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5. Poster session Wednesday 11 December all day display: 11/12/2013, 09:30-16:00 * Location: Poster area

Author

Bertrand, PB, Grieten, L, Smeets, C, Verbrugge, FH, Mullens, W, Vrolix, M, Rivero-Ayerza, M, Verhaert, D, Vandervoort, P, Tong, L, Ramalli, A, Tortoli, P, Dhoge, J, Bajraktari, G, Lindqvist, P, Henein, MY, Obremska, M, Boratynska, MB, Kurcz, JK, Zysko, DZ, Baran, TB, Klinger, MK, Darahim, K, Mueller, H, Carballo, D, Popova, N, Vallee, J-P, Floria, M, Chistol, R, Tinica, G, Grecu, M, Rodriguez Serrano, M, Osa-Saez, A, Rueda-Soriano, J, Buendia-Fuentes, F, Domingo-Valero, D, Igual-Munoz, B, Alonso-Fernandez, P, Quesada-Carmona, A, Miro-Palau, V, Palencia-Perez, M, Bech-Hanssen, O, Polte, CL, Lagerstrand, K, Janulewicz, M, Gao, S, Erdogan, E, Akkaya, M, Bacaksiz, A, Tasal, A, Sonmez, O, Turfan, M, Kul, S, Vatankulu, MA, Uyarel, H, Goktekin, O, Mincu, RI, Magda, LS, Mihaila, S, Florescu, M, Mihalcea, D, Enescu, OE, Chiru, A, Popescu, B, Tiu, C, Vinereanu, D, 112/2011, Research grant, Broch, K, Kunszt, G, Massey, R, De Marchi, SF, Aakhus, S, Gullestad, L, Urheim, S, Yuan, L, Feng, JL, Jin, XY, Bombardini, T, Casartelli, M, Simon, D, Gaspari, MG, Procaccio, F, Hasselberg, NE, Haugaa, KH, Brunet, A, Kongsgaard, E, Donal, E, Edvardsen, T, Sahin, TAYLAN, Yurdakul, S, Cengiz, BETUL, Bozkurt, AYSEN, Aytekin, SAIDE, Cesana, F, Spano, F, Santambrogio, G, Alloni, M, Vallerio, P, Salvetti, M, Carerj, S, Gaibazzi, N, Rigo, F, Moreo, A, Group, APRES Collaborative, Wdowiak-Okrojek, K, Michalski, B, Kasprzak, JD, Shim, A, Lipiec, P, Generati, G, Pellegrino, M, Bandera, F, Donghi, V, Alfonzetti, E, Guazzi, M, Marcun, R, Stankovic, I, Farkas, J, Vlahovic-Stipac, A, Putnikovic, B, Kadivec, S, Kosnik, M, Neskovic, AN, Lainscak, M, Iliuta, L, Szymanski, P, Lipczynska, M, Klisiewicz, A, Sobieszczanska-Malek, M, Zielinski, T, Hoffman, P, Gjerdalen, G F, Hisdal, J, Solberg, EE, Andersen, TE, Radunovic, Z, Steine, K, Svanadze, A, Poteshkina, N, Krylova, N, Mogutova, P, Shim, A, Kasprzak, JD, Szymczyk, E, Wdowiak-Okrojek, K, Michalski, B, Stefanczyk, L, Lipiec, P, Benedek, T, Matei, C, Jako, B, Suciu, ZS, Benedek, I, Yaroshchuk, N A, Kochmasheva, V V, Dityatev, V P, Kerbikov, O B, Przewlocka-Kosmala, M, Orda, A, Karolko, B, Mysiak, A, Kosmala, W, Rechcinski, T, Wierzbowska-Drabik, K, Lipiec, P, Chmiela, M, Kasprzak, JD, Aziz, A, Hooper, J, Rayasamudra, S, Uppal, H, Asghar, O, Potluri, R, Zaroui, A, Mourali, MS, Rezine, Z, Mbarki, S, Jemaa, M, Aloui, H, Mechmeche, R, Farhati, A, Gripari, P, Maffessanti, F, Tamborini, G, Muratori, M, Fusini, L, Vignati, C, Bartorelli, AL, Alamanni, F, Agostoni, PG, Pepi, M, Ruiz Ortiz, M, Mesa, D, Delgado, M, Seoane, T, Carrasco, F, Martin, M, Mazuelos, F, Suarez De Lezo Herreros De Tejada, J, Romero, M, Suarez De Lezo, J, Brili, S, Stamatopoulos, I, Misailidou, M, Chrisochoou, C, Christoforatou, E, Stefanadis, C, Ruiz Ortiz, M, Mesa, D, Delgado, M, Martin, M, Seoane, T, Carrasco, F, Ojeda, S, Segura, J, Pan, M, Suarez De Lezo, J, Cammalleri, V, Ussia, GP, Muscoli, S, Marchei, M, Sergi, D, Mazzotta, E, Romeo, F, Igual Munoz, B, Bel Minguez, ABM, Perez Guillen, MPG, Maceira Gonzalez, AMG, Monmeneu Menadas, JVMM, Hernandez Acuna, CHA, Estornell Erill, JEE, Lopez