Your search keyword '"Kuniss, Malte"' showing total 142 results

101. Atrial fibrillation ablation: Limitations of pulmonary vein ablation catheter technology

Author

Wójcik, Maciej, primary, Berkowitsch, Alexander, additional, Kuniss, Malte, additional, and Neumann, Thomas, additional

Published

2014

102. Ablación con criobalón en pacientes jóvenes con fibrilación auricular paroxística aislada

Author

Wójcik, Maciej, primary, Berkowitsch, Alexander, additional, Zaltsberg, Sergey, additional, Hamm, Christian W., additional, Pitschner, Heinz F., additional, Neumann, Thomas, additional, and Kuniss, Malte, additional

Published

2014

103. Design and Baseline Patient Characteristics of the Prospective, Observational, Multicenter and Multinational Cohort Study Comparing Radiofrequency with Cryoablation for Pulmonary Vein Isolation in Patients with Atrial Fibrillation—The Freeze Cohort Study

Author

Hoffmann, Ellen, primary, Dorwarth, Uwe, additional, Kuck, Karl Heinz, additional, Vogt, Jürgen, additional, Kuniss, Malte, additional, Schneider, Steffen, additional, Tebbenjohanns, Jürgen, additional, Chun, Kyong Ryul Julian, additional, Andresen, Dietrich, additional, Spitzer, Stefan, additional, Lewalter, Thorsten, additional, Willems, Stephan, additional, Brachmann, Johannes, additional, Stellbrink, Christoph, additional, Rauch, Bernhard, additional, and Senges, Jochen, additional

Published

2014

104. Learning Curve in Cryoballoon Ablation of Atrial Fibrillation

Author

Wójcik, Maciej, primary, Berkowitsch, Alexander, additional, Greis, Harald, additional, Zaltsberg, Sergey, additional, Hamm, Christian W., additional, Pitschner, Heinz F., additional, Kuniss, Malte, additional, and Neumann, Thomas, additional

Published

2014

105. Cryoballoon versus RF Ablation in Paroxysmal Atrial Fibrillation: Results from the German Ablation Registry

Author

SCHMIDT, MARTIN, primary, DORWARTH, UWE, additional, ANDRESEN, DIETRICH, additional, BRACHMANN, JOHANNES, additional, KUCK, KARL‐HEINZ, additional, KUNISS, MALTE, additional, LEWALTER, THORSTEN, additional, SPITZER, STEFAN, additional, WILLEMS, STEPHAN, additional, SENGES, JOCHEN, additional, JÜNGER, CLAUS, additional, and HOFFMANN, ELLEN, additional

Published

2013

106. Repeated Catheter Ablation of Atrial Fibrillation

Author

Wójcik, Maciej, primary, Berkowitsch, Alexander, additional, Greiss, Harald, additional, Zaltsberg, Sergey, additional, Pajitnev, Dimitri, additional, Deubner, Nicolas, additional, Hamm, Christian W., additional, Pitschner, Heinz F., additional, Kuniss, Malte, additional, and Neumann, Thomas, additional

Published

2013

107. Ipsilateral Circumferential Radiofrequency Ablation of Atrial Fibrillation With Irrigated Tip Catheter

Author

Wójcik, Maciej, primary, Erkapic, Damir, additional, Berkowitsch, Alexander, additional, Zaltsberg, Sergey, additional, Greiss, Harald, additional, Schmitt, Jörn, additional, Pajitnev, Dimitri, additional, Lehinant, Stefan, additional, Rixe, Johannes, additional, Hamm, Christian W., additional, Pitschner, Heinz F., additional, Kuniss, Malte, additional, and Neumann, Thomas, additional

Published

2013

108. Outcomes of Atrial Fibrillation Ablation in Patients With Metabolic Syndrome

Author

Wojcik, Maciej, primary, Berkowitsch, Alexander, additional, Kuniss, Malte, additional, Zaltsberg, Sergej, additional, Pitschner, Heinz-Friedrich, additional, Hamm, Christian W., additional, and Neumann, Thomas, additional

Published

2013

109. AV-Knoten-Reentrytachykardie.

Author

Bary, Christian, Eckardt, Lars, Steven, Daniel, Neuberger, Hans-Ruprecht, Tilz, Roland Richard, Bonnemeier, Hendrik, Thomas, Dierck, Deneke, Thomas, Estner, Heidi L., Kuniss, Malte, Luik, Armin, Sommer, Philipp, Voss, Frederik, Meyer, Christian, Shin, D.I., and Kriatselis, Charalampos

Published

2015

110. P-Wave Terminal Force and Atrial Fibrillation: A Lesson Learned From Old Masters

Author

Wojcik, Maciej, primary, Kuniss, Malte, additional, Berkowitsch, Alexander, additional, and Neumann, Thomas, additional

Published

2012

111. Fuerza terminal de la onda P y fibrilación auricular: una enseñanza de los viejos maestros

Author

Wojcik, Maciej, primary, Kuniss, Malte, additional, Berkowitsch, Alexander, additional, and Neumann, Thomas, additional

Published

2012

112. Left Ventricular Lead Position and Clinical Outcome in the Multicenter Automatic Defibrillator Implantation Trial–Cardiac Resynchronization Therapy (MADIT-CRT) Trial

Author

Singh, Jagmeet P., primary, Klein, Helmut U., additional, Huang, David T., additional, Reek, Sven, additional, Kuniss, Malte, additional, Quesada, Aurelio, additional, Barsheshet, Alon, additional, Cannom, David, additional, Goldenberg, Ilan, additional, McNitt, Scott, additional, Daubert, James P., additional, Zareba, Wojciech, additional, and Moss, Arthur J., additional

Published

2011

113. Limitaciones de la determinación de los niveles de los biomarcadores séricos durante el aislamiento de venas pulmonares

Author

Wojcik, Maciej, primary, Janin, Sebastien, additional, Kuniss, Malte, additional, Berkowitsch, Alexander, additional, Erkapic, Damir, additional, Zaltsberg, Sergey, additional, Madlener, Katherina, additional, Wysokinski, Andrzej, additional, Hamm, Christian W., additional, Pitschnera, Heinz F., additional, and Neumann, Thomas, additional

Published

2011

114. A novel mutation in the cardiac ryanodine receptor gene (RyR2) in a patient with an unequivocal LQTS

Author

Kauferstein, Silke, primary, Kiehne, Nadine, additional, Erkapic, Damir, additional, Schmidt, Jörn, additional, Hamm, Christian W., additional, Bratzke, Hansjürgen, additional, Pitschner, Heinz-Friedrich, additional, Kuniss, Malte, additional, and Neumann, Thomas, additional

Published

2011

115. Neuropsychological decline after catheter ablation of atrial fibrillation

Author

Schwarz, Niko, primary, Kuniss, Malte, additional, Nedelmann, Max, additional, Kaps, Manfred, additional, Bachmann, Georg, additional, Neumann, Thomas, additional, Pitschner, Heinz-Friedrich, additional, and Gerriets, Tibo, additional

Published

2010

116. Cryoablation Versus Radiofrequency Energy for the Ablation of Atrioventricular Nodal Reentrant Tachycardia (the CYRANO Study)

Author

Deisenhofer, Isabel, primary, Zrenner, Bernhard, additional, Yin, Yue-hui, additional, Pitschner, Heinz-Friedrich, additional, Kuniss, Malte, additional, Großmann, Georg, additional, Stiller, Sascha, additional, Luik, Armin, additional, Veltmann, Christian, additional, Frank, Julia, additional, Linner, Julia, additional, Estner, Heidi L., additional, Pflaumer, Andreas, additional, Wu, Jinjin, additional, von Bary, Christian, additional, Ücer, Ekrem, additional, Reents, Tilko, additional, Tzeis, Stylianos, additional, Fichtner, Stephanie, additional, Kathan, Susanne, additional, Karch, Martin R., additional, Jilek, Clemens, additional, Ammar, Sonia, additional, Kolb, Christof, additional, Liu, Zeng-Chang, additional, Haller, Bernhard, additional, Schmitt, Claus, additional, and Hessling, Gabriele, additional

Published

2010

117. Persistency of bidirectional conduction block in the cavotricuspid isthmus one month after cryocatheter ablation (8mm-tip) of common atrial flutter

Author

Kuniss, Malte, primary, Kurzidim, Klaus, additional, Greiss, Harald, additional, Zaltsberg, Sergey, additional, Sperzel, Johannes, additional, and Pitschner, Heinz-Friedrich, additional

Published

2005

118. Comparison of secondary stent implantation of severe acquired pulmonary vein stenosis versus primary stenting after pulmonary vein isolation

Author

Neumann, Thomas, primary, Greiss, Harald, additional, Kuniss, Malte, additional, Kurzidim, Klaus, additional, Dill, Thorsten, additional, Erdogan, Ali, additional, Hamm, Christian W., additional, and Pitschner, Heinz-Friedrich, additional

Published

2005

119. The additive efficacy of a novel balloon cryoablation catheter to standard cryoablation for PV isolation in patients with symptomatic atrial fibrillation

