Localization of Accessory Pathways in the Wolff-Parkinson-White Pattern-Physician Versus Computer Interpretation of the Same Algorithm

Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave...

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Published in	Pacing and clinical electrophysiology Vol. 30; no. 8; pp. 998 - 1002
Main Authors	McGAVIGAN, ANDREW D., CLARK, ELAINE, QUINN, F. RUSSELL, RANKIN, ANDREW C., MACFARLANE, PETER W.
Format	Journal Article
Language	English
Published	Malden, USA Blackwell Publishing Inc 01.08.2007
Subjects	ablation Adolescent Adult Algorithms Atrioventricular Node - physiopathology Catheter Ablation Clinical Competence computing Decision Trees electrocardiogram Electrocardiography Female Humans Male Reproducibility of Results Retrospective Studies Signal Processing, Computer-Assisted Wolff-Parkinson-White Syndrome - physiopathology Wolff-Parkinson-White Syndrome - surgery
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ISSN	0147-8389 1540-8159
DOI	10.1111/j.1540-8159.2007.00798.x

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Abstract	Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers3 against physician assessment with the same algorithm. Methods: Thirty‐one 12‐lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic. Results: The agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data. Conclusion: This study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation.
AbstractList	Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers 3 against physician assessment with the same algorithm. Methods: Thirty‐one 12‐lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic. Results: The agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data. Conclusion: This study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation. There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff-Parkinson-White syndrome from the 12-lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers(3) against physician assessment with the same algorithm.BACKGROUNDThere are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff-Parkinson-White syndrome from the 12-lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers(3) against physician assessment with the same algorithm.Thirty-one 12-lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic.METHODSThirty-one 12-lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic.The agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data.RESULTSThe agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data.This study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation.CONCLUSIONThis study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation. Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers3 against physician assessment with the same algorithm. Methods: Thirty‐one 12‐lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic. Results: The agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data. Conclusion: This study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation. There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff-Parkinson-White syndrome from the 12-lead electrocardiogram (ECG). Most depend on stepwise criteria, and minor disagreements between observers over QRS transition point or delta wave axis may lead to different classification of pathway location. We compared the utility of a computerized program in identifying pathway location from the ECG using the algorithm published by Fitzpatrick and coworkers(3) against physician assessment with the same algorithm. Thirty-one 12-lead ECGs with an overt preexcitation pattern were examined by three physicians and AP localized to one of eight anatomical sites using the Fitzpatrick algorithm, with disagreements resolved by consensus. Similarly, pathway location was determined by the Glasgow ECG program with the Fitzpatrick algorithm incorporated into its logic. The agreement between each physician and their consensus was 28/31, 29/31, and 29/31. Similarly, assessment by the Glasgow program produced agreement with the physician consensus in 29/31 cases. Of the 24 patients who underwent radiofrequency ablation, the program localized the pathway to the true or adjacent annular region in 20, compared to 20/24 by physician assessment of the algorithm, producing a similar predictive accuracy to published data. This study has shown that incorporation of the Fitzpatrick algorithm for AP location into a widely used computer program results in the same level of performance as that of experienced physicians and may be useful in clinical practice as an aid to referral for electrophysiological study and ablation.
Author	CLARK, ELAINE QUINN, F. RUSSELL McGAVIGAN, ANDREW D. MACFARLANE, PETER W. RANKIN, ANDREW C.
