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Heart and Vessels
Published in: Heart and Vessels 8/2022

Open Access 08-02-2022 | Atrioventricular Block | Original Article

AV timing in pacemaker patients with first-degree AV block: which is preferable, intrinsic AV conduction or pacing?

Authors: Yoshihiro Aizawa, Toshiko Nakai, Yukitoshi Ikeya, Rikitake Kogawa, Yuki Saito, Kazuto Toyama, Tetsuro Yumikura, Naoto Otsuka, Koichi Nagashima, Yasuo Okumura

Published in: Heart and Vessels | Issue 8/2022

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Abstract

Some patients with pacemakers present with first-degree atrioventricular (AV) block. To avoid right ventricular (RV) pacing, preserving intrinsic AV conduction as much as possible is recommended. However, there is no clear cutoff AV interval to determine whether intrinsic AV conduction should be preserved or RV pacing should be delivered. This study aimed to compare a pacing mode-preserving, intrinsic AV conduction with the DDD mode delivering RV pacing in terms of echocardiographic parameters in patients with first-degree AV block and to investigate whether RV pacing induces heart failure (HF). Stroke volume (SV) was measured to determine the optimal AV delay with the intrinsic AV conduction rhythm and the DDD pacing delivering RV pacing. Echocardiographic evaluation was performed for 6-month follow-up period. Seventeen patients were studied. At baseline, mean intrinsic PQ interval was 250 ± 40 ms. SV was greater with RV pacing with optimal AV delay of 160 ms than with intrinsic AV conduction rhythm in all patients. Therefore, pacemakers were set to the DDD to deliver RV pacing. During follow-up, seven patients developed HF. Mean baseline E/E′ ratio in patients who developed HF (HF group) during RV pacing was higher than in patients without HF (non = HF group; 17.9 ± 8 versus 11.5 ± 2, P = 0.018) Even within HF group patients without a high baseline E/E′ ratio, it increased with RV pacing (22.2 ± 6 versus 11.6 ± 2; P < 0.001). In patients with pacemaker and first-degree AV block, RV pacing with the optimal AV delay of 160 ms increased SV. However, the risk of HF may be increased with RV pacing if the E/Eʹ ratio is > 15 during intrinsic AV conduction or RV pacing. RV pacing should be avoided in patients with high E/Eʹ ratio under intrinsic AV conduction or RV pacing.