Author

Doshi, Shephal K., primary, Laragy, Margaret, additional, Pitchner, Heinz F., additional, Irwin, Jim, additional, Cole, Christopher, additional, Neuzil, Petr, additional, Kuniss, Malte, additional, Ruskin, Jeremy N., additional, and Reddy, Vivek Y., additional

Published

2005

120. Initial clinical experience with a balloon cryoablation catheter for pulmonary vein isolation in patients with atrial fibrillation

Author

Reddy, Vivek Y., primary, Pitschner, Heinz-Friedrich, additional, Neuzil, Petr, additional, Kuniss, Malte, additional, Laragy, Margaret, additional, Mihalik, Teresa A., additional, Taborsky, Milos, additional, and Ruskin, Jeremy N., additional

Published

2005

121. Incidence of pulmonary vein stenosis after pulmonary vein isolation by use of cryoenergy in patients with therapy-refractory atrial fibrillation in the long-term course

Author

Greiss, Harald, primary, Kuniss, Malte, additional, Kurzidim, Klaus, additional, Zaltsberg, Sergey, additional, Schneider, Hans-Jürgen, additional, Hansel, Jochen, additional, Dill, Thorsten, additional, Berkowitsch, Alexander, additional, Sperzel, Johannes, additional, and Pitschner, Heinz-Friedrich, additional

Published

2005

122. A Decrease in Pulmonary Vein Diameter After Radiofrequency Ablation Predicts the Development of Severe Stenosis

Author

BERKOWITSCH, ALEXANDER, primary, NEUMANN, THOMAS, additional, EKINCI, OKAN, additional, GREISS, HARALD, additional, DILL, THORSTEN, additional, KURZIDIM, KLAUS, additional, KUNISS, MALTE, additional, SCHNEIDER, HANS J., additional, and PITSCHNER, HEINZ F., additional

Published

2005

123. Circumferential Pulmonary Vein Isolation With the Cryoballoon Technique Results From a Prospective 3-Center Study

Author

Neumann, Thomas, Vogt, Jürgen, Schumacher, Burghard, Dorszewski, Anja, Kuniss, Malte, Neuser, Hans, Kurzidim, Klaus, Berkowitsch, Alexander, Koller, Marcus, Heintze, Johannes, Scholz, Ursula, Wetzel, Ulrike, Schneider, Michael A.E., Horstkotte, Dieter, Hamm, Christian W., and Pitschner, Heinz-Friedrich

Subjects

pulmonary veins, cryoballoon, catheter ablation, atrial fibrillation, arrhythmia, ablation, tachyarrhythmias

Abstract

ObjectivesThe purpose of this study was to investigate the efficacy safety of the novel cryoballoon device (Arctic Front, Cryocath, Quebec, Canada).BackgroundAntral pulmonary vein (PV) ablation with radiofrequency energy is widely used as a strategy for catheter ablation of paroxysmal atrial fibrillation (PAF). A novel double lumen cryoballoon catheter was designed for circumferential pulmonary vein isolation (PVI) with the cryoablation technique.MethodsWe consecutively enrolled 346 patients with symptomatic, drug refractory paroxysmal (n = 293) or persistent (n = 53) atrial fibrillation (AF). In all patients, PVI of all targeted PVs was the therapeutic aim. The primary end points of this nonrandomized study were: 1) acute isolation rate of targeted PV; and 2) first electrocardiogram-documented recurrence of AF. The secondary end point was occurrence of PV stenosis or atrio-esophageal fistula.ResultsThe 1,360 of 1,403 PVs (97%) were targeted with balloons or balloons in combination with the use of Freezor Max (Cryocath). We found that ablation with the cryoballoon resulted in maintenance of sinus rhythm in 74% of patients with PAF and 42% of patients with persistent AF. No PV narrowing occurred. The most frequent complication was right phrenic nerve palsy observed during cryoballoon ablation at the right superior PV.ConclusionsPulmonary vein isolation with a new cryoballoon technique is feasible. Sinus rhythm can be maintained in the majority of patients with PAF by circumferential PVI using a cryoballoon ablation system. Cryoablation was less effective in patients with persistent AF than in patients with PAF.

124. P4-67: Circular mapping and PV isolation of the antrum by a new 32-pole foldable umbrella catheter powered by pulsed RF-energy delivery

Author

Pitschner, Heinz-Friedrich, Zaltsberg, Sergey, Kuniss, Malte, Greiss, Harald, Kurzidim, Klaus, Brand, Rol, Sperzel, Johannes, and Hamm, Christian W.

Published

2006

125. Anticoagulant selection in relation to the SAMe-TT2R2score in patients with atrial fibrillation: The GLORIA-AF registry

Author

Ntaios, George, Huisman, Menno V., Diener, Hans-Christoph, Halperin, Jonathan L., Teutsch, Christine, Marler, Sabrina, Gurusamy, Venkatesh K., Thompson, Milla, Lip, Gregory Y.H., Olshansky, Brian, Abban, Dzifa Wosornu, Abdul, Nasser, Abud, Atilio Marcelo, Adams, Fran, Addala, Srinivas, Adragão, Pedro, Ageno, Walter, Aggarwal, Rajesh, Agosti, Sergio, Agostoni, Piergiuseppe, Aguilar, Francisco, Linares, Julio Aguilar, Aguinaga, Luis, Ahmed, Jameel, Aiello, Allessandro, Ainsworth, Paul, Aiub, Jorge Roberto, Al-Dallow, Raed, Alderson, Lisa, Aldrete Velasco, Jorge Antonio, Alexopoulos, Dimitrios, Manterola, Fernando Alfonso, Aliyar, Pareed, Alonso, David, Alves da Costa, Fernando Augusto, Amado, José, Amara, Walid, Amelot, Mathieu, Amjadi, Nima, Ammirati, Fabrizio, Andrade, Marianna, Andrawis, Nabil, Annoni, Giorgio, Ansalone, Gerardo, Ariani, M.Kevin, Arias, Juan Carlos, Armero, Sébastien, Arora, Chander, Aslam, Muhammad Shakil, Asselman, M., Audouin, Philippe, Augenbraun, Charles, Aydin, S., Ayryanova, Ivaneta, Aziz, Emad, Backes, Luciano Marcelo, Badings, E., Bagni, Ermentina, Baker, Seth H., Bala, Richard, Baldi, Antonio, Bando, Shigenobu, Banerjee, Subhash, Bank, Alan, Esquivias, Gonzalo Barón, Barr, Craig, Bartlett, Maria, Kes, Vanja Basic, Baula, Giovanni, Behrens, Steffen, Bell, Alan, Benedetti, Raffaella, Mazuecos, Juan Benezet, Benhalima, Bouziane, Bergler-Klein, Jutta, Berneau, Jean-Baptiste, Bernstein, Richard A., Berrospi, Percy, Berti, Sergio, Berz, Andrea, Best, Elizabeth, Bettencourt, Paulo, Betzu, Robert, Bhagwat, Ravi, Bhatta, Luna, Biscione, Francesco, BISIGNANI, Giovanni, Black, Toby, Bloch, Michael J., Bloom, Stephen, Blumberg, Edwin, Bo, Mario, Bøhmer, Ellen, Bollmann, Andreas, Bongiorni, Maria Grazia, Boriani, Giuseppe, Boswijk, D.J., Bott, Jochen, Bottacchi, Edo, Kalan, Marica Bracic, Bradman, Drew, Brautigam, Donald, Breton, Nicolas, Brouwers, P.J.A.M., Browne, Kevin, Cortada, Jordi Bruguera, Bruni, A., Brunschwig, Claude, Buathier, Hervé, Buhl, Aurélie, Bullinga, John, Cabrera, Jose Walter, Caccavo, Alberto, Cai, Shanglang, Caine, Sarah, Calò, Leonardo, Calvi, Valeria, Sánchez, Mauricio Camarillo, Candeias, Rui, Capuano, Vincenzo, Capucci, Alessandro, Caputo, Ronald, Rizo, Tatiana Cárdenas, Cardona, Francisco, Carlos da Costa Darrieux, Francisco, Duarte Vera, Yan Carlos, Carolei, Antonio, Carreño, Susana, Carvalho, Paula, Cary, Susanna, Casu, Gavino, Cavallini, Claudio, Cayla, Guillaume, Celentano, Aldo, Cha, Tae-Joon, Cha, Kwang Soo, Chae, Jei Keon, Chalamidas, Kathrine, Challappa, Krishnan, Chand, Sunil Prakash, Chandrashekar, Harinath, Chartier, Ludovic, Chatterjee, Kausik, Chavez Ayala, Carlos Antero, Cheema, Aamir, Cheema, Amjad, Chen, Lin, Chen, Shih-Ann, Chen, Jyh Hong, Chiang, Fu-Tien, Chiarella, Francesco, Chih-Chan, Lin, Cho, Yong Keun, Choi, Jong-Il, Choi, Dong Ju, Chouinard, Guy, Hoi-Fan Chow, Danny, Chrysos, Dimitrios, Chumakova, Galina, José Roberto Chuquiure Valenzuela, Eduardo Julián, Nica, Nicoleta Cindea, Cislowski, David J., Clay, Anthony, Clifford, Piers, Cohen, Andrew, Cohen, Michael, Cohen, Serge, Colivicchi, Furio, Collins, Ronan, Colonna, Paolo, Compton, Steve, Connolly, Derek, Conti, Alberto, Buenostro, Gabriel Contreras, Coodley, Gregg, Cooper, Martin, Coronel, Julian, Corso, Giovanni, Sales, Juan Cosín, Cottin, Yves, Covalesky, John, Cracan, Aurel, Crea, Filippo, Crean, Peter, Crenshaw, James, Cullen, Tina, Darius, Harald, Dary, Patrick, Dascotte, Olivier, Dauber, Ira, Davalos, Vicente, Davies, Ruth, Davis, Gershan, Davy, Jean-Marc, Dayer, Mark, De Biasio, Marzia, De Bonis, Silvana, De Caterina, Raffaele, De Franceschi, Teresiano, de Groot, J.R., De Horta, José, De La Briolle, Axel, Topete, Gilberto de la Pena, Vicenzo de Paola, Angelo Amato, de Souza, Weimar, de Veer, A., De Wolf, Luc, Decoulx, Eric, Deepak, Sasalu, Defaye, Pascal, Del-Carpio Munoz, Freddy, Brkljacic, Diana Delic, Deumite, N. Joseph, Di Legge, Silvia, Diemberger, Igor, Dietz, Denise, Dionísio, Pedro, Dong, Qiang, Rossi dos Santos, Fabio, Dotcheva, Elena, Doukky, Rami, D'Souza, Anthony, Dubrey, Simon, Ducrocq, Xavier, Dupljakov, Dmitry, Duque, Mauricio, Dutta, Dipankar, Duvilla, Nathalie, Duygun, A., Dziewas, Rainer, Eaton, Charles B., Eaves, William, Ebels-Tuinbeek, L.A., Ehrlich, Clifford, Eichinger-Hasenauer, Sabine, Eisenberg, Steven J., El Jabali, Adnan, El Shahawy, Mahfouz, Hernandes, Mauro Esteves, Izal, Ana Etxeberria, Evonich, Rudolph, Evseeva, Oksana, Ezhov, Andrey, Fahmy, Raed, Fang, Quan, Farsad, Ramin, Fauchier, Laurent, Favale, Stefano, Fayard, Maxime, Fedele, Jose Luis, Fedele, Francesco, Fedorishina, Olga, Fera, Steven R., Gomes Ferreira, Luis Gustavo, Ferreira, Jorge, Ferri, Claudio, Ferrier, Anna, Ferro, Hugo, Finsen, Alexandra, First, Brian, Fischer, Stuart, Fonseca, Catarina, Almeida, Luísa Fonseca, Forman, Steven, Frandsen, Brad, French, William, Friedman, Keith, Friese, Athena, Fruntelata, Ana Gabriela, Fujii, Shigeru, Fumagalli, Stefano, Fundamenski, Marta, Furukawa, Yutaka, Gabelmann, Matthias, Gabra, Nashwa, Gadsbøll, Niels, Galinier, Michel, Gammelgaard, Anders, Ganeshkumar, Priya, Gans, Christopher, Quintana, Antonio Garcia, Gartenlaub, Olivier, Gaspardone, Achille, Genz, Conrad, Georger, Frédéric, Georges, Jean-Louis, Georgeson, Steven, Giedrimas, Evaldas, Gierba, Mariusz, Ortega, Ignacio Gil, Gillespie, Eve, Giniger, Alberto, Giudici, Michael C., Gkotsis, Alexandros, Glotzer, Taya V., Gmehling, Joachim, Gniot, Jacek, Goethals, Peter, Goldbarg, Seth, Goldberg, Ronald, Goldmann, Britta, Golitsyn, Sergey, Gómez, Silvia, Mesa, Juan Gomez, Gonzalez, Vicente Bertomeu, Gonzalez Hermosillo, Jesus Antonio, González López, Víctor Manuel, Gorka, Hervé, Gornick, Charles, Gorog, Diana, Gottipaty, Venkat, Goube, Pascal, Goudevenos, Ioannis, Graham, Brett, Greer, G. Stephen, Gremmler, Uwe, Grena, Paul G., Grond, Martin, Gronda, Edoardo, Grönefeld, Gerian, Gu, Xiang, Torres Torres, Ivett Guadalupe, Guardigli, Gabriele, Guevara, Carolina, Guignier, Alexandre, Gulizia, Michele, Gumbley, Michael, Günther, Albrecht, Ha, Andrew, Hahalis, Georgios, Hakas, Joseph, Hall, Christian, Han, Bing, Han, Seongwook, Hargrove, Joe, Hargroves, David, Harris, Kenneth B., Haruna, Tetsuya, Hayek, Emil, Healey, Jeff, Hearne, Steven, Heffernan, Michael, Heggelund, Geir, Heijmeriks, J.A., Hemels, Maarten, Hendriks, I., Henein, Sam, Her, Sung-Ho, Hermany, Paul, Hernández Del Río, Jorge Eduardo, Higashino, Yorihiko, Hill, Michael, Hisadome, Tetsuo, Hishida, Eiji, Hoffer, Etienne, Hoghton, Matthew, Hong, Kui, Hong, Suk keun, Horbach, Stevie, Horiuchi, Masataka, Hou, Yinglong, Hsing, Jeff, Huang, Chi-Hung, Huckins, David, Hughes, kathy, Huizinga, A., Hulsman, E.L., Hung, Kuo-Chun, Hwang, Gyo-Seung, Ikpoh, Margaret, Imberti, Davide, Ince, Hüseyin, Indolfi, Ciro, Inoue, Shujiro, Irles, Didier, Iseki, Harukazu, Israel, C. Noah, Iteld, Bruce, Iyer, Venkat, Jackson-Voyzey, Ewart, Jaffrani, Naseem, Jäger, Frank, James, Martin, Jang, Sung-Won, Jaramillo, Nicolas, Jarmukli, Nabil, Jeanfreau, Robert J., Jenkins, Ronald D., Sánchez, Carlos Jerjes, Jimenez, Javier, Jobe, Robert, Joen-Jakobsen, Tomas, Jones, Nicholas, Moura Jorge, Jose Carlos, Jouve, Bernard, Jung, Byung Chun, Jung, Kyung Tae, Jung, Werner, Kachkovskiy, Mikhail, Kafkala, Krystallenia, Kalinina, Larisa, Kallmünzer, Bernd, Kamali, Farzan, Kamo, Takehiro, Kampus, Priit, Kashou, Hisham, Kastrup, Andreas, Katsivas, Apostolos, Kaufman, Elizabeth, Kawai, Kazuya, Kawajiri, Kenji, Kazmierski, John F., Keeling, P., Kerr Saraiva, José Francisco, Ketova, Galina, Khaira, AJIT Singh, Khripun, Aleksey, Kim, Doo-Il, Kim, Young Hoon, Kim, Nam Ho, Kim, Dae Kyeong, Kim, Jeong Su, Kim, June Soo, Kim, Ki Seok, Kim, Jin bae, Kinova, Elena, Klein, Alexander, Kmetzo, James J., Kneller, G. Larsen, Knezevic, Aleksandar, Angela Koh, Su Mei, Koide, Shunichi, Kollias, Athanasios, Kooistra, J.A., Koons, Jay, Koschutnik, Martin, Kostis, William J., Kovacic, Dragan, Kowalczyk, Jacek, Koziolova, Natalya, Kraft, Peter, Kragten, Johannes A., Krantz, Mori, Krause, Lars, Krenning, B.J., Krikke, F., Kromhout, Z., Krysiak, Waldemar, Kumar, Priya, Kümler, Thomas, Kuniss, Malte, Kuo, Jen-Yuan, Küppers, Achim, Kurrelmeyer, Karla, Kwak, Choong Hwan, Laboulle, Bénédicte, Labovitz, Arthur, Lai, Wen Ter, Lam, Andy, Lam, Yat Yin, Zanetti, Fernando Lanas, Landau, Charles, Landini, Giancarlo, Figueiredo, Estêvão Lanna, Larsen, Torben, Lavandier, Karine, LeBlanc, Jessica, Lee, Moon Hyoung, Lee, Chang-Hoon, Lehman, John, Leitão, Ana, Lellouche, Nicolas, Lelonek, Malgorzata, Lenarczyk, Radoslaw, Lenderink, T., González, Salvador León, Leong-Sit, Peter, Leschke, Matthias, Ley, Nicolas, Li, Zhanquan, Li, Xiaodong, Li, Weihua, Li, Xiaoming, Lichy, Christhoh, Lieber, Ira, Limon Rodriguez, Ramon Horacio, Lin, Hailong, Lip, Gregory Y.H., Liu, Feng, Liu, Hengliang, Esperon, Guillermo Llamas, Navarro, Nassip Llerena, Lo, Eric, Lokshyn, Sergiy, López, Amador, López-Sendón, José Luís, Lorga Filho, Adalberto Menezes, Lorraine, Richard S., Luengas, Carlos Alberto, Luke, Robert, Luo, Ming, Lupovitch, Steven, Lyrer, Philippe, Ma, Changsheng, Ma, Genshan, Madariaga, Irene, Maeno, Koji, Magnin, Dominique, Maid, Gustavo, Mainigi, Sumeet K., Makaritsis, Konstantinos, Malhotra, Rohit, Manning, Rickey, Manolis, Athanasios, Manrique Hurtado, Helard Andres, Mantas, Ioannis, Jattin, Fernando Manzur, Maqueda, Vicky, Marchionni, Niccolo, Ortuno, Francisco Marin, Santana, Antonio Martín, Martinez, Jorge, Maskova, Petra, Hernandez, Norberto Matadamas, Matsuda, Katsuhiro, Maurer, Tillmann, Mauro, Ciro, May, Erik, Mayer, Nolan, McClure, John, McCormack, Terry, McGarity, William, McIntyre, Hugh, McLaurin, Brent, Medina Palomino, Feliz Alvaro, Melandri, Francesco, Meno, Hiroshi, Menzies, Dhananjai, Mercader, Marco, Meyer, Christian, Meyer, Beat j., Miarka, Jacek, Mibach, Frank, Michalski, Dominik, Michel, Patrik, Chreih, Rami Mihail, Mikdadi, Ghiath, Mikus, Milan, Milicic, Davor, Militaru, Constantin, Minaie, Sedi, Minescu, Bogdan, Mintale, Iveta, Mirault, Tristan, Mirro, Michael J., Mistry, Dinesh, Miu, Nicoleta Violeta, Miyamoto, Naomasa, Moccetti, Tiziano, Mohammed, Akber, Nor, Azlisham Mohd, Mollerus, Michael, Molon, Giulio, Mondillo, Sergio, Moniz, Patrícia, Mont, Lluis, Montagud, Vicente, Montaña, Oscar, Monti, Cristina, Moretti, Luciano, Mori, Kiyoo, Moriarty, Andrew, Morka, Jacek, Moschini, Luigi, Moschos, Nikitas, Mügge, Andreas, Mulhearn, Thomas J., Muresan, Carmen, Muriago, Michela, Musial, Wlodzimierz, Musser, Carl W., Musumeci, Francesco, Nageh, Thuraia, Nakagawa, Hidemitsu, Nakamura, Yuichiro, Nakayama, Toru, Nam, Gi-Byoung, Nanna, Michele, Natarajan, Indira, Nayak, Hemal M., Naydenov, Stefan, Nazli, Jurica, Nechita, Alexandru Cristian, Nechvatal, Libor, Negron, Sandra Adela, Neiman, James, Neuenschwander, Fernando Carvalho, Neves, David, Neykova, Anna, Miguel, Ricardo Nicolás, Nijmeh, George, Nizov, Alexey, Campos, Rodrigo Noronha, Nossan, Janko, Novikova, Tatiana, Nowalany-Kozielska, Ewa, Nsah, Emmanuel, Nunez Fragoso, Juan Carlos, Nurgalieva, Svetlana, Nuyens, Dieter, Nyvad, Ole, Odin de Los Rios Ibarra, Manuel, O'Donnell, Philip, O'Donnell, Martin, Oh, Seil, Oh, Yong Seog, Oh, Dongjin, O'Hara, Gilles, Oikonomou, Kostas, Olivares, Claudia, Oliver, Richard, Ruiz, Rafael Olvera, Olympios, Christoforos, omaszuk-Kazberuk, Anna, Asensi, Joaquín Osca, jose, eena Padayattil, Padilla Padilla, Francisco Gerardo, Rios, Victoria Padilla, Pajes, Giuseppe, Pandey, A. Shekhar, Paparella, Gaetano, Paris, F., Park, Hyung Wook, Park, Jong Sung, Parthenakis, Fragkiskos, Passamonti, Enrico, Patel, Rajesh J., Patel, Jaydutt, Patel, Mehool, Patrick, Janice, Jimenez, Ricardo Pavón, Paz, Analía, Pengo, Vittorio, Pentz, William, Pérez, Beatriz, Pérez Ríos, Alma Minerva, Pérez-Cabezas, Alejandro, Perlman, Richard, Persic, Viktor, Perticone, Francesco, Peters, Terri K., Petkar, Sanjiv, Pezo, Luis Felipe, Pflücke, Christian, Pham, David N., Phillips, Roland T., Phlaum, Stephen, Pieters, Denis, Pineau, Julien, Pinter, Arnold, Pinto, Fausto, Pisters, R., Pivac, Nediljko, Pocanic, Darko, Podoleanu, Cristian, Politano, Alessandro, Poljakovic, Zdravka, Pollock, Stewart, Garcéa, Jose Polo, Poppert, Holger, Porcu, Maurizio, Reino, Antonio Pose, Prasad, Neeraj, Précoma, Dalton Bertolim, Prelle, Alessandro, Prodafikas, John, Protasov, Konstantin, Pye, Maurice, Qiu, Zhaohui, Quedillac, Jean-Michel, Raev, Dimitar, Raffo Grado, Carlos Antonio, Rahimi, Sidiqullah, Raisaro, Arturo, Rama, Bhola, Ramos, Ricardo, Ranieri, Maria, Raposo, Nuno, Rashba, Eric, Rauch-Kroehnert, Ursula, Reddy, Ramakota, Renda, Giulia, Reza, Shabbir, Ria, Luigi, Richter, Dimitrios, Rickli, Hans, Rieker, Werner, Vera, Tomas Ripolil, Ritt, Luiz Eduardo, Roberts, Douglas, Briones, Ignacio Rodriguez, Rodriguez Escudero, Aldo Edwin, Pascual, Carlos Rodríguez, Roman, Mark, Romeo, Francesco, Ronner, E., Roux, Jean-Francois, Rozkova, Nadezda, Rubacek, Miroslav, Rubalcava, Frank, Russo, Andrea M., Rutgers, Matthieu Pierre, Rybak, Karin, Said, Samir, Sakamoto, Tamotsu, Salacata, Abraham, Salem, Adrien, Bodes, Rafael Salguero, Saltzman, Marco A., Salvioni, Alessandro, Vallejo, Gregorio Sanchez, Fernández, Marcelo Sanmartín, Saporito, Wladmir Faustino, Sarikonda, Kesari, Sasaoka, Taishi, Sati, Hamdi, Savelieva, Irina, Scala, Pierre-Jean, Schellinger, Peter, Scherr, Carlos, Schmitz, Lisa, Schmitz, Karl-Heinz, Schmitz, Bettina, Schnabel, Teresa, Schnupp, Steffen, Schoeniger, Peter, Schön, Norbert, Schwimmbeck, Peter, Seamark, Clare, Searles, Greg, Seidl, Karl-Heinz, Seidman, Barry, Sek, Jaroslaw, Sekaran, Lakshmanan, SERRATI, Carlo, Shah, Neerav, Shah, Vinay, Shah, Anil, Shah, Shujahat, Sharma, Vijay Kumar, Shaw, Louise, Sheikh, Khalid H., Shimizu, Naruhito, Shimomura, Hideki, Shin, Dong-Gu, Shin, Eun-Seok, Shite, Junya, Sibilio, Gerolamo, Silver, Frank, Sime, Iveta, Simmers, Tim A., Singh, Narendra, Siostrzonek, Peter, Smadja, Didier, Smith, David W., Snitman, Marcelo, Filho, Dario Sobral, Soda, Hassan, Sofley, Carl, Sokal, Adam, Oi Yan, Yannie Soo, Sotolongo, Rodolfo, Ferreira de Souza, Olga, Sparby, Jon Arne, Spinar, Jindrich, Sprigings, David, Spyropoulos, Alex C., Stakos, Dimitrios, Steinwender, Clemens, Stergiou, Georgios, Stiell, Ian, Stoddard, Marcus, Stoikov, Anastas, Streb, Witold, Styliadis, Ioannis, Su, Guohai, Su, Xi, Sudnik, Wanda, Sukles, Kai, Sun, Xiaofei, Swart, H., Szavits-Nossan, Janko, Taggeselle, Jens, Takagi, Yuichiro, Singh Takhar, Amrit Pal, Tamm, Angelika, Tanaka, Katsumi, Tanawuttiwat, Tanyanan, Tang, Sherman, Tang, Aylmer, Tarsi, Giovanni, Tassinari, Tiziana, Tayal, Ashis, Tayebjee, Muzahir, Berg, J.M. ten, Tesloianu, Dan, The, Salem H.K., Thomas, Dierk, Timsit, Serge, Tobaru, Tetsuya, Tomasik, Andrzej R., Torosoff, Mikhail, Touze, Emmanuel, Trendafilova, Elina, Tsai, W. Kevin, Tse, Hung Fat, Tsutsui, Hiroshi, Tu, Tian Ming, Tuininga, Ype, Turakhia, Minang, Turk, Samir, Tcurner, Wayne, Tveit, Arnljot, Tytus, Richard, Valadão, C., van Bergen, P.F.M.M., van de Borne, Philippe, van den Berg, B.J., van der Zwaan, C., Van Eck, M., Vanacker, Peter, Vasilev, Dimo, Vasilikos, Vasileios, Vasilyev, Maxim, Veerareddy, Srikar, Miño, Mario Vega, Venkataraman, Asok, Verdecchia, Paolo, Versaci, Francesco, Vester, Ernst Günter, Vial, Hubert, Victory, Jason, Villamil, Alejandro, Vincent, Marc, Vlastaris, Anthony, Dahl, Jürgen vom, Vora, Kishor, Vranian, Robert B., Wakefield, Paul, Wang, Ningfu, Wang, Mingsheng, Wang, Xinhua, Wang, Feng, Wang, Tian, Warner, Alberta L., Watanabe, Kouki, Wei, Jeanne, Weimar, Christian, Weiner, Stanislav, Weinrich, Renate, Wen, Ming-Shien, Wiemer, Marcus, Wiggers, Preben, Wilke, Andreas, Williams, David, Williams, Marcus L., Witzenbichler, Bernhard, Wong, Brian, Lawrence Wong, Ka Sing, Wozakowska-Kaplon, Beata, Wu, Shulin, Wu, Richard C., Wunderlich, Silke, Wyatt, Nell, Wylie, John (Jack), Xu, Yong, Xu, Xiangdong, Yamanoue, Hiroki, Yamashita, Takeshi, Bryan Yan, Ping Yen, Yang, Tianlun, Yao, Jing, Yeh, Kuo-Ho, Yin, Wei Hsian, Yotov, Yoto, Zahn, Ralf, Zarich, Stuart, Zenin, Sergei, Zeuthen, Elisabeth Louise, Zhang, Huanyi, Zhang, Donghui, Zhang, Xingwei, Zhang, Ping, Zhang, Jun, Zhao, Shui Ping, Zhao, Yujie, Zhao, Zhichen, Zheng, Yang, Zhou, Jing, Zimmermann, Sergio, Zini, Andrea, Zizzo, Steven, Zong, Wenxia, and Zukerman, L Steven

