Conduction system pacing in heart failure: Time for a paradigm shift?

Heart failure (HF) is a major clinical challenge characterized by significant morbidity and mortality. Electrical conduction abnormalities play a critical role in HF pathophysiology and progression, often leading to suboptimal outcomes with conventional pacing techniques. Con-duction system pacing (CSP), encompassing His bundle pacing and left bundle branch area pacing, has emerged as a novel approach. Despite data come from observational studies, recent guidelines recommend that a specific population may benefit from CSP. However, significant practical considerations and challenges need to be clarified before CSP can be routinely implemented in clinical practice. The reliance on observational studies means that long-term clinical outcomes for HF patients remain uncertain until data from randomized controlled trials (RCTs) become available. Current CSP practices face challenges with lead implantation, mechanical stress on leads, and the need for more advanced tools and artificial intelligence integration to improve procedure efficacy and safety. Future large-scale RCTs are essential to identify optimal candidates and address these technical challenges, potentially leading to a paradigm shift in HF management.