Lereu, PLL, Francisco Jose Valera Martinez, FJVM, Montero Argudo, AMA, Sunbul, M, Akhundova, A, Sari, I, Erdogan, O, Mutlu, B, Cacicedo, A, Velasco Del Castillo, S, Anton Ladislao, A, Aguirre Larracoechea, U, Rodriguez Sanchez, I, Subinas Elorriaga, A, Oria Gonzalez, G, Onaindia Gandarias, J, Laraudogoitia Zaldumbide, E, Lekuona Goya, I, Ding, W, Zhao, Y, Lindqvist, P, Nilson, J, Winter, R, Holmgren, A, Ruck, A, Henein, MY, Attenhofer Jost, C H, Soyka, R, Oxenius, A, Kretschmar, O, Valsangiacomo Buechel, ER, Greutmann, M, Weber, R, Keramida, K, Kouris, N, Kostopoulos, V, Karidas, V, Damaskos, D, Makavos, G, Paraskevopoulos, K, Olympios, CD, Eskesen, K, Olsen, NT, Fritz-Hansen, T, Sogaard, P, Cameli, M, Lisi, M, Righini, FM, Curci, V, Massoni, A, Natali, B, Maccherini, M, Chiavarelli, M, Massetti, M, Mondillo, S, Mabrouk Salem Omar, A, Ahmed Abdel-Rahman, M, Khorshid, H, Rifaie, O, Santoro, C, Santoro, A, Ippolito, R, De Palma, D, De Stefano, F, Muscariiello, R, Galderisi, M, Squeri, A, Censi, S, Baldelli, M, Grattoni, C, Cremonesi, A, Bosi, S, Saura Espin, D, Gonzalez Canovas, C, Gonzalez Carrillo, J, Oliva Sandoval, MJ, Caballero Jimenez, L, Espinosa Garcia, MD, Garcia Navarro, M, Valdes Chavarri, M, De La Morena Valenzuela, G, Ryu, SK, Shin, DG, Son, JW, Choi, JH, Goh, CW, Choi, JW, Park, JY, Hong, GR, Sklyanna, O, Yuan, L, Yuan, L, Planinc, I, Bagadur, G, Ljubas, J, Baricevic, Z, Skoric, B, Velagic, V, Bijnens, B, Milicic, D, Cikes, M, Gospodinova, M, Chamova, T, Guergueltcheva, V, Ivanova, R, Tournev, I, Denchev, S, Ancona, R, Comenale Pinto, S, Caso, P, Arenga, F, Coppola, MG, Calabro, R, Neametalla, H, Boitard, S, Hamdi, H, Planat-Benard, V, Casteilla, L, Li, Z, Hagege, AA, Mericskay, M, Menasche, P, Agbulut, O, Merlo, M, Stolfo, D, Anzini, M, Negri, F, Pinamonti, B, Barbati, G, Di Lenarda, A, Sinagra, G, Stolfo, D, Merlo, M, Pinamonti, B, Gigli, M, Poli, S, Porto, A, Di Nora, C, Barbati, G, Di Lenarda, A, Sinagra, G, Coppola, C, Piscopo, G, Cipresso, C, Rea, D, Maurea, C, Esposito, E, Arra, C, Maurea, N, Nemes, A, Kalapos, A, Domsik, P, Forster, T, Voilliot, D, Huttin, O, Vaugrenard, T, Schwartz, J, Sellal, J-M, Aliot, E, Juilliere, Y, Selton-Suty, C, Sanchez Millan, P J, Cabeza Lainez, P, Castillo Ortiz, J, Chueca Gonzalez, EM, Gheorghe, L, Fernandez Garcia, P, Herruzo Rojas, MS, Del Pozo Contreras, R, Fernandez Garcia, M, Vazquez Garcia, R, Rosca, M, Popescu, BA, Botezatu, D, Calin, A, Beladan, CC, Gurzun, M, Enache, R, Ginghina, C, Farouk, H, Al-Maimoony, T, Alhadad, A, El Serafi, M, Abdel Ghany, M, Poorzand, H, Mirfeizi, SZ, Javanbakht, A, center, Preventive Cardiovascular care research, center, Lupus Research, sciences, Mashhad university of medical, Tellatin, S, Famoso, G, Dassie, F, Martini, C, Osto, E, Maffei, P, Iliceto, S, Tona, F, Radunovic, Z, Steine, KS, Jedrzejewska, I, Braksator, W, Krol, W, Swiatowiec, A, Sawicki, J, Kostarska-Srokosz, E, Dluzniewski, M, Maceira Gonzalez, A M, Cosin-Sales, J, Diago, JL, Aguilar, J, Ruvira, J, Monmeneu, J, Igual, B, Lopez-Lereu, MP, Estornell, J, Olszanecka, A, Dragan, A, Kawecka-Jaszcz, K, Czarnecka, D, Scholz, F, Gaudron, PD, Hu, K, Liu, D, Florescu, C, Herrmann, S, Bijnens, B, Ertl, G, Stoerk, S, Weidemann, F, Krestjyaninov, M, Razin, VA, Gimaev, RH, Bogdanovic, Z, Burazor, I, Deljanin