Simultaneous optical mapping and microelectrode array recordings demonstrated a direct correlation between action potential duration (APD90) and field potential duration (FPD) in human ventricular slices (r2=0.64, p<0.0001).
A novel dual-modality system successfully demonstrated direct, concurrent correlations between cellular action potentials and extracellular electrograms, providing a tool to investigate the cellular basis of clinical electrogram morphology.
Effect estimate: r2 = 0.64
p-value: p=<0.0001
The contact cardiac electrogram is derived from the extracellular manifestation of cellular action potentials and cell-to-cell communication. It is used to guide catheter based clinical procedures. Theoretically, the contact electrogram and the cellular action potential are directly related, and should change in conjunction with each other during arrhythmogenesis, however there is currently no methodology by which to concurrently record both electrograms and action potentials in the same preparation for direct validation of their relationships and their direct mechanistic links. We report a novel dual modality apparatus for concurrent electrogram and cellular action potential recording at a single cell level within multicellular preparations. We further demonstrate the capabilities of this system to validate the direct link between these two modalities of voltage recordings.
Chowdhury et al. (Thu,) conducted a other in Heart failure. Dual modality optical mapping and microelectrode array recording vs. Baseline state was evaluated on Correlation between action potential duration at 90% repolarization (APD90) and field potential duration (FPD) in human ventricular slices (r2 = 0.64, p=<0.0001). Simultaneous optical mapping and microelectrode array recordings demