Your search keyword '"Weizu Ju"' showing total 2 results

1. Arrhythmogenesis of surgical atrial incisions and lesions in Maze procedure: insights from high-resolution mapping of atrial tachycardias

Author

Wei Hu, Dongchen Zhou, Xiangwei Ding, Gang Yang, Hailei Liu, Zidun Wang, Hongwu Chen, Weizu Ju, Mingfang Li, Fengxiang Zhang, Jian Yang, Jie Han, Xianhao Wu, Zhaohui Qiu, Liangrong Zheng, and Minglong Chen

Subjects

Clinical Research, Physiology (medical), Cardiology and Cardiovascular Medicine

Abstract

Background Atrial tachycardias (ATs) frequently develop after a surgical Maze procedure. We aimed to elucidate the electrophysiologic mechanisms and their arrhythmogenic substrates of these ATs. Methods and results We retrospectively reviewed 20 patients (14 females, mean age of 55.5 ± 8.6 years) with post-Maze ATs who underwent high-resolution mapping at three institutions. The slow conduction areas, reentry circuits, voltage signals, complex electrograms, and their correlation with the surgical incisions and lesions placed in the surgical Maze procedures were analyzed. Thirty-six ATs with a mean cycle length of 260.0 ± 67.6 ms were mapped in these patients. Among them, 22 (61.1%) were anatomical macro-reentrant ATs (AMAT), 12 (33.3%) non-AMATs (localized ATs), and 2 (5.6%) focal ATs, respectively. Epicardial conduction bridges were observed in 6/20 (30.0%) patients and 7/36 (19.4%) ATs. Different arrhythmogenic substrates were identified in these ATs, including slow conduction regions within the previous lesion areas or between the incisions and anatomical structures, the prolonged activation pathways caused by the short lesions connecting the tricuspid annulus, and the circuits around the long incisions and/or lesions. Conclusions Reentry is the main mechanism of the post-Maze ATs. The pro-arrhythmic substrates are most likely caused by surgical incisions and lesions. The slow conduction regions and the protected channels yielded from these areas are the major arrhythmogenic factors.

Published

2022

2. Inadvertent transseptal puncture into the aortic root: the narrow edge between luck and catastrophe in interventional cardiology

Author

Jian Ma, De-Yong Long, Karl-Heinz Kuck, Shulin Wu, Xianzhang Zhan, Feifan Ouyang, Hao Chen, Changsheng Ma, Yumei Xue, Lars Eckardt, Kristina Wasmer, Jian-Du Yang, Minglong Chen, Christian-Hendrik Heeger, Weizu Ju, Tilman Maurer, Thomas Fink, Shibu Mathew, Siew Yen Ho, Bing Yang, and Raphael Rosso

Subjects

Male, medicine.medical_specialty, medicine.medical_treatment, Iatrogenic Disease, Aorta, Thoracic, Catheter ablation, Punctures, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Cardiac tamponade, medicine.artery, Ascending aorta, medicine, Humans, 030212 general & internal medicine, Cardiac Surgical Procedures, Retrospective Studies, Surgical repair, Aorta, Atrial Septum, Interventional cardiology, business.industry, Angiography, Middle Aged, medicine.disease, Cardiac surgery, Surgery, Pericardiocentesis, Female, Cardiology and Cardiovascular Medicine, business

Abstract

Aims Inadvertent puncture of the aortic root (AR) is a well-known complication of transseptal puncture (TSP). Strategies for handling of this potentially lethal complication have not been identified yet. In this study, we present typical anatomical locations and clinical management of aortic root puncture (ARP) due to TSP. Methods and results All patients with ARP were retrospectively collected from seven hospitals. Aortic root puncture was identified and classified regarding angiographical and intraoperative findings in cardiac surgery: (i) TSP from the right atrium (RA) to the non-coronary sinus (NCS), (ii) TSP from RA to the non-coronary sinutubular junction (STJ), and (iii) TSP from RA to the ascending aorta (AA). A total of 24 patients with inadvertent ARP were identified. In 19 patients, penetration of the aorta was accomplished by the inner dilator, in 5 patients by the complete sheath. Previous cardiac surgery had been performed in six patients. There were 13 RA-to-NCS punctures, 2 RA-to-STJ punctures, and 9 RA-to-AA punctures. No cardiac tamponade (CT) occurred in patients with RA-to-NCS and RA-to-STJ punctures. In 8 of 9 patients with RA-to-AA puncture, CT occurred immediately requiring urgent pericardiocentesis and surgical repair. Two patients died after surgical repair. In the 16 patients without surgical therapy, no shunt from the AR to the RA was observed 3 months after the procedure. Conclusion Aortic root puncture due to mislead TSP via NCS or STJ is usually not associated with a severe clinical course while ARP into the AA via the epicardial space generally leads to CT requiring surgical repair.

Published

2019