Abstract

The SAMe-TT2R2score helps identify patients with atrial fibrillation (AF) likely to have poor anticoagulation control during anticoagulation with vitamin K antagonists (VKA) and those with scores >2 might be better managed with a target-specific oral anticoagulant (NOAC). We hypothesized that in clinical practice, VKAs may be prescribed less frequently to patients with AF and SAMe-TT2R2scores >2 than to patients with lower scores.

Published

2021

126. Chapter 15 - Balloon-Based Cryoablation of Atrial Fibrillation

Author

Neumann, Thomas and Kuniss, Malte

127. Contributors

Author

Albat, Bernard, Almendral, Jesús, Anders, Robert, Andrew, Peter S., Arruda, Mauricio S., Asirvatham, Samuel J., Atienza, Felipe, Azegami, Koji, Babkin, Alex, Barbone, Alessandro, Baust, John G., Baust, John M., Bredikis, Audrius J., Cannon, Bryan, Carr-Brendel, Victoria, Christensen, Kevin, Demaria, Roland G., Dubuc, Marc, Erkapic, Damir, Franceschi, Frédéric, Frapier, Jean-Marc, Gage, Andrew A., Gaita, Fiorenzo, Gallotti, Roberto, Heberer, Joann, Ikeda, Atsushi, Jackman, Warren M., Jordaens, Luc, Kamouh, Abdallah, Khairy, Paul, Kimman, Geert P., Knops, Paul, Kuniss, Malte, Lachman, Nirusha, Ladewig, Dorothy J., Lalonde, Jean-Pierre, Littrup, Peter J., Lustgarten, Daniel L., Maxant, Guillaume, Mears, Jennifer A., Mihalik, Teresa, Montefusco, Antonio, Montenero, Annibale S., Mukaddirov, Mirdavron M., Nakagawa, Hiroshi, Neumann, Thomas, Perversi, Jacopo, Pitha, Jan V., Pitschner, Heinz F., Roshan, John, Rouviere, Philippe, Schwagten, Bruno, Sharma, Tushar, Silver, Jeffrey, Snyder, Kristi K., Siu, Chung-Wah, Tse, Hung-Fat, van Beusekom, Heleen M.M., van Deel, Elza, van der Giessen, Wim, Wang, Zhong, Wilber, David J., and Wittenberger, Dan

128. Atrial Fibrillation and Renal Disease.

Author

Berkowitsch, Alexander, Wójcik, Maciej, Zaltsberg, Sergey, Pajitnev, Dmitri, Erkapic, Damir, Schmitt, Joern, Hamm, Christian, Kuniss, Malte, and Neumann, Thomas

Subjects

*ATRIAL fibrillation, *KIDNEY diseases, *ARTERIAL injuries, *ISCHEMIA, *CATHETER ablation

Abstract

Co-incidence of atrial fibrillation and renal dysfunction in general population is described in many epidemiological studies. Major issue is optimal anticoagulation in patients with atrial fibrillation and renal disease warranting balance between risks of ischemic stroke and hemorrhages. The second issue is catheter ablation of AF patients with renal dysfunction. Both issues are discussed in this paper. [ABSTRACT FROM AUTHOR]

Published

2013

129. Impact of cryoballoon application abortion due to phrenic nerve injury on reconnection rates: a YETI subgroup analysis.

Author

Heeger CH, Popescu SȘ, Sohns C, Pott A, Metzner A, Inaba O, Straube F, Kuniss M, Aryana A, Miyazaki S, Cay S, Ehrlich JR, El-Battrawy I, Martinek M, Saguner AM, Tscholl V, Yalin K, Lyan E, Su W, Papiashvili G, Botros MSN, Gasperetti A, Proietti R, Wissner E, Scherr D, Kamioka M, Makimoto H, Urushida T, Aksu T, Chun JKR, Aytemir K, Jędrzejczyk-Patej E, Kuck KH, Dahme T, Steven D, Sommer P, and Tilz RR

Subjects

Humans, Phrenic Nerve, Recurrence, Time Factors, Treatment Outcome, Atrial Fibrillation diagnosis, Atrial Fibrillation surgery, Atrial Fibrillation etiology, Catheter Ablation adverse effects, Cryosurgery adverse effects, Cryosurgery methods, Pulmonary Veins surgery

Abstract

Aims: Cryoballoon (CB)-based pulmonary vein isolation (PVI) is an effective treatment for atrial fibrillation (AF). The most frequent complication during CB-based PVI is right-sided phrenic nerve injury (PNI) which is leading to premature abortion of the freeze cycle. Here, we analysed reconnection rates after CB-based PVI and PNI in a large-scale population during repeat procedures., Methods and Results: In the YETI registry, a total of 17 356 patients underwent CB-based PVI in 33 centres, and 731 (4.2%) patients experienced PNI. A total of 111/731 (15.2%) patients received a repeat procedure for treatment of recurrent AF. In 94/111 (84.7%) patients data on repeat procedures were available. A total of 89/94 (94.7%) index pulmonary veins (PVs) have been isolated during the initial PVI. During repeat procedures, 22 (24.7%) of initially isolated index PVs showed reconnection. The use of a double stop technique did non influence the PV reconnection rate (P = 0.464). The time to PNI was 140.5 ± 45.1 s in patients with persistent PVI and 133.5 ± 53.8 s in patients with reconnection (P = 0.559). No differences were noted between the two populations in terms of CB temperature at the time of PNI (P = 0.362). The only parameter associated with isolation durability was CB temperature after 30 s of freezing. The PV reconnection did not influence the time to AF recurrence., Conclusion: In patients with cryoballon application abortion due to PNI, a high rate of persistent PVI rate was found at repeat procedures. Our data may help to identify the optimal dosing protocol in CB-based PVI procedures., Clinical Trial Registration: https://clinicaltrials.gov/ct2/show/NCT03645577?term=YETI&cntry=DE&draw=2&rank=1 ClinicalTrials.gov Identifier: NCT03645577., Competing Interests: Conflict of interest: C.H.H. received travel grants and research grants from Medtronic, Boston Scientific, Biosense Webster and Cardiofocus and is a proctor and lecturer of Medtronic, Boston Scientific, Cardiofocus and Biosense Webster. K.H.K. received travel grants and research grants from Biosense Webster, Stereotaxis, Prorhythm, Medtronic, Edwards, Cryocath, and is a consultant to St. Jude Medical, Biosense Webster, Prorhythm, and Stereotaxis. He received speaker's honoraria from Medtronic. R.R.T. received travel grants from St. Jude Medical, Biosense Webster, Daiichi Sankyo, SentreHeart and Speaker’s Bureau Honoraria from Biosense Webster, Biotronik, Boston scientific, Pfizer, Topera, Bristol-Myers Squibb, Bayer, Sanofi Aventis, and research grants by Cardiofocus, Boston Scientific and Lifetech. K.A. is a proctor and lecturer for Medtronic, Biosense Webster, and Abbott. A.M. received speaker's honoraria and travel grants from Medtronic, Biosense Webster and Cardiofocus. F.S. received honoraria for lectures from Medtronic, Philips EPD Solutions, and Bristol-Myers-Squibb, outside the submitted work; and educational support from Pfizer. S.C. received travel grants and speaker’s honoraria from Medtronic, Biosense Webster and Abbott, and is a proctor of Medtronic. E.J.P. received consultant fees from Medtronic, Biotronik, Abbott, Boston Scientific. E.W. is a consultant to Medtronic. All other authors have no relevant disclosures., (© The Author(s) 2022. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2023

