AB
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Heart, Lung and Circulation Abstracts S1192008;17S:S1–S209
sine. No patients suffered persistent adverse effects fromadenosine.Conclusion: Adenosine facilitated non-selective venogra-phy of the right atrium shows promise as a technique tofacilitate visualisation of the CS.
doi:10.1016/j.hlc.2008.05.284
284Does Radio-opaque Contrast Use During BiventricularPacemaker Implantation (BiVI) Adversely Affect RenalFunction?
Hany Abed ∗, Neva Bull, Robert Blake, Malcom Barlow,James Leitch, Stuart Turner
The John Hunter Hospital, Newcastle, NSW, Australia
Results and discussion: Thirty patients were studied (21me2fiCpg(4gptCrti
doi:10.1016/j.hlc.2008.05.285
285Effect of Electrical Cardioversion on Atrial FibrillationResistant to Termination
CSRr
RP
I(tdspMalwiRsaitsmpthcp
ale, 66 ± 13 years old, QRS duration; 166 ± 30 ms, LVnd-diastolic diameter; 68 ± 10 mm, LV ejection fraction;6 ± 10% and NYHA; 3.4 ± 0.4). 73% had impaired renalunction before BiVI. A mean volume of 160 ± 49 ml non-onic iso-osmolar contrast was used during implantation.reatinine (Cr) increased in four patients but only oneatient met the criteria for CIN. Mean Cr, for the entireroup, decreased from 140 ± 9 �mol/L to 115 ± 8 �mol/L�Cr −18% [95% C.I.: −12, −36%, p < 0.001]) such that only9% had renal impairment post-BiVI. These findings sug-est the improvement in cardiac function, and hence renalerfusion, as a result of BiVI outweighs any adverse con-
rast effects.onclusion: Contrast load during BiV implantation is
arely associated with contrast-induced nephropathy. Inhe majority of patients, BiVI results in a net improvementn renal function.
hristopher X. Wong ∗, Anthony G. Brooks, Martin K.tiles, Bobby John, Dennis H. Lau, Hany Dimitri, Ross L.oberts-Thomson, Pawel Kuklik, Scott R. Willoughby, Lor-
aine Mackenzie, Glenn D. Young, Prashanthan Sanders
Cardiovascular Research Centre, Department of Cardiology,oyal Adelaide Hospital and the Disciplines of Medicine andhysiology, University of Adelaide, Adelaide, Australia
ntroduction: Electrical cardioversion of atrial fibrillationAF) is commonly unsuccessful and often requires mul-iple attempts before eventual termination. We sought toetermine the characteristics of AF resistant to cardiover-ion and the effect of cardioversion on the fibrillatoryrocess.ethods: Cardioversion was performed following AF
blation in 106 patients (96 M, 55 ± 12 years). AF cycleength (CL) and dominant frequency (DF) were measured
ithin the coronary sinus at baseline prior to ablation, andmmediately before and after unsuccessful cardioversion.esults: There were a total of 40 unsuccessful cardiover-
ions. Cardioversion caused a significant increase in CL,nd fibrillatory activity was observed to markedly slowmmediately following cardioversion, before acceleratingo a plateau slower than that that prior to cardiover-ion (205 ± 32 to 217 ± 41 ms, p < 0.001). Ten patients hadultiple unsuccessful cardioversions during the same
rocedure, the maximum being 5. Of these, those resistanto a greater number of cardioversions before terminationad shorter baseline CL (p < 0.001). Subsequent unsuc-essful cardioversion attempts showed greater baseline toostcardioversion increase in CL (47 ± 79 vs. 58 ± 78 vs.