Literature
  1. Lee MA, Dae MW, Langberg JJ, Griffin JC, Chin MC, Finkbeiner WE, O’Connell JW, Botvinick E, Scheinman MM, Rosenqvist M (1994) Effects of long-term right ventricular apical pacing on left ventricular perfusion, innervation, function and histology. J Am Coll Cardiol 24(1):225–232View Article
  2. Zhang XH, Chen H, Siu CW, Yiu KH, Chan WS, Lee KL, Chan HW, Lee SW, Fu GS, Lau CP, Tse HF (2008) New-onset heart failure after permanent right ventricular apical pacing in patients with acquired high-grade atrioventricular block and normal left ventricular function. J Caldiovasc Electrophysiol 19(2):136–141View Article
  3. Thackray SDR, Witte KKA, Nikitin NP, Clark AL, Kaye GC, Cleland JGF (2003) The prevalence of heart failure and asymptomatic left ventricular systolic dysfunction in a typical regional pacemaker population. Eur Heart J 24:1143–1152View Article
  4. Ogano M, Tsuboi I, Iwasaki Y, Tanabe J, Shimizu W (2021) Structural heart disease, not the right ventricular pacing site, determines the QRS duration during right ventricular pacing. Heart Vessels 36:1870–1878View Article
  5. Chan WY, Blomqvist A, Melton IC, Norén K, Crozier IG, Benser ME, Eigler NL, Gutfinger D, Troughton RW (2014) Effects of AV delay and VV delay on left atrial pressure and waveform in ambulant heart failure patients: insights into crt optimization. Pacing Clin Electrophysiol 37(7):810–819View Article
  6. Fukuhara K, Okura H, Koyama T, Kume T, Neishi Y, Hayashida A, Yoshida K (2015) Feasibility of a novel atrioventricular delay optimization method using transmitral and pulmonary venous flow in patients with sequential ventricular pacing or cardiac resynchronization therapy. J Echocardiogr 13(2):52–58View Article
  7. Chatterjee NA, Gold MR, Waggoner AD, Picard MH, Stein KM, Yu Y, Meyer TE, Wold N, Ellenbogen KA, Singh JP (2016) Longer left ventricular electric delay reduces mitral regurgitation after cardiac resynchronization therapy: Mechanistic insights from the smart-av study (smartdelay determined av optimization: a comparison to other av delay methods used in cardiac resynchronization therapy). Circ Arrhythm Electrophysiol 9(11):e004346View Article
  8. Ishikawa T, Sumita S, Kimura K, Kikuchi M, Kosuge M, Kuji N, Endo T, Sugano T, Sigemasa T, Kobayashi I, Tochikubo O, Usui T (1999) Prediction of optimal atrioventricular delay in patients with implanted DDD pacemakers. Pacing Clin Electrophysiol 22(9):1365–1371View Article
  9. Sweeney MO, Hellkamp AS, Ellenbogen KA, Greenspon AJ, Freedman RA, Lee KL, Lamas GA (2003) Adverse effect of ventricular pacing on heart failure and atrial fibrillation among patients with normal baseline qrs duration in a clinical trial of pacemaker therapy for sinus node dysfunction. Circulation 107(23):2932–2937View Article
  10. Sharma AD, Rizo-Patron C, Hallstrom AP, O’Neill GP, Rothbart S, Martins JB, Roelke M,Steinberg JS, Greene HL, DAVID Investigators (2005) Percent right ventricular pacing predicts outcomes in the DAVID trial. Heart Rhythm 2(8):830–834View Article
  11. Sweeney MO, Bank AJ, Nsah E, Koullick M, Zeng QC, Hettrick D, Sheldon T, Lamas GA, Search AV Extension and Managed Ventricular Pacing for Promoting Atrioventricular Conduction (SAVE PACe) Trial (2007) Minimizing ventricular pacing to reduce atrial fibrillation in sinus-node disease. N Engl J Med 357(10):1000–1008View Article
  12. Ishikawa T, Sugano T, Sumita S, Nakagawa T, Hanada K, Kosuge M, Kobayashi I, Kimura K, Tochikubo O, Usui T, Umemura S (2001) Optimal atrioventricular delay setting determined by evoked QT interval in patients with implanted stimulus-T-driven DDDR pacemakers. Europace 3(1):46–51View Article
  13. Kato M, Dote K, Sasaki S, Goto K, Takemoto H, Habara S, Hasegawa D, Matsuda O (2005) Determination of the optimal atrioventricular interval in sick sinus syndrome during DDD pacing. Pacing Clin Electrophysiol 28(9):892–897View Article