130. New evidence: Cryoballoon ablation vs. antiarrhythmic drugs for first-line therapy of atrial fibrillation.

Author

Andrade JG, Chierchia GB, Kuniss M, and Wazni OM

Subjects

Anti-Arrhythmia Agents adverse effects, Humans, Quality of Life, Treatment Outcome, Atrial Fibrillation diagnosis, Atrial Fibrillation drug therapy, Atrial Fibrillation surgery, Catheter Ablation adverse effects, Cryosurgery adverse effects

Abstract

Atrial fibrillation (AF) is a commonly encountered chronic and progressive heart rhythm disorder, characterized by exacerbations and remissions. Contemporary clinical practice guidelines recommend a trial of antiarrhythmic drugs (AADs) as the initial therapy for sinus rhythm maintenance; however, these medications have modest efficacy and are associated with significant adverse effects. Recently, several trials have demonstrated that an initial treatment strategy of cryoballoon catheter ablation significantly improves arrhythmia outcomes (e.g. freedom atrial tachyarrhythmia and reduction in arrhythmia burden), produces clinically meaningful improvements in patient-reported outcomes (e.g. symptoms and quality of life), and significantly reduces subsequent healthcare resource utilization (e.g. hospitalization), without increasing the risk of serious or any adverse events. These findings are relevant to patients, providers, and healthcare systems, helping inform the decision regarding the initial choice of rhythm-control therapy in patients with treatment-naïve AF., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2022. For permissions, please email: journals.permissions@oup.com.)

Published

2022

131. Cryoballoon ablation vs. antiarrhythmic drugs: first-line therapy for patients with paroxysmal atrial fibrillation.

Author

Kuniss M, Pavlovic N, Velagic V, Hermida JS, Healey S, Arena G, Badenco N, Meyer C, Chen J, Iacopino S, Anselme F, Packer DL, Pitschner HF, Asmundis C, Willems S, Di Piazza F, Becker D, and Chierchia GB

Subjects

Anti-Arrhythmia Agents adverse effects, Humans, Recurrence, Treatment Outcome, Atrial Fibrillation diagnosis, Atrial Fibrillation drug therapy, Atrial Fibrillation surgery, Catheter Ablation adverse effects, Cryosurgery adverse effects, Pulmonary Veins surgery

Abstract

Aims: Treatment guidelines for patients with atrial fibrillation (AF) suggest that patients should be managed with an antiarrhythmic drug (AAD) before undergoing catheter ablation (CA). This study evaluated whether pulmonary vein isolation employing cryoballoon CA is superior to AAD therapy for the prevention of atrial arrhythmia (AA) recurrence in rhythm control naive patients with paroxysmal AF (PAF)., Methods and Results: A total of 218 treatment naive patients with symptomatic PAF were randomized (1 : 1) to cryoballoon CA (Arctic Front Advance, Medtronic) or AAD (Class I or III) and followed for 12 months. The primary endpoint was ≥1 episode of recurrent AA (AF, atrial flutter, or atrial tachycardia) >30 s after a prespecified 90-day blanking period. Secondary endpoints included the rate of serious adverse events (SAEs) and recurrence of symptomatic palpitations (evaluated via patient diaries). Freedom from AA was achieved in 82.2% of subjects in the cryoballoon arm and 67.6% of subjects in the AAD arm (HR = 0.48, P = 0.01). There were no group differences in the time-to-first (HR = 0.76, P = 0.28) or overall incidence [incidence rate ratio (IRR)=0.79, P = 0.28] of SAEs. The incidence rate of symptomatic palpitations was lower in the cryoballoon (7.61 days/year) compared with the AAD arm (18.96 days/year; IRR = 0.40, P < 0.001)., Conclusions: Cryoballoon CA was superior to AAD therapy, significantly reducing AA recurrence in treatment naive patients with PAF. Additionally, cryoballoon CA was associated with lower symptom recurrence and a similar rate of SAEs compared with AAD therapy., (© The Author(s) 2021. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2021

132. Outcomes of cryoballoon or radiofrequency ablation in symptomatic paroxysmal or persistent atrial fibrillation.

Author

Hoffmann E, Straube F, Wegscheider K, Kuniss M, Andresen D, Wu LQ, Tebbenjohanns J, Noelker G, Tilz RR, Chun JKR, Franke A, Stellbrink C, Garcia-Alberola A, Dorwarth U, Metzner A, Ouarrak T, Brachmann J, Kuck KH, and Senges J

Subjects

Aged, Atrial Fibrillation physiopathology, Cohort Studies, Female, Humans, Male, Middle Aged, Operative Time, Patient Readmission, Postoperative Complications epidemiology, Proportional Hazards Models, Prospective Studies, Radiation Dosage, Recurrence, Reoperation, Treatment Outcome, Atrial Fibrillation surgery, Catheter Ablation methods, Cryosurgery methods

Abstract

Aims: To evaluate the effectiveness and safety of cryoballoon ablation (CBA) compared with radiofrequency ablation (RFA) for symptomatic paroxysmal or drug-refractory persistent atrial fibrillation (AF)., Methods and Results: Prospective cluster cohort study in experienced CBA and RFA centres. Primary endpoint was 'atrial arrhythmia recurrence', secondary endpoints were as follows: procedural results, safety, and clinical course. A total of 4189 patients were included: CBA 2329 (55.6%) and RFA 1860 (44.4%). Cryoballoon ablation population was younger, with fewer comorbidities. Procedure time was longer in the RFA group (P = 0.01). Radiation exposure was 2487 (CBA) and 1792 cGycm2 (RFA) (P < 0.001). Follow-up duration was 441 (CBA) and 511 days (RFA) (P < 0.0001). Primary endpoint occurred in 30.7% (CBA) and 39.4% patients (RFA) [adjusted hazard ratio (adjHR) 0.85, 95% confidence interval (CI) 0.70-1.04; P = 0.12). In paroxysmal AF, CBA resulted in a lower risk of recurrence (adjHR 0.80, 95% CI 0.64-0.99; P = 0.047). In persistent AF, the primary outcome was not different between groups. Major adverse cardiovascular and cerebrovascular event rates were 1.0% (CBA) and 2.8% (RFA) (adjHR 0.53, 95% CI 0.26-1.10; P = 0.088). Re-ablations (adjHR 0.46, 95% CI 0.34-0.61; P < 0.0001) and adverse events during follow-up (adjHR 0.64, 95% CI 0.48-0.88; P = 0.005) were less common after CBA. Higher rehospitalization rates with RFA were caused by re-ablations., Conclusions: The primary endpoint did not differ between CBA and RFA. Cryoballoon ablation was completed rapidly; the radiation exposure was greater. Rehospitalization due to re-ablations and adverse events during follow-up were observed significantly less frequently after CBA than after RFA. Subgroup analysis suggested a lower risk of recurrence after CBA in paroxysmal AF., Trial Registration: ClinicalTrials.gov (NCT01360008), https://clinicaltrials.gov/ct2/show/NCT01360008., (© The Author(s) 2019. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2019

133. [Premature ventricular contractions and tachycardia in a structurally normal heart : Idiopathic PVC and VT].

Author

Busch S, Eckardt L, Sommer P, Meyer C, Bonnemeier H, Thomas D, Neuberger HR, Tilz RR, Steven D, von Bary C, Kuniss M, Voss F, and Estner HL

Subjects

Electrocardiography, Heart Ventricles, Humans, Catheter Ablation, Tachycardia, Ventricular, Ventricular Premature Complexes

Abstract

Premature ventricular contractions (PVC) are a common, often incidental and mostly benign finding. Treatment is indicated in frequent and symptomatic PVC or in cases of worsening of left ventricular function. Idiopathic ventricular tachycardia (VT) is mostly found in patients with a structurally healthy heart. These PVC/VT usually have a focal origin. The most likely mechanism is delayed post-depolarization. Localization of the origin is based on the creation of an activation map with or without combination of pace mapping. Idiopathic PVC/VT are most frequently located on the outflow tracts of the right and left ventricles, including the aortic root. Other typical locations include the annulus of the tricuspid or mitral valve, papillary muscles and Purkinje fibers. Catheter ablation is an alternative to antiarrhythmic medication in symptomatic monomorphic PVC/VT. The success rate is good whereby mapping and ablation can often represent a challenge. This article is the fifth part of a series dedicated to specific advanced training in the field of special rhythmology and invasive electrophysiology. It describes the pathophysiological principles, types and typical findings that can be obtained during an electrophysiological investigation.

