High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation

Pawel Kuklik; Dennis H Lau; Anand N Ganesan; Anthony G Brooks; Prashanthan Sanders

doi:10.1016/j.ijcard.2015.07.057

High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation

Standard

High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation. / Kuklik, Pawel; Lau, Dennis H; Ganesan, Anand N; Brooks, Anthony G; Sanders, Prashanthan.

in: INT J CARDIOL, Jahrgang 199, 15.11.2015, S. 407-414.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Kuklik, P, Lau, DH, Ganesan, AN, Brooks, AG & Sanders, P 2015, 'High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation', INT J CARDIOL, Jg. 199, S. 407-414. https://doi.org/10.1016/j.ijcard.2015.07.057

APA

Kuklik, P., Lau, D. H., Ganesan, A. N., Brooks, A. G., & Sanders, P. (2015). High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation. INT J CARDIOL, 199, 407-414. https://doi.org/10.1016/j.ijcard.2015.07.057

Vancouver

Kuklik P, Lau DH, Ganesan AN, Brooks AG, Sanders P. High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation. INT J CARDIOL. 2015 Nov 15;199:407-414. https://doi.org/10.1016/j.ijcard.2015.07.057

Bibtex

@article{7758b64f3c3145c299d032cdf4bbefa3,

title = "High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation",

abstract = "BACKGROUND: Temporal dynamics of electrical wave propagation during AF is unknown. There are reports of transient linking of atrial activation. We aim to characterize temporal dynamics of wave propagation patterns during AF in an established chronically remodeled substrate.METHODS: Bi-atrial epicardial mapping of AF (mean duration 62±61s) was performed in 13 sheep with induced hypertension using custom-designed plaques. Wave propagation patterns were classified into periods of repetitive activity termed modes.RESULTS: In total, we identified 9241 distinct depolarization events which were classified as: passing wave (69% occurrence, 68.6% of total time), point source (20.4%, 13.1%), wave collision (4%, 2.8%), re-entrant wave (0.7%, 6.3%), half-rotation (2.9%, 4.4%), wave splitting (2.7%, 4.3%), conduction block (0.05%, 0.03%) and figure of eight reentry (0.05%, 0.05%). Episodes of re-entrant activity had mean length 701±1012ms. A total of 435 modes of distinct periods of repetitive activity were detected (121 in LA and 314 in RA). Looking at temporal changes between modes, we found a preferential transition: change between train of waves propagating from direction of coronary sinus and reentrant activity. High density mapping of the hypertensive fibrillating atria observed 20% point sources and 0.7% of reentrant activation which may have served as drivers of AF. Remaining activations were peripheral waves. Majority of the activation was organized into events of transient linking with existence of preferential types of transitions.CONCLUSIONS: These findings support the importance of substrate based regions of anatomically or functionally determined preferential conduction in the maintenance of AF.",

keywords = "Animals, Atrial Fibrillation/physiopathology, Brugada Syndrome/physiopathology, Cardiac Conduction System Disease, Disease Models, Animal, Epicardial Mapping/methods, Heart Atria/physiopathology, Heart Conduction System/physiopathology, Hypertension/physiopathology, Sheep",

author = "Pawel Kuklik and Lau, {Dennis H} and Ganesan, {Anand N} and Brooks, {Anthony G} and Prashanthan Sanders",

year = "2015",

month = nov,

day = "15",

doi = "10.1016/j.ijcard.2015.07.057",

language = "English",

volume = "199",

pages = "407--414",

journal = "INT J CARDIOL",

issn = "0167-5273",

publisher = "Elsevier Ireland Ltd",

}

RIS

TY - JOUR

T1 - High-density mapping of atrial fibrillation in a chronic substrate: evidence for distinct modes of repetitive wavefront propagation

