Roshini Asirvatham scite author profile

PurposeThe aim of this proof-of-concept study is to introduce new high-dynamic ECG technique with potential to detect temporal-spatial distribution of ventricular electrical depolarization and to assess the level of ventricular dyssynchrony.Methods5-kHz 12-lead ECG data was collected. The amplitude envelopes of the QRS were computed in an ultra-high frequency band of 500–1000 Hz and were averaged (UHFQRS). UHFQRS V lead maps were compiled, and numerical descriptor identifying ventricular dyssynchrony (UHFDYS) was detected.ResultsAn electrical UHFQRS maps describe the ventricular dyssynchrony distribution in resolution of milliseconds and correlate with strain rate results obtained by speckle tracking echocardiography. The effect of biventricular stimulation is demonstrated by the UHFQRS morphology and by the UHFDYS descriptor in selected examples.ConclusionsUHFQRS offers a new and simple technique for assessing electrical activation patterns in ventricular dyssynchrony with a temporal-spatial resolution that cannot be obtained by processing standard surface ECG. The main clinical potential of UHFQRS lies in the identification of differences in electrical activation among CRT candidates and detection of improvements in electrical synchrony in patients with biventricular pacing.Electronic supplementary materialThe online version of this article (doi:10.1007/s10840-017-0268-0) contains supplementary material, which is available to authorized users.

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Trends in Cardiovascular Implantable Electronic Device Insertion Between 1988 and 2018 in Olmsted County

Vaidya

Asirvatham

Kowlgi

et al. 2022

JACC: Clinical Electrophysiology

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Nanostim leadless pacemaker retrieval and simultaneous micra leadless pacemaker replacement: a single-center experience

Asirvatham

Vaidya

Thome

et al. 2019

J Interv Card Electrophysiol

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