  14. McKee PA, Castelli WP, McNamara PM, Kannel WB (1971) The natural history of congestive heart failure: the Framingham study. N Engl J Med 285:1441–1446View Article
  15. Takeda Y, Sakata Y, Higashimori M, Mano T, Nishio M, Ohtani T, Hori M, Masuyama T, Kaneko M, Yamamoto K (2009) Noninvasive assessment of wall distensibility with the evaluation of diastolic epicardial movement. J Card Fail 15(1):68–77View Article
  16. Quinones MA, Waggoner AD, Reduto LA, Nelson JG, Young JB, Winters WL Jr, Ribeiro LG, Miller RR (1981) A new, simplified and accurate method for determining ejection fraction with two-dimensional echocardiography. Circulation 64(4):744–753View Article
  17. Vuille C, Wayman AE (1994) Left ventricle I: general considerations, assessment of chamber size and function. In: Weyman AE (ed) Principles and practice of echocardiograpy, 2nd edn. Lea & Febiger, Philadelphia, pp 575–624
  18. Aizawa Y, Sakata Y, Mano T, Takeda Y, Ohtani T, Tamaki S, Omori Y, Tsukamoto Y, Hirayama A, Komuro I, Yamamoto K (2011) Transition from asymptomatic diastolic dysfunction to heart failure with preserved ejection fraction: roles of systolic function and ventricular distensibility. Circ J 75(3):596–602View Article
  19. RiahiS, Nielsen JC, Hjortshøj S, Thomsen PEB, Højberg S, Møller M, Dalsgaard D, Nielsen T, Asklund M, Friis EV, Christensen PerD, Simonsen EH, Eriksen UH, Jensen GVH, Svendsen JH, Toff WD, Healey JS, Andersen HR, DANPACE Investigators (2012) Heart failure in patients with sick sinus syndrome treated with single lead atrial or dual-chamber pacing: no association with pacing mode or right ventricular pacing site. Europace 14:1475–1482View Article
  20. Redfield MM, Jacobsen SJ, Burnett JC, Mahoney DW, Bailey KR, Rodeheffer RJ (2003) Burden of systolic and diastolic ventricular dysfunction in the community: appreciating the scope of the heart failure epidemic. JAMA 289:194–202View Article
  21. Kane GC, Karon BL, Mahoney DW, Redfield MM, Roger VL, Burnett JC Jr, Jacobsen SJ, Rodeheffer RJ (2011) Progression of left ventricular diastolic dysfunction and risk of heart failure. JAMA 306:856–863View Article
  22. Nagueh SF, Appleton CP, Gillebert TC, Marino PN, Oh JK, Smiseth OA, Waggoner AD, Flachskampf FA, Pellikka PA, Evangelista A (2009) Recommendations for the evaluation of left ventricular diastolic function by echocardiography. J Am Soc Echocardiogr 22:107–133View Article
  23. McMurray JJV, Adamopoulos S, Anker SD, Auricchio A, Böhm M, Dickstein K, Falk V,Filippatos G, Fonseca C, Gomez-Sanchez MA, Jaarsma T, Køber L, Lip GYH, Maggioni AP, Parkhomenko A, Pieske BM, Popescu BA, Rønnevik PK, Rutten FH, Schwitter J, Seferovic P, Stepinska J, Trindade PT, Voors AA, Zannad F, Zeiher A, ESC Committee for Practice Guidelines (2012) ESC guidelines for the diagnosis and treatment of acute and chronic heart failure 2012: the task force for the diagnosis and treatment of acute and chronic heart failure 2012 of the European Society of Cardiology. Developed in collaboration with the Heart. Eur Heart J 33:1787–1847View Article
  24. Curtis AB, Worley SJ, Adamson PB, Chung ES, Niazi I, Sherfesee L, Shinn T, Sutton MS, Biventricular versus Right Ventricular Pacing in Heart Failure Patients with Atrioventricular Block (BLOCK HF) Trial Investigators (2013) Biventricular pacing for atrioventricular block and systolic dysfunction. N Engl J Med 368:1585–1593View Article
Metadata
Title
AV timing in pacemaker patients with first-degree AV block: which is preferable, intrinsic AV conduction or pacing?
Authors
Yoshihiro Aizawa
Toshiko Nakai
Yukitoshi Ikeya
Rikitake Kogawa
Yuki Saito
Kazuto Toyama
Tetsuro Yumikura
Naoto Otsuka
Koichi Nagashima
Yasuo Okumura
Publication date
08-02-2022
Publisher
Springer Japan
Published in
Heart and Vessels / Issue 8/2022
Print ISSN: 0910-8327
Electronic ISSN: 1615-2573
DOI
https://doi.org/10.1007/s00380-022-02037-8

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