AU - Kuklik, Pawel

AU - Lau, Dennis H

AU - Ganesan, Anand N

AU - Brooks, Anthony G

AU - Sanders, Prashanthan

PY - 2015/11/15

Y1 - 2015/11/15

N2 - BACKGROUND: Temporal dynamics of electrical wave propagation during AF is unknown. There are reports of transient linking of atrial activation. We aim to characterize temporal dynamics of wave propagation patterns during AF in an established chronically remodeled substrate.METHODS: Bi-atrial epicardial mapping of AF (mean duration 62±61s) was performed in 13 sheep with induced hypertension using custom-designed plaques. Wave propagation patterns were classified into periods of repetitive activity termed modes.RESULTS: In total, we identified 9241 distinct depolarization events which were classified as: passing wave (69% occurrence, 68.6% of total time), point source (20.4%, 13.1%), wave collision (4%, 2.8%), re-entrant wave (0.7%, 6.3%), half-rotation (2.9%, 4.4%), wave splitting (2.7%, 4.3%), conduction block (0.05%, 0.03%) and figure of eight reentry (0.05%, 0.05%). Episodes of re-entrant activity had mean length 701±1012ms. A total of 435 modes of distinct periods of repetitive activity were detected (121 in LA and 314 in RA). Looking at temporal changes between modes, we found a preferential transition: change between train of waves propagating from direction of coronary sinus and reentrant activity. High density mapping of the hypertensive fibrillating atria observed 20% point sources and 0.7% of reentrant activation which may have served as drivers of AF. Remaining activations were peripheral waves. Majority of the activation was organized into events of transient linking with existence of preferential types of transitions.CONCLUSIONS: These findings support the importance of substrate based regions of anatomically or functionally determined preferential conduction in the maintenance of AF.

AB - BACKGROUND: Temporal dynamics of electrical wave propagation during AF is unknown. There are reports of transient linking of atrial activation. We aim to characterize temporal dynamics of wave propagation patterns during AF in an established chronically remodeled substrate.METHODS: Bi-atrial epicardial mapping of AF (mean duration 62±61s) was performed in 13 sheep with induced hypertension using custom-designed plaques. Wave propagation patterns were classified into periods of repetitive activity termed modes.RESULTS: In total, we identified 9241 distinct depolarization events which were classified as: passing wave (69% occurrence, 68.6% of total time), point source (20.4%, 13.1%), wave collision (4%, 2.8%), re-entrant wave (0.7%, 6.3%), half-rotation (2.9%, 4.4%), wave splitting (2.7%, 4.3%), conduction block (0.05%, 0.03%) and figure of eight reentry (0.05%, 0.05%). Episodes of re-entrant activity had mean length 701±1012ms. A total of 435 modes of distinct periods of repetitive activity were detected (121 in LA and 314 in RA). Looking at temporal changes between modes, we found a preferential transition: change between train of waves propagating from direction of coronary sinus and reentrant activity. High density mapping of the hypertensive fibrillating atria observed 20% point sources and 0.7% of reentrant activation which may have served as drivers of AF. Remaining activations were peripheral waves. Majority of the activation was organized into events of transient linking with existence of preferential types of transitions.CONCLUSIONS: These findings support the importance of substrate based regions of anatomically or functionally determined preferential conduction in the maintenance of AF.

KW - Animals

KW - Atrial Fibrillation/physiopathology

KW - Brugada Syndrome/physiopathology

KW - Cardiac Conduction System Disease

KW - Disease Models, Animal

KW - Epicardial Mapping/methods

KW - Heart Atria/physiopathology

KW - Heart Conduction System/physiopathology

KW - Hypertension/physiopathology

KW - Sheep

U2 - 10.1016/j.ijcard.2015.07.057

DO - 10.1016/j.ijcard.2015.07.057

M3 - SCORING: Journal article

C2 - 26253050

VL - 199

SP - 407

EP - 414

JO - INT J CARDIOL

JF - INT J CARDIOL

SN - 0167-5273

ER -