Ilic, M, Peluso, D, Muraru, D, Cucchini, U, Mihaila, S, Casablanca, S, Pigatto, E, Cozzi, F, Punzi, L, Badano, LP, Iliceto, S, Zhdanova, E, Rameev, VV, Safarova, AF, Moisseyev, SV, Kobalava, ZD, Magnino, C, Omede, P, Avenatti, E, Presutti, D, Losano, I, Moretti, C, Bucca, C, Gaita, F, Veglio, F, Milan, A, Bellsham-Revell, H, Bell, AJ, Miller, OI, Simpson, JM, Hwang, YM, Kim, GH, Jung, MH, Woo, GH, Medicine, Department of Internal, Hospital, St.Vincents, Korea, The Catholic University of, Suwon, Division of Cardiology, Repu, Driessen, MMP, Leiner, T, Schoof, PH, Breur, JMPJ, Sieswerda, GT, Meijboom, FJ, Bellsham-Revell, H, Hayes, N, Anderson, D, Austin, BC, Razavi, R, Greil, GF, Simpson, JM, Bell, AJ, Zhao, XX, Xu, XD, Qin, YW, Szmigielski, C A, Styczynski, G, Sobczynska, M, Placha, G, Kuch-Wocial, A, Ikonomidis, I, Voumbourakis, A, Triantafyllidi, H, Pavlidis, G, Varoudi, M, Papadakis, I, Trivilou, P, Paraskevaidis, I, Anastasiou-Nana, M, Lekakis, I, Kong, WILL, Yip, JAMES, Ling, LH, Milan, A, Tosello, F, Leone, D, Bruno, G, Losano, I, Avenatti, E, Sabia, L, Veglio, F, Zaborska, B, Baran, J, Pilichowska-Paszkiet, E, Sikora-Frac, M, Michalowska, I, Kulakowski, P, Budaj, A, Mega, S, Bono, MC, De Francesco, V, Castiglione, I, Ranocchi, F, Casacalenda, A, Goffredo, C, Patti, G, Di Sciascio, G, Musumeci, F, Kennedy, M, Waterhouse, DF, Sheahan, R, Foley, DF, Mcadam, BF, Ancona, R, Comenale Pinto, S, Caso, P, Arenga, F, Coppola, MG, Calabro, R, Remme, E W, Smedsrud, M K, Hasselberg, N E, Smiseth, O A, Edvardsen, T, Halmai, L, Nemes, A, Kardos, A, Neubauer, S, Degiovanni, A, Baduena, L, Dellera, G, Occhetta, E, Marino, P, Hotchi, J, Yamada, H, Nishio, S, Bando, M, Hayashi, S, Hirata, Y, Amano, R, Soeki, T, Wakatsuki, T, Sata, M, Lamia, B, Molano, LC, Viacroze, C, Cuvelier, A, Muir, JF, Lipczynska, M, Piotr Szymanski, PS, Anna Klisiewicz, AK, Lukasz Mazurkiewicz, LM, Piotr Hoffman, PH, Van T Sant, J, Wijers, SC, Ter Horst, IAH, Leenders, GE, Cramer, MJ, Doevendans, PA, Meine, M, Hatam, N, Goetzenich, A, Aljalloud, A, Mischke, K, Hoffmann, R, Autschbach, R, Sikora-Frac, M, Zaborska, B, Maciejewski, P, Bednarz, B, Budaj, A, Evangelista, A, Torromeo, C, Pandian, NG, Nardinocchi, P, Varano, V, Schiariti, M, Teresi, L, Puddu, PE, Storve, S, Dalen, H, Snare, SR, Haugen, BO, Torp, H, Fehri, W, Mahfoudhi, H, Mezni, F, Annabi, MS, Taamallah, K, Dahmani, R, Haggui, A, Hajlaoui, N, Lahidheb, D, Haouala, H, Colombo, A, Carminati, MC, Maffessanti, F, Gripari, P, Pepi, M, Lang, RM, Caiani, EG, Walker, JR, Abadi, S, Agmon, Y, Carasso, S, Aronson, D, Mutlak, D, Lessick, J, Saxena, A, Ramakrishnan, S, Juneja, R, Ljubas, J, Reskovic Luksic, V, Matasic, R, Pezo Nikolic, B, Lovric, D, Separovic Hanzevacki, J, Quattrone, A, Zito, C, Alongi, G, Vizzari, G, Bitto, A, De Caridi, G, Greco, M, Tripodi, R, Pizzino, G, Carerj, S, Ibrahimi, P, Jashari, F, Johansson, E, Gronlund, C, Bajraktari, G, Wester, P, Henein, MY, Kosmala, W, Marwick, TH, Souza, J R M, Zacharias, L G T, Geloneze, B, Pareja, J C, Chaim, A, Nadruz, W JR, Coelho, O R, Apostolovic, S, Stanojevic, D, Jankovic-Tomasevic, R, Salinger-Martinovic, S, Djordjevic-Radojkovic, D, Pavlovic, M, Tahirovic, E, Musial-Bright, L, Lainscak, M, Duengen, HD, group, CIBIS ELD study, Filipiak, D, Kasprzak, JD, and Lipiec, P

