Brian Pederson scite author profile

Background-Improvements in cardiac mapping are required to advance our understanding and treatment of arrhythmias.This study validated a new noncontact multielectrode array catheter and accompanying analysis system to provide electroanatomic mapping of the entire left ventricular (LV) endocardium during a single beat. Methods and Results-A 9F 64-electrode balloon array catheter with an inflated size of 1.8ϫ4.6 cm was used to simultaneously record electrical potentials generated by the heart and locate a standard electrophysiology (EP) catheter within the same chamber. By use of the recorded location of the EP-catheter tip, LV geometry was determined. Array potentials served as inputs to a high-order boundary-element method to produce 3360 potential points on the endocardial surface translatable into electrograms or color-coded activation maps. Three methods of validation were used: (1) driven electrodes in an in vitro tank were located; (2) waveforms generated from the array catheter were compared with catheter contact waveforms in canine LV; and (3)

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Mapping of Atrial Activation With a Noncontact, Multielectrode Catheter in Dogs

Kadish

et al. 1999

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Background-Endocardial mapping of sustained arrhythmias has traditionally been performed with a roving diagnostic catheter. Although this approach is adequate for many tachyarrhythmias, it has limitations. The purpose of this study was to evaluate a novel noncontact mapping system for assessing atrial tachyarrhythmias. Methods and Results-The mapping system consists of a 9F multielectrode-array balloon catheter that has 64 active electrodes and ring electrodes for emitting a locator signal. The locator signal was used to construct a 3-dimensional right atrial map; it was independently validated and was highly accurate. Virtual electrograms were calculated at 3360 endocardial sites in the right atrium. We evaluated right atrial activation by positioning the balloon catheter in the mid right atrium via a femoral venous approach. Experiments were performed on 12 normal mongrel dogs. The mean correlation coefficient between contact and virtual electrograms was 0.80Ϯ0.12 during sinus rhythm. Fifty episodes of atrial flutter induced in 11 animals were evaluated. In the majority of experiments, complete or almost complete reentrant circuits could be identified within the right atrium. Mean correlation coefficient between virtual and contact electrograms was 0.85Ϯ0.17 in atrial flutter. One hundred fifty-six episodes of pacing-induced atrial fibrillation were evaluated in 11 animals. Several distinct patterns of right atrial activation were seen, including single-activation wave fronts and multiple simultaneous-activation wave fronts. Mean correlation coefficient between virtual and contact electrograms during atrial fibrillation was 0.81Ϯ0.18. The accuracy of electrogram reconstruction was lower at sites Ͼ4.0 cm from the balloon center and at sites with a high spatial complexity of electrical activation. Conclusions-This novel noncontact mapping system can evaluate conduction patterns during sinus rhythm, demonstrate reentry during atrial flutter, and describe right atrial activation during atrial fibrillation. The accuracy of electrogram reconstruction was good at sites Ͻ4.0 cm from the balloon center, and thus the system has the ability to perform high-resolution multisite mapping of atrial tachyarrhythmias in vivo. (Circulation. 1999;99:1906-1913

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Measurement of Ventricular Volume by Intracardiac Impedance: Theoretical and Empinrcal Approaches

Salo¹,

Wallner²,

Pederson³

1986

IEEE Trans. Biomed. Eng.

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Brian Pederson

Validation of a New Noncontact Catheter System for Electroanatomic Mapping of Left Ventricular Endocardium

Mapping of Atrial Activation With a Noncontact, Multielectrode Catheter in Dogs

Measurement of Ventricular Volume by Intracardiac Impedance: Theoretical and Empinrcal Approaches

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