BACKGROUND: Atrial ectopic discharges originating in the pulmonary veins (PVs) are known to initiate atrial fibrillation (AF), which may be terminated by catheter-based PV isolation. Because a functional relationship exists between cardiac autonomic effects and PVs in arrhythmogenesis, it has been suggested that discharges of the nerves that proceed to the PVs and interconnect with intrinsic ganglionated nerve plexuses are potential triggers of AF in man. OBJECTIVE: This study sought to determine the characteristics and distribution of neural routes by which autonomic nerves supply the human PVs. METHODS: We examined the intrinsic neural structures of 35 intact (nonsectioned) left atrial (LA)-PV complexes stained transmurally for acetylcholinesterase using a stereomicroscope. RESULTS: The epicardial ganglionated nerves pass onto the extrapulmonary segments of the human PVs from the middle, left dorsal, and dorsal right atrial subplexuses. The left and right inferior PVs involved a lesser number of ganglia than the left and right superior PVs. Abundant extensions of epicardial nerves penetrate transmurally the PV walls and form a patchy neural network beneath the endothelium of PVs. The subendothelial neural meshwork with numerous free nerve endings, which appeared to be typical sensory compact nerve endings, was mostly situated at the roots of the 4 PVs. No ganglia were identified beneath the endothelium of the human PVs. CONCLUSION: The richest areas containing epicardial ganglia, from which intrinsic nerves extend to the human PVs, are concentrated at the inferior surface of both the inferior and left superior PVs. Therefore, these locations might be considered as potential targets for focal pulmonary vein ablation in catheter-based therapy of AF.
BACKGROUND: Atrial ectopic discharges originating in the pulmonary veins (PVs) are known to initiate atrial fibrillation (AF), which may be terminated by catheter-based PV isolation. Because a functional relationship exists between cardiac autonomic effects and PVs in arrhythmogenesis, it has been suggested that discharges of the nerves that proceed to the PVs and interconnect with intrinsic ganglionated nerve plexuses are potential triggers of AF in man. OBJECTIVE: This study sought to determine the characteristics and distribution of neural routes by which autonomic nerves supply the human PVs. METHODS: We examined the intrinsic neural structures of 35 intact (nonsectioned) left atrial (LA)-PV complexes stained transmurally for acetylcholinesterase using a stereomicroscope. RESULTS: The epicardial ganglionated nerves pass onto the extrapulmonary segments of the human PVs from the middle, left dorsal, and dorsal right atrial subplexuses. The left and right inferior PVs involved a lesser number of ganglia than the left and right superior PVs. Abundant extensions of epicardial nerves penetrate transmurally the PV walls and form a patchy neural network beneath the endothelium of PVs. The subendothelial neural meshwork with numerous free nerve endings, which appeared to be typical sensory compact nerve endings, was mostly situated at the roots of the 4 PVs. No ganglia were identified beneath the endothelium of the human PVs. CONCLUSION: The richest areas containing epicardial ganglia, from which intrinsic nerves extend to the human PVs, are concentrated at the inferior surface of both the inferior and left superior PVs. Therefore, these locations might be considered as potential targets for focal pulmonary vein ablation in catheter-based therapy of AF.
Authors: Sami F Noujaim; Kuljeet Kaur; Michelle Milstein; Julie M Jones; Philip Furspan; Daniel Jiang; David S Auerbach; Todd Herron; Miriam H Meisler; José Jalife Journal: FASEB J Date: 2011-09-24 Impact factor: 5.191
Authors: Hugh Calkins; Karl Heinz Kuck; Riccardo Cappato; Josep Brugada; A John Camm; Shih-Ann Chen; Harry J G Crijns; Ralph J Damiano; D Wyn Davies; John DiMarco; James Edgerton; Kenneth Ellenbogen; Michael D Ezekowitz; David E Haines; Michel Haissaguerre; Gerhard Hindricks; Yoshito Iesaka; Warren Jackman; Jose Jalife; Pierre Jais; Jonathan Kalman; David Keane; Young-Hoon Kim; Paulus Kirchhof; George Klein; Hans Kottkamp; Koichiro Kumagai; Bruce D Lindsay; Moussa Mansour; Francis E Marchlinski; Patrick M McCarthy; J Lluis Mont; Fred Morady; Koonlawee Nademanee; Hiroshi Nakagawa; Andrea Natale; Stanley Nattel; Douglas L Packer; Carlo Pappone; Eric Prystowsky; Antonio Raviele; Vivek Reddy; Jeremy N Ruskin; Richard J Shemin; Hsuan-Ming Tsao; David Wilber Journal: J Interv Card Electrophysiol Date: 2012-03 Impact factor: 1.900
Authors: José L Báez-Escudero; Takehiko Keida; Amish S Dave; Kaoru Okishige; Miguel Valderrábano Journal: J Am Coll Cardiol Date: 2014-02-19 Impact factor: 24.094