow on defibrillation success in a prehospital setting. Ann Emerg Med 32 (1998) 191-199
7. Gliner B.E., Jorgenson D.B., Poole J.E., et al. Treatment of out-of-hospital cardiac arrest with a low-energy impedance-compensating biphasic waveform automatic external defibrillator. The LIFE Investigators. Biomed Instrum Technol 32 (1998) 631-644
8. Dalzell G.W., and Adgey A.A. Determinants of successful transthoracic defibrillation and outcome in ventricular fibrillation. Br Heart J 65 (1991) 311-316
9. Tacker W.A., and Geddes L.A. Electrical Defibrillation (1980), CRC Press, Boca Raton
10. Kerber R.E., McPherson D., Charbonnier F., Kieso R., and Hite P. Automated impedance-based energy adjustment for defibrillation: experimental studies. Circulation 71 (1985) 136-140
11. Krasteva V., Matveev M., Mudrov N., and Prokopova R. Transthoracic impedance study with large self-adhesive electrodes in two conventional positions for defibrillation. Physiol Meas 27 (2006) 1009-1022
12. Morrison L.J., Dorian P., Long J., et al. Out-of-hospital cardiac arrest rectilinear biphasic to monophasic damped sine defibrillation waveforms with advanced life support interventional trial (ORBIT). Resuscitation 66 (2005) 149-157
13. Medtronic Physio-Control. Defibrillation with ADAPTIVTM Biphasic Technology. Medtronic Physio-Control. March 27, 2009. .
14. Neal S., Ngarmukos T., Lessard D., and Rosenthal L. Comparison of the efficacy and safety of two biphasic defibrillator waveforms for the conversion of atrial fibrillation to sinus rhythm. Am J Cardiol 92 (2003) 810-814
15. Mittal S., Ayati S., Stein K.M., et al. Comparison of a novel rectilinear biphasic waveform with a damped sine wave monophasic waveform for transthoracic ventricular defibrillation. ZOLL Investigators. J Am Coll Cardiol 34 (1999) 1595-1601
16. Geddes L.A., and Havel W. Evolution of the optimum bidirectional (+/- biphasic) wave for defibrillation. Biomed Instrum Technol 34 (2000) 39-54
17. Gudipati C.V., Weil M.H., Bisera J., Deshmukh H.G., and Rackow E.C. Expired carbon dioxide: a noninvasive monitor of cardiopulmonary resuscitation. Circulation 77 (1988) 234-239
18. Deshmukh H.G., Weil M.H., Gudipati C.V., Trevino R.P., Bisera J., and Rackow E.C. Mechanism of blood flow generated by precordial compression during CPR, I: Studies on closed chest precordial compression. Chest 95 (1989) 1092-1099
19. Gazmuri R.J., Weil M.H., Von Planta M., Gazmuri R.R., Shah D.M., and Rackow E.C. Cardiac resuscitation by extracorporeal circulation after failure of conventional CPR. J Lab Clin Med 118 (1991) 65-73
20. McDaniel W.C., and Schuder J.C. An up-down algorithm for estimation of the cardiac ventricular defibrillation threshold. Med Instrum 22 (1988) 286-292
21. Dixon W.J. The up-and-down method for small samples. Am Stat Assoc J 60 (1965) 967-978
22. Brownlee K.A., Hodges J.L., and Rosenblatt M. The up-and-down method with small samples. Am Stat Assoc J 48 (1953) 262-277
23. Wang J., Tang W., Brewer J.E., Freeman G., Chang Y.T., and Weil M.H. Comparison of rectilinear biphasic waveform with biphasic truncated exponential waveform in a pediatric defibrillation model. Crit Care Med 35 (2007) 1961-1965
24. Reddy R.K., Gleva M.J., Gliner B.E., et al. Biphasic transthoracic defibrillation causes fewer ECG ST-segment changes after shock. Ann Emerg Med 30 (1997) 127-134
25. Ken Knight B.H., Eyüboǧlu B.M., and Ideker R.E. Impedance to defibrillation countershock: does an optimal impedance exist?. Pacing Clin Electrophysiol 18 (1995) 2068-2087
26. Tang A.S., Wolf P.D., Afework Y., Smith W.M., and Ideker R.E. Three-dimensional potential gradient fields generated by intracardiac catheter and cutaneous patch electrodes. Circulation 85 (1992) 1857-1864
27. Chen P.S., Swerdlow C.D., Hwang C., and Karagueuzian H.S. Current concepts of ventricular defibrillation. J Cardiovasc Electrophysiol 9 (1998) 553-562
28. Kroll M.W., and Swerdlow C.D. Optimizing defibrillation waveforms for ICDs. J Interv Card Electrophysiol 18 (2007) 247-263
29. Tang A.S., Yabe S., Wharton J.M., Dolker M., Smith W.M., and Ideker R.E. Ventricular defibrillation using biphasic waveforms: the importance of phasic duration. J Am Coll Cardiol 13 (1989) 207-214
30. Matula M.H., Brooks M.J., Pan Q., Pless B.D., Province R.A., and Echt D.S. Biphasic waveforms for ventricular defibrillation: optimization of total pulse and second phase durations. Pacing Clin Electrophysiol 20 (1997) 2154-2162
31. Kroll M.W. A minimal model of the single capacitor biphasic defibrillation waveform. Pacing Clin Electrophysiol 17 (1994) 1782-1792
32. Bardy G., Gliner B., and Kudenchuk P. Truncated biphasic pulses for transthoracic defibrillation. Circulation 91 (1995) 1768-1774
33. Higgins S.L., Herre J.M., Epstein A.E., et al. A comparison of biphasic and monophasic shocks for external defibrillation. Physio-Control Biphasic Investigators. Prehosp Emerg Care 4 (2000) 305-313