Abstract

Purpose: With the advent of percutaneous transcatheter device closures in congenital heart defects and the emergence of percutaneous left atrial appendage closure, there is an increasingly important role for echocardiographic guidance and control of device position and function. Disc occluder devices frequently present as an unexplained ‘figure-of-8’ on echocardiography. The aim of this study was to clarify this ‘figure-of-8’ display and to relate its morphology to transducer position and device type. Methods: A mathematical model was developed to resemble disc occluder geometry and to allow a numerical simulation of the echocardiographic appearance. In addition, we developed an in vitro set-up for echocardiographic analysis of various disc occluders and various transducer positions. Results: In the mathematical model of an epitrochoid curve (closely resembling disc occluder geometry) a ‘figure-of-8’ display is obtained when emphasizing points with tangent vector perpendicular to the direction of ultrasound waves. Decreasing imaging depth results in a more asymmetric ‘figure-of-8’, with small upper part and wide lower part. Clinical and in vitro data are in close agreement with these results (Figure 1). Furthermore a ‘figure-of-8’ display is only obtained in a coronal imaging position, and is similar for different commercially available disc occluder types. Conclusions: The ‘figure-of-8’ display in the ultrasound image of a disc occluder is an imaging artifact due to the specific ‘epitrochoidal’ geometry of a deployed device and its interaction with ultrasound waves. The morphology of the ‘figure-of-8’ depends on transducer position, i.e. imaging depth, and is similar for different device types. Figure 1 Impact of imaging depth