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References	Macfarlane PW, Devine B, Latif S, McLaughlin S, Shoat DB, Watts MP. Methodology of ECG interpretation in the Glasgow program. Methods Inf Med 1990; 29:354-361. Fitzpatrick AP, Gonzales RP, Lesh MD, Modin GW, Lee RJ, Scheinman MM. New algorithm for the localization of accessory atrioventricular connections using a baseline electrocardiogram. J Am Coll Cardiol 1994; 23:107-116. Rosenbaum F, Hecht HH, Wilson FN, Johnstone FD. The potential variations of the thorax and the esophagus in anomalous atrioventricular excitation (Wolff-Parkinson-White syndrome). Am Heart J 1945; 29:281. Arruda MS, McClelland JH, Wang X, Beckman KJ, Widman LE, Gonzalez MD, et al. Development and validation of an ECG algorithm for identifying accessory pathway ablation site in Wolff-Parkinson-White syndrome. J Cardiovasc Electrophysiol 1998; 9:2-12. Yuan S, Iwa T, Tsubota M, Bando H. Comparative study of eight sets of ECG criteria for the localization of the accessory pathway in the Wolff-Parkinson-White Syndrome. J Electrocardiol 1992; 25:203-214. Tonkin AM, Wagner G, Gallagher JJ. Initial forces of ventricular depolarization in the Wolff-Parkinson-White syndrome. Analysis based upon localization of the accessory pathway by epicardial mapping. Circulation 1975; 52:1030-1036. Macfarlane PW, Devine B, Clark E. The University of Glasgow (Uni-G) ECG analysis program. Comput Cardiol 2005; 32:451-454. 1994; 23 2005; 32 1975; 52 1992; 25 1945; 29 1990; 29 1998; 9 e_1_2_7_5_2 e_1_2_7_4_2 e_1_2_7_3_2 e_1_2_7_2_2 e_1_2_7_8_2 e_1_2_7_7_2 e_1_2_7_6_2
References_xml	– reference: Rosenbaum F, Hecht HH, Wilson FN, Johnstone FD. The potential variations of the thorax and the esophagus in anomalous atrioventricular excitation (Wolff-Parkinson-White syndrome). Am Heart J 1945; 29:281. – reference: Tonkin AM, Wagner G, Gallagher JJ. Initial forces of ventricular depolarization in the Wolff-Parkinson-White syndrome. Analysis based upon localization of the accessory pathway by epicardial mapping. Circulation 1975; 52:1030-1036. – reference: Macfarlane PW, Devine B, Clark E. The University of Glasgow (Uni-G) ECG analysis program. Comput Cardiol 2005; 32:451-454. – reference: Fitzpatrick AP, Gonzales RP, Lesh MD, Modin GW, Lee RJ, Scheinman MM. New algorithm for the localization of accessory atrioventricular connections using a baseline electrocardiogram. J Am Coll Cardiol 1994; 23:107-116. – reference: Arruda MS, McClelland JH, Wang X, Beckman KJ, Widman LE, Gonzalez MD, et al. Development and validation of an ECG algorithm for identifying accessory pathway ablation site in Wolff-Parkinson-White syndrome. J Cardiovasc Electrophysiol 1998; 9:2-12. – reference: Macfarlane PW, Devine B, Latif S, McLaughlin S, Shoat DB, Watts MP. Methodology of ECG interpretation in the Glasgow program. Methods Inf Med 1990; 29:354-361. – reference: Yuan S, Iwa T, Tsubota M, Bando H. Comparative study of eight sets of ECG criteria for the localization of the accessory pathway in the Wolff-Parkinson-White Syndrome. J Electrocardiol 1992; 25:203-214. – volume: 29 start-page: 281 year: 1945 article-title: The potential variations of the thorax and the esophagus in anomalous atrioventricular excitation (Wolff‐Parkinson‐White syndrome) publication-title: Am Heart J – volume: 9 start-page: 2 year: 1998 end-page: 12 article-title: Development and validation of an ECG algorithm for identifying accessory pathway ablation site in Wolff‐Parkinson‐White syndrome publication-title: J Cardiovasc Electrophysiol – volume: 23 start-page: 107 year: 1994 end-page: 116 article-title: New algorithm for the localization of accessory atrioventricular connections using a baseline electrocardiogram publication-title: J Am Coll Cardiol – volume: 32 start-page: 451 year: 2005 end-page: 454 article-title: The University of Glasgow (Uni‐G) ECG analysis program publication-title: Comput Cardiol – volume: 52 start-page: 1030 year: 1975 end-page: 1036 article-title: Initial forces of ventricular depolarization in the Wolff‐Parkinson‐White syndrome publication-title: Circulation – volume: 29 start-page: 354 year: 1990 end-page: 361 article-title: Methodology of ECG interpretation in the Glasgow program publication-title: Methods Inf Med – volume: 25 start-page: 203 year: 1992 end-page: 214 article-title: Comparative study of eight sets of ECG criteria for the localization of the accessory pathway in the Wolff‐Parkinson‐White Syndrome publication-title: J Electrocardiol – ident: e_1_2_7_4_2 doi: 10.1016/0735-1097(94)90508-8 – ident: e_1_2_7_6_2 doi: 10.1055/s-0038-1634799 – ident: e_1_2_7_2_2 doi: 10.1016/0002-8703(45)90333-4 – ident: e_1_2_7_5_2 doi: 10.1111/j.1540-8167.1998.tb00861.x – ident: e_1_2_7_3_2 doi: 10.1161/01.CIR.52.6.1030 – ident: e_1_2_7_7_2 doi: 10.1109/CIC.2005.1588134 – ident: e_1_2_7_8_2 doi: 10.1016/0022-0736(92)90005-K
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Snippet	Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead... Background: There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff‐Parkinson‐White syndrome from the 12‐lead... There are several published algorithms for the prediction of accessory pathway (AP) location in the Wolff-Parkinson-White syndrome from the 12-lead...
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SubjectTerms	ablation Adolescent Adult Algorithms Atrioventricular Node - physiopathology Catheter Ablation Clinical Competence computing Decision Trees electrocardiogram Electrocardiography Female Humans Male Reproducibility of Results Retrospective Studies Signal Processing, Computer-Assisted Wolff-Parkinson-White Syndrome - physiopathology Wolff-Parkinson-White Syndrome - surgery
Title	Localization of Accessory Pathways in the Wolff-Parkinson-White Pattern-Physician Versus Computer Interpretation of the Same Algorithm
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