Published

2019

134. PLAAF score as a novel predictor of long-term outcome after second-generation cryoballoon pulmonary vein isolation.

Author

Akkaya E, Berkowitsch A, Greiss H, Hamm CW, Sperzel J, Neumann T, and Kuniss M

Subjects

Action Potentials, Aged, Atrial Fibrillation diagnosis, Atrial Fibrillation physiopathology, Atrial Flutter etiology, Cardiac Catheters, Equipment Design, Female, Heart Rate, Humans, Male, Middle Aged, Predictive Value of Tests, Progression-Free Survival, Pulmonary Veins physiopathology, Recurrence, Reproducibility of Results, Risk Assessment, Risk Factors, Sex Factors, Tachycardia, Supraventricular etiology, Time Factors, Atrial Fibrillation surgery, Cryosurgery adverse effects, Cryosurgery instrumentation, Decision Support Techniques, Pulmonary Veins surgery

Abstract

Aims: Predictors of atrial arrhythmia recurrence have not been described in a long-term follow-up study of patients undergoing pulmonary vein isolation (PVI) using the cryoballoon technique. We aimed to evaluate the efficacy of a second-generation cryoballoon and identify pre-procedural predictors of 3-year outcome after PVI., Methods and Results: For this observational cohort study, we enrolled 440 patients ablated at our institution with a second-generation cryoballoon. The endpoint was the first documented recurrence (>30 s) of atrial fibrillation (AF), atrial flutter, or atrial tachycardia after a 3-month blanking period. The impact of several pre-existing variables on clinical outcome was evaluated by univariate and multivariate analyses using the Cox proportional hazards regression model. The PLAAF (persistent AF, left atrial area, abnormal PV anatomy, AF history, female gender) score was defined to predict outcome. After a median follow-up of 36 months (interquartile range 25/75-27/42), the endpoint was achieved in 95 of 440 (21.6%) patients. Cox regression analysis showed that persistent AF, left atrial (LA) area, abnormal PV anatomy, AF history, and female gender independently predicted recurrence. The calculated optimal cut-offs for LA area and AF history were 21 cm2 and 3 years, respectively. Patients with a PLAAF score of 0 showed the best outcome, with an arrhythmia-free survival of 86.7%., Conclusion: PVI using the cryoballoon technique shows acceptable long-term results depending on predictors described by the new PLAAF score, which may facilitate patient selection for PVI.

Published

2018

135. The slope of the initial temperature drop predicts acute pulmonary vein isolation using the second-generation cryoballoon.

Author

Deubner N, Greiss H, Akkaya E, Zaltsberg S, Hain A, Berkowitsch A, Güttler N, Kuniss M, and Neumann T

Subjects

Aged, Area Under Curve, Atrial Fibrillation diagnosis, Atrial Fibrillation physiopathology, Chi-Square Distribution, Cryosurgery adverse effects, Equipment Design, Female, Humans, Linear Models, Logistic Models, Male, Middle Aged, Patient Safety, Peripheral Nerve Injuries etiology, Peripheral Nerve Injuries physiopathology, Phrenic Nerve injuries, Phrenic Nerve physiopathology, Pulmonary Veins physiopathology, ROC Curve, Retrospective Studies, Risk Factors, Time Factors, Treatment Outcome, Atrial Fibrillation surgery, Cardiac Catheters adverse effects, Cold Temperature adverse effects, Cryosurgery instrumentation, Pulmonary Veins surgery

Abstract

Aims: There is no objective, early indicator of occlusion quality, and efficacy of cryoballoon pulmonary vein isolation. As previous experience suggests that the initial cooling rate correlates with these parameters, we investigated the slope of the initial temperature drop as an objective measure., Methods and Results: A systematic evaluation of 523 cryoapplications in 105 patients using a serial ROC-AUC analysis was performed. We found the slope of a linear regression of the temperature-time function to be a good predictor (PPV 0.9, specificity 0.72, sensitivity 0.71, and ROC-AUC 0.75) of acute isolation. It also correlated with nadir temperatures (P< 0.001, adjusted R2= 0.43), predicted very low nadir temperatures, and varied according to visual occlusion grades (ANOVA P< 0.001)., Conclusions: About 25 s after freeze initiation, the temperature-time slope predicts important key characteristics of a cryoablation, such as nadir temperature. The slope is the only reported predictor to actually precede acute isolation and thus to support decisions about pull-down manoeuvres or aborting a cryoablation early on. It is also predictive of very low nadir temperatures and phrenic nerve palsy and thus may add to patient safety., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2016. For permissions please email: journals.permissions@oup.com.)

Published

2017

136. Cryoballoon ablation of persistent atrial fibrillation: feasibility and safety of left atrial roof ablation with generation of conduction block in addition to antral pulmonary vein isolation.

Author

Kuniss M, Greiß H, Pajitnev D, Akkaya E, Deubner N, Hain A, Bodammer L, Berkowitsch A, Chierchia GB, Hamm CW, and Neumann T

Subjects

Action Potentials, Aged, Atrial Fibrillation diagnosis, Atrial Fibrillation physiopathology, Cryosurgery adverse effects, Electrophysiologic Techniques, Cardiac, Feasibility Studies, Female, Heart Atria physiopathology, Heart Rate, Humans, Male, Middle Aged, Prospective Studies, Pulmonary Veins physiopathology, Radiography, Interventional, Recurrence, Time Factors, Treatment Outcome, Atrial Fibrillation surgery, Cryosurgery methods, Heart Atria surgery, Pulmonary Veins surgery

Abstract

Aims: Although the generation of linear lesions by ablation improves success rates in patients with persistent atrial fibrillation (AF), the procedure has been considered unsuitable for cryoablation balloon catheter technologies. We developed a technique for linear ablations, using second-generation cryoballoon technology., Methods and Results: This was a single-arm, prospective study in 76 patients with persistent AF treated consecutively at our centre. Cryoablation was performed using a 28 mm second-generation cryoballoon. The first cryoenergy application was performed in close proximity to the position during isolation of the left superior pulmonary vein (PV). Sequential overlapping freezes were applied along the left atrial (LA) roof by slight clockwise rotation of the sheath in combination with slight retraction of the sheath and incremental advancement of the cryoballoon, until reaching the original position for right superior PV isolation. The acute endpoint was the creation of a roofline, defined as complete conduction block across the LA roof >120 ms and ascending activation across the posterior LA wall. Acute success in roofline generation was achieved in 88% of patients, applying on average five (median 4-6) freezes with nadir temperature of -40°C (-36 to -44°C). In five patients, conduction block could not be achieved. No phrenic nerve injuries occurred during roofline generation., Conclusion: Generation of linear roofline lesions is possible with the second-generation cryoballoon. The technique can be used in combination with PV isolation to treat persistent AF with good acute success rates, short procedure times, and acceptable safety concerns. If validated by further studies, the method would be an appealing alternative to radiofrequency ablation techniques., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2016. For permissions please email: journals.permissions@oup.com.)

Published

2017

137. Clinical impact of a novel three-dimensional electrocardiographic imaging for non-invasive mapping of ventricular arrhythmias-a prospective randomized trial.

Author

Erkapic D, Greiss H, Pajitnev D, Zaltsberg S, Deubner N, Berkowitsch A, Möllman S, Sperzel J, Rolf A, Schmitt J, Hamm CW, Kuniss M, and Neumann T

Subjects

Adult, Algorithms, Female, Humans, Male, Middle Aged, Prospective Studies, Reproducibility of Results, Sensitivity and Specificity, Body Surface Potential Mapping methods, Diagnosis, Computer-Assisted methods, Electrocardiography methods, Imaging, Three-Dimensional methods, Tachycardia, Ventricular diagnosis, Ventricular Premature Complexes diagnosis

Abstract

Aims: ECVUE™ technology, a novel, three-dimensional, non-invasive mapping system, offers a unique arrhythmia characterization and localization. We sought to evaluate the clinical impact of this system in routine clinical mapping and ablation of ventricular arrhythmias (VAs)., Methods and Results: Patients with monomorphic premature ventricular contractions with or without monomorphic ventricular tachycardia were enrolled prospectively and randomized into two groups: ventricular ectopy localization using either 12-lead electrocardiogram (ECG) algorithms or with ECVUE™, followed by conventional guided ablation. Forty-two patients were enrolled in the study. The ECVUE™ system accurately identified both the chamber and sub-localized the VA origin in 20 of 21 (95.2%) patients. In contrast, using 12-lead ECG algorithms, the chamber was accurately diagnosed in 16 of 21 (76.2%) patients, while the arrhythmia origin in only 8 of 21 (38.1%), (P = 0.001 vs. ECVUE™). Acute success in ablation was achieved in all patients. Regarding the number of radiofrequency-energy applications (in total 2 vs. 4, P = 0.005) in the ECVUE™ arm, ablation was more precise than the ECG group which used standard of care activation and pace mapping-guided ablation. Three months success in ablation was 95.2% for the ECVUE™ and 100% for the ECG group (P = ns). Time to ablation was 35.3 min in the conventional arm and 24.4 min in ECVUE Group, (P = 0.035). The X-ray radiation exposure was 3.21 vs. 0.39 mSv, P = 0.001 for the ECVUE™ group and ECG group., Conclusion: ECVUE™ technology offers a clinically useful tool to map VAs with high accuracy and more targeted ablations superior to the body surface ECG but had significantly higher radiation exposure due to computed tomography scan., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2014. For permissions please email: journals.permissions@oup.com.)

Published

2015

138. Cryoballoon ablation in young patients with lone paroxysmal atrial fibrillation.

Author

Wójcik M, Berkowitsch A, Zaltsberg S, Hamm CW, Pitschner HF, Neumann T, and Kuniss M

Subjects

Adult, Female, Humans, Male, Middle Aged, Treatment Outcome, Angioplasty, Balloon, Coronary methods, Atrial Fibrillation surgery, Cardiac Catheterization methods, Cryosurgery methods

Abstract

Introduction and Objectives: Long-term efficacy following cryoballoon ablation of lone paroxysmal atrial fibrillation remains unknown. We describe long-term follow-up results of the single cryoballoon ablation procedure., Methods: Pulmonary vein isolation was performed in 103 patients (72 male; median age 52 years) with symptomatic lone paroxysmal atrial fibrillation. The end-point of this observational cohort study was first electrocardiogram-documented recurrence of arrhythmia (atrial fibrillation, atrial tachycardia, or atrial flutter) during the 5-year follow-up, in the absence of anti-arrhythmic treatment., Results: Acute complete pulmonary vein isolation was achieved in 86% of the patients with a single cryoballoon. The 6-month, 1-year, and 5-year success rate after a single procedure was 94%, 91%, and 77%, respectively. Arrhythmia recurrence was observed in 24 cases at a median of 14.8 months [range, 8.0-16.8 months]. Thirteen symptomatic patients were well controlled on beta-blockers only. Seven symptomatic patients had anti-arrhythmic treatment (class IC in 5 patients; dronedarone in 2 patients) introduced during the blanking period. Two of them had early arrhythmia recurrence within the blanking period only; they were arrhythmia-free in further follow-up on dronedarone. The rate of complications was relatively low and included a 4.8% incidence of transient phrenic nerve palsy., Conclusions: A single cryoballoon ablation procedure for lone paroxysmal atrial fibrillation resulted in high rates of acute, medium-term, and long-term efficacy. The rate of complications is relatively low and includes a 4.8% incidence of transient phrenic nerve palsy., (Copyright © 2013 Sociedad Española de Cardiología. Published by Elsevier Espana. All rights reserved.)

Published

2014

139. Atrial Fibrillation and Renal Disease.

Author

Berkowitsch A, Wójcik M, Zaltsberg S, Pajitnev D, Erkapic D, Schmitt J, Hamm C, Kuniss M, and Neumann T

Abstract

Co-incidence of atrial fibrillation and renal dysfunction in general population is described in many epidemiological studies. Major issue is optimal anticoagulation in patients with atrial fibrillation and renal disease warranting balance between risks of ischemic stroke and hemorrhages. The second issue is catheter ablation of AF patients with renal dysfunction. Both issues are discussed in this paper.

Published

2013

140. Major determinants of myocardial injury after pulmonary vein isolation with radiofrequency ablation.

Author

Wójcik M, Kuniss M, Berkowitsch A, Zaltsberg S, Janin S, Wysokiński A, Hamm CW, Pitschner HF, and Neumann T

Subjects

Aged, Atrial Fibrillation diagnosis, Biomarkers blood, Electrocardiography, Female, Heart Injuries diagnosis, Humans, Male, Middle Aged, Multivariate Analysis, Pulmonary Veins, Atrial Fibrillation surgery, Catheter Ablation adverse effects, Heart Injuries blood, Heart Injuries etiology, Troponin I blood, Troponin T blood

Abstract

Background: Radiofrequency (RF) current is used as a common energy source to perform pulmonary vein isolation (PVI) in patients with atrial fibrillation. We applied measurements of the blood concentration of cTnI as a surrogate parameter for the injured cell mass., Aim: To clarify which parameters are major determinants of myocardial injury, estimated by cTnI, after PVI with RF ablation., Methods: The study population consisted of 82 consecutive patients in whom PVI with RF ablation was performed. In 41 patients, additional linear lesions (LL) were needed. Blood samples were obtained during venous puncture before a procedure and a further one, six and 24 hours after ablation., Results: Pathological cTnI values were observed in all patients in the first hour and further increased in time. The median of peak cTnI value in the LL group was significantly (p 〈 0.05) higher than the respective value in patients without LL made: 1.16 (0.85;1.98) and 0.94 (0.65;1.14) ng/mL, respectively. Significantly higher cTnI values (p = 0.043) were observed in patients who maintained sinus rhythm in long term follow-up., Conclusions: The only independent predictor of myocardial injury after PVI with RF ablation, expressed as an increase in cTnI level, is cumulative energy applied. The larger the myocardial injury, the greater the PVI effectiveness.

Published

2012

141. Which standard biomarkers are useful for the evaluation of myocardial injury after pulmonary vein isolation with cryoballoon?

Author

Wójcik M, Janin S, Neumann T, Kuniss M, Berkowitsch A, Erkapic D, Zaltsberg S, Madlener K, Wysokiński A, Hamm CW, and Pitschner HF

Subjects

Atrial Fibrillation therapy, Biomarkers metabolism, Creatine Kinase metabolism, Female, Humans, Male, Middle Aged, Myocardium metabolism, Pulmonary Veins surgery, Statistics as Topic, Angioplasty, Balloon adverse effects, Creatine Kinase, MB Form metabolism, Cryosurgery adverse effects, Myocardial Infarction etiology, Troponin I metabolism, Troponin T metabolism

Abstract

Background: Many studies have used creatinine kinase (CK), myocardial bound for CK (CK-MB), and cardiac troponin I (cTnI) and T (cTnT) to evaluate myocardial cells injury after ablation. We applied measurements of the blood concentration of cardio-specific biomarkers as surrogates for the injured cell mass., Aim: To clarify which of the standard biomarkers are useful in the evaluation and quantification of lesions produced by cryoballoon ablation (CBA) during pulmonary vein isolation., Methods: The CBA was performed in 33 patients with atrial fibrillation. Blood samples were obtained before CBA and one, six, and 24 h after CBA. We analysed CK, CK-MB and cTnI., Results: A significant increase of all biomarkers was observed at each hour of collection as compared to the baseline measurement. Maximum median peak levels occurred at 6 h. Pathological values of CK, CK-MB and cTnI were observed in 94%, 100% and 100% of patients, respectively. Both maximum CK and CK-MB values correlated with median temperature (p < 0.05) reached during CBA. Additionally, CK-MB correlated with total cryo-time (p < 0.03)., Conclusions: The CK-MB is the best biochemical marker for the evaluation of myocardial injury after CBA. The cTnI can be useful as an additional parameter of myocardial injury after CBA.

Published

2011

142. Evaluation of atrial fibrillation burden before catheter ablation predicts outcome after pulmonary vein isolation.

Author

Berkowitsch A, Neumann T, Kuniss M, Brandt R, Zaltsberg S, and Pitschner HF

Abstract

Background: Paroxysmal atrial fibrillation (PAF) is defined as recurrent AF terminating spontaneously within 7 days. This definition allows the consideration of any AF occurrence lasting < 7 days as paroxysmal, irrespective of the frequency and duration of episodes. The aim of this study was to investigate symptomatic AF burden (AFB) defined as total duration of symptomatic AF episodes within 3 months prior to abalation, for prediction of outcome after pulmonary vein isolation (PVI)., Methods: A total of 320 consecutive patients with symptomatic AF (PAF=244, men=214, age=58 y) were enrolled. AFB in patients with PAF was defined as time spent in AF within 3 months prior to PVI. After the AFB cut-off point was optimized at 500 h, patients with PAF were categorized into 2 groups: Group 1 - patients with AFB< 500 h (n=192), Group 2 - patients with AFB> or = 500 h (n=52). Patients with persistent AF (PersAF, n = 76) comprised control group (Group 3). PVI was performed either with irrigated tip catheter (n=215) or using cryoballoon (n=105). The endpoint of study was first documented recurrence of AF >30 sec., Results: Symptomatic AFB was found to be appropriate for prediction of outcome after PVI. The freedom from AF within 2 years was observed in 69%, 31%, and 43% patients in Group 1, 2 and 3, respectively (Group 1 vs. Group 2, p < .001; Group 1 vs. Group 3, p< .001; Group 2 vs. Group 3, p = 0.46)., Conclusions: Low AFB < 500 h /3 months was associated with better outcome after PVI. Patients with PAF and high AFB should be treated as patients with PersAF.

Published

2009