Published
2013
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6. Large variability in clinical judgement and definitions of left bundle branch block to identify candidates for cardiac resynchronisation therapy.

Author

van Stipdonk AMW, Vanbelle S, Ter Horst IAH, Luermans JG, Meine M, Maass AH, Auricchio A, Prinzen FW, and Vernooy K

Subjects
Bundle-Branch Block physiopathology, Humans, ROC Curve, Bundle-Branch Block therapy, Cardiac Resynchronization Therapy methods, Clinical Decision-Making methods, Electrocardiography, Patient Selection
Abstract

Background: Left bundle branch block (LBBB) morphology is associated with improved outcome of cardiac resynchronisation therapy (CRT) and is an important criterion for patient selection. There are, however, multiple definitions for LBBB. Moreover, applying these definitions seems subjective. We investigated the inter- and intraobserver agreement in the determination of LBBB using available definitions, and clinicians' judgement of LBBB., Methods: Observers were provided with 12‑lead ECGs of 100 randomly selected CRT patients. Four observers judged the ECGs based on different LBBB-definitions (ESC, AHA/ACC/HRS, MADIT, and Strauss). Additionally, four implanting cardiologists scored the same 100 ECGs based on their clinical judgement. Observer agreement was summarized through the proportion of agreement (P) and kappa coefficient (k)., Results: Relative intra-observer agreement using different LBBB definitions, and within clinical judgement was moderate (range k 0.47-0.74 and k = 0.76 (0.14), respectively). The inter-observer agreement between observers using LBBB definitions as well as between clinical observers was minimal to weak (range k 0.19-0.44 and k = 0.35 (0.20), respectively). The probability of classifying an ECG as LBBB by available definitions varied considerably (range 0.20-0.76). The agreement between different definitions of LBBB ranged from good (P = 0.95 (0.07)) to weak (P = 0.40 (0.22)). Furthermore, correlation between the different LBBB definitions and clinical judgement was poor (range phi 0.30-0.55)., Conclusion: Significant variation in the probability of classifying LBBB is present in using different definitions and clinical judgement. Considerable intra- and inter-observer variability adds to this variation. Interdefinition agreement varies significantly and correlation of clinical judgement with LBBB classification by definitions is modest at best., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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7. Refining success of cardiac resynchronization therapy using a simple score predicting the amount of reverse ventricular remodelling: results from the Markers and Response to CRT (MARC) study.

Author

Maass AH, Vernooy K, Wijers SC, van 't Sant J, Cramer MJ, Meine M, Allaart CP, De Lange FJ, Prinzen FW, Gerritse B, Erdtsieck E, Scheerder COS, Hill MRS, Scholten M, Kloosterman M, Ter Horst IAH, Voors AA, Vos MA, Rienstra M, and Van Gelder IC

Subjects
Humans, Male, Middle Aged, Aged, Female, Treatment Outcome, Ventricular Remodeling physiology, Vectorcardiography, Biomarkers, Cardiac Resynchronization Therapy adverse effects, Cardiac Resynchronization Therapy methods, Heart Failure diagnosis, Heart Failure therapy, Heart Failure, Systolic therapy
Abstract

Aims: Cardiac resynchronization therapy (CRT) reduces morbidity and mortality in systolic heart failure patients with ventricular conduction delay. Variability of individual response to CRT warrants improved patient selection. The Markers and Response to CRT (MARC) study was designed to investigate markers related to response to CRT., Methods and Results: We prospectively studied the ability of 11 clinical, 11 electrocardiographic, 4 echocardiographic, and 16 blood biomarkers to predict CRT response in 240 patients. Response was measured by the reduction of indexed left ventricular end-systolic volume (LVESVi) at 6 months follow-up. Biomarkers were related to LVESVi change using log-linear regression on continuous scale. Covariates that were significant univariately were included in a multivariable model. The final model was utilized to compose a response score. Age was 67 ± 10 years, 63% were male, 46% had ischaemic aetiology, LV ejection fraction was 26 ± 8%, LVESVi was 75 ± 31 mL/m2, and QRS was 178 ± 23 ms. At 6 months LVESVi was reduced to 58 ± 31 mL/m2 (relative reduction of 22 ± 24%), 130 patients (61%) showed ≥ 15% LVESVi reduction. In univariate analysis 17 parameters were significantly associated with LVESVi change. In the final model age, QRSAREA (using vectorcardiography) and two echocardiographic markers (interventricular mechanical delay and apical rocking) remained significantly associated with the amount of reverse ventricular remodelling. This CAVIAR (CRT-Age-Vectorcardiographic QRSAREA -Interventricular Mechanical delay-Apical Rocking) response score also predicted clinical outcome assessed by heart failure hospitalizations and all-cause mortality., Conclusions: The CAVIAR response score predicts the amount of reverse remodelling after CRT and may be used to improve patient selection. Clinical Trials: NCT01519908., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2017. For permissions, please email: journals.permissions@oup.com.)

Published
2018
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8. The concept of triple wavefront fusion during biventricular pacing: Using the EGM to produce the best acute hemodynamic improvement in CRT.

Author

Ter Horst IAH, Bogaard MD, Tuinenburg AE, Mast TP, de Boer TP, Doevendans PAFM, and Meine M

Subjects
Adult, Aged, Algorithms, Cardiac Resynchronization Therapy methods, Female, Humans, Male, Middle Aged, Treatment Outcome, Bundle-Branch Block therapy, Cardiac Pacing, Artificial methods, Electrocardiography methods, Heart Failure therapy, Hemodynamics physiology
Abstract

Background: Previous reports suggest that biventricular pacing (BiVp) fused with intrinsic conduction (BiVp-fusion, triple wavefront fusion) is associated with improved resynchronization compared to pure-BiVp in cardiac resynchronization therapy (CRT). This study aimed to assess the association between acute hemodynamic benefit of CRT and signs of BiVp-fusion by using a novel electrogram (EGM)-based method., Methods: In 17 patients undergoing CRT implantation, 28 combinations of atrioventricular (AV) and interventricular (VV) delays were applied while invasively measuring acute hemodynamic response based on maximum rate of left ventricular (LV) pressure rise (LV dP/dt max ) to assess optimal BiVp settings. BiVp-fusion was noted if farfield signal (caused by first intrinsic ventricular depolarization) was seen prior to right ventricular (RV) pacing (RVp) artifact on integrated bipolar RV EGM, or QRS morphology changed compared to pure-BiVp (short AV-delay) as seen on electrocardiogram (ECG)., Results: Mean optimal RVp timing was at 98 ± 17% of intrinsic right atrial (RA)-RV farfield (interval from right atrial pace or sense to RV farfield signal) interval, while preactivating the LV at 50 ± 11% of RA-RV sense (interval from right atrial pace or sense to RV sense interval) interval. BiVp-fusion was noted in 16 of 17 (94%) patients on ECG during optimal BiVp. Eight of these patients showed intrinsic farfield signal prior to RVp artifact on RV EGM. In the remaining eight, the RVp was paced just within the RA-RV farfield interval with a mean of 25 ± 14 ms prior to the onset; therefore, the intrinsic farfield was masked., Conclusion: Optimal hemodynamic BiVp facilitates triple wavefront fusion, by pacing the RV around the onset of intrinsic farfield signal on RV EGM, while preactivating the LV. Aiming at BiVp-fusion could be a target for noninvasive EGM-based CRT device setting optimization., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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