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Current Advance, Challenges and Future Perspectives of Conduction System Pacing

Existing techniques for pacing the right ventricle and providing cardiac resynchronization therapy through biventricular pacing are not effective in restoring damage to the conduction system. Therefore, the need for new pacing modalities and techniques with more sensible designs and algorithms is justified. Although the benefits of conduction system pacing (CSP), which mainly include His bundle pacing (HBP) and left bundle branch area pacing (LBBAP), are evident in patients who require conduction system recuperation, the critical criteria for left CSP remain unclear, and the roles of different pacing modalities of CSP for cardiac resynchronization are not definite. In this review, we aimed to highlight the advantages of different CSP options, current advancement in the surgical devices, and future directions.

IMR Press

Tong-yu Wang Pei-pei Ma Yi-heng Yang Yun-long Xia Zhao-meng Jing Zhuang-chuan She Ying-xue Dong

Reviews in Cardiovascular Medicine

2024

Title: Current Advance, Challenges and Future Perspectives of Conduction System Pacing

Description:

Existing techniques for pacing the right ventricle and providing cardiac resynchronization therapy through biventricular pacing are not effective in restoring damage to the conduction system.

Therefore, the need for new pacing modalities and techniques with more sensible designs and algorithms is justified.

Although the benefits of conduction system pacing (CSP), which mainly include His bundle pacing (HBP) and left bundle branch area pacing (LBBAP), are evident in patients who require conduction system recuperation, the critical criteria for left CSP remain unclear, and the roles of different pacing modalities of CSP for cardiac resynchronization are not definite.

In this review, we aimed to highlight the advantages of different CSP options, current advancement in the surgical devices, and future directions.

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Current Advance, Challenges and Future Perspectives of Conduction System Pacing

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