Analysis of haematological and biochemical blood parameters after electrical cardioversion of atrial fibrillation in dogs

1Bennett M., Horton S., Thuys C., Augustin S., Rosenberg M., Brizard C.: Pump-induced haemolysis: a comparison of short-term ventricular assist devices. Perfusion 2004, 19, 107–111.BennettM.HortonS.ThuysC.AugustinS.RosenbergM.BrizardC.Pump-induced haemolysis: a comparison of short-term ventricular assist devicesPerfusion20041910711110.1191/0267659104pf729oaSearch in Google Scholar

2Cemin R., Rauhe W., Marini M., Pescoller F., Pitscheider W.: Serum troponin I level after external electrical direct current synchronized cardioversion in patients with normal or reduced ejection fraction: no evidence of myocytes injury. Clin Cardiol 2005, 28, 467–470.CeminR.RauheW.MariniM.PescollerF.PitscheiderW.Serum troponin I level after external electrical direct current synchronized cardioversion in patients with normal or reduced ejection fraction: no evidence of myocytes injuryClin Cardiol20052846747010.1002/clc.4960281005Search in Google Scholar

3Cepiel A., Noszczyk-Nowak A., Pasławski R., Janiszewski A., Paslawska U.: Intracardiac electrophysiological conduction parameters in adult dogs. Vet Quarterly 2017, 37, 91–97.CepielA.Noszczyk-NowakA.PasławskiR.JaniszewskiA.PaslawskaU.Intracardiac electrophysiological conduction parameters in adult dogsVet Quarterly201737919710.1080/01652176.2017.1309599Search in Google Scholar

4Gajek J., Zyśko D., Mysiak A., Mazurek W.: Activation of generalised inflammatory reaction following electrical cardioversion. Kardiol Pol 2004, 61, 225–231.GajekJ.ZyśkoD.MysiakA.MazurekW.Activation of generalised inflammatory reaction following electrical cardioversionKardiol Pol200461225231Search in Google Scholar

5Geraets D.R., Kienzle M.G.: Atrial fibrillation and atrial flutter. Clin Pharm 1993, 12, 721–735.GeraetsD.R.KienzleM.G.Atrial fibrillation and atrial flutterClin Pharm199312721735Search in Google Scholar

6Grubb N.R., Cuthbert D., Cawood P., Flapan A.D., Fox K.A.: Effect of DC shock on serum levels of total creatine kinase, MB-creatine kinase mass, and troponin T. Resuscitation 1998, 36, 193–199.GrubbN.R.CuthbertD.CawoodP.FlapanA.D.FoxK.A.Effect of DC shock on serum levels of total creatine kinase, MB-creatine kinase mass, and troponin TResuscitation19983619319910.1016/S0300-9572(98)00021-5Search in Google Scholar

7Kosior D.A., Opolski G., Tadeusiak W., Chwyczko T., Wozakowska-Kaplon B., Stawicki S., Filipak K.J., Rabczenko D.: Serum troponin I and myoglobin after monophasic versus biphasic transthoracic shocks for cardioversion of persistent atrial fibrillation. Pacing Clin Electrophysiol 2005, 28, 128–132.KosiorD.A.OpolskiG.TadeusiakW.ChwyczkoT.Wozakowska-KaplonB.StawickiS.FilipakK.J.RabczenkoD.Serum troponin I and myoglobin after monophasic versus biphasic transthoracic shocks for cardioversion of persistent atrial fibrillationPacing Clin Electrophysiol20052812813210.1111/j.1540-8159.2005.00038.x15683479Search in Google Scholar

8Madden J.L., Drakos S.G., Stehlik J., McKellar S.H., Rondina M.T., Weyrich A.S., Selzman C.H.: Baseline red blood cell osmotic fragility does not predict the degree of post-LVAD hemolysis. ASAIO J 2014, 60, 524–528.MaddenJ.L.DrakosS.G.StehlikJ.McKellarS.H.RondinaM.T.WeyrichA.S.SelzmanC.H.Baseline red blood cell osmotic fragility does not predict the degree of post-LVAD hemolysisASAIO J20146052452810.1097/MAT.0000000000000106424053225010915Search in Google Scholar

9Makowski M., Bissinger A.B., Fic A., Szymanska K., Sewczyk M., Lubinski A., Baj Z.: Impact of electrical cardioversion for atrial fibrillation on erythrocytes. Eur J Heart Fail Abstracts Supplement 2015, 17, 399–400.MakowskiM.BissingerA.B.FicA.SzymanskaK.SewczykM.LubinskiA.BajZ.Impact of electrical cardioversion for atrial fibrillation on erythrocytesEur J Heart Fail Abstracts Supplement201517399400Search in Google Scholar

10Mamikonian L.S., Mamo L.B., Smith P.B., Koo J., Lodge A.J., Turi J.L.: Cardiopulmonary bypass is associated with hemolysis and acute kidney injury in neonates, infants, and children. Pediatr Crit Care Med 2014, 15, 111–119.MamikonianL.S.MamoL.B.SmithP.B.KooJ.LodgeA.J.TuriJ.L.Cardiopulmonary bypass is associated with hemolysis and acute kidney injury in neonates, infants, and childrenPediatr Crit Care Med20141511111910.1097/PCC.0000000000000047395155724394997Search in Google Scholar

11Maraj R., Jacobs L.E., Ioli A., Kotler M.N.: Evaluation of hemolysis in patients with prosthetic heart valves. Clin Cardiol 1998, 21, 387–392.MarajR.JacobsL.E.IoliA.KotlerM.N.Evaluation of hemolysis in patients with prosthetic heart valvesClin Cardiol19982138739210.1002/clc.496021060466561779631266Search in Google Scholar

12Moroz V.V., Bogushevich M.S., Chernysh A.M., Kozlova E.K., Sharakshane A.S.: Effect of defibrillation pulses of different shapes on biomembranes: experimental study. Bull Exp Biol Med 2004, 137, 120–123.MorozV.V.BogushevichM.S.ChernyshA.M.KozlovaE.K.SharakshaneA.S.Effect of defibrillation pulses of different shapes on biomembranes: experimental studyBull Exp Biol Med200413712012310.1023/B:BEBM.0000028118.86481.f6Search in Google Scholar

13Noszczyk-Nowak A., Michałek M., Kałuża E., Cepiel A., Paslawska U.: Prevalence of arrhythmias in dogs examined between 2008 and 2014. J Vet Res 2017, 61, 103–110.Noszczyk-NowakA.MichałekM.KałużaE.CepielA.PaslawskaU.Prevalence of arrhythmias in dogs examined between 2008 and 2014J Vet Res20176110311010.1515/jvetres-2017-0013589440929978061Search in Google Scholar

14Noszczyk-Nowak A., Pasławska U., Zyśko D., Gajek J., Nicpoń J., Hebel M.: Atrial fibrillation in dogs. Med Weter 2008, 64, 686–689.Noszczyk-NowakA.PasławskaU.ZyśkoD.GajekJ.NicpońJ.HebelM.Atrial fibrillation in dogsMed Weter200864686689Search in Google Scholar

15Noszczyk-Nowak A., Skoczyński P., Gajek J.: Tachycardiomyopathy in humans and animals – pathophysiology, treatment, and prognosis. Adv Clin Exp Med 2010, 19, 245–249.Noszczyk-NowakA.SkoczyńskiP.GajekJ.Tachycardiomyopathy in humans and animals – pathophysiology, treatment, and prognosisAdv Clin Exp Med201019245249Search in Google Scholar

16Palanzo D.A., El-Banayosy A., Stephenson E., Brehm C., Kunselman A., Pae W.E.: Comparison of hemolysis between CentriMag and RotaFlow rotary blood pumps during extracorporeal membrane oxygenation. Artif Organs 2013, 37, 162–166.PalanzoD.A.El-BanayosyA.StephensonE.BrehmC.KunselmanA.PaeW.E.Comparison of hemolysis between CentriMag and RotaFlow rotary blood pumps during extracorporeal membrane oxygenationArtif Organs20133716216610.1111/aor.1215823981131Search in Google Scholar

17Qin M., Li L., Liu X., Liu T., Shi S.B.: Neural substrate of posterior left atrium: a novel modulation for inducibility and remodeling of atrial fibrillation in canine. PLoS One 2017, 12:e0176626.QinM.LiL.LiuX.LiuT.ShiS.B.Neural substrate of posterior left atrium: a novel modulation for inducibility and remodeling of atrial fibrillation in caninePLoS One201712e017662610.1371/journal.pone.0176626541951728475580Search in Google Scholar

18Tai C.T., Lo L.W., Lin Y.J., Chen S.A.: Arrhythmogenic difference between the left and right atria in a canine ventricular pacing-induced heart failure model of atrial fibrillation. Pacing Clin Electrophysiol 2012, 35, 188–195.TaiC.T.LoL.W.LinY.J.ChenS.A.Arrhythmogenic difference between the left and right atria in a canine ventricular pacing-induced heart failure model of atrial fibrillationPacing Clin Electrophysiol20123518819510.1111/j.1540-8159.2011.03250.x22309251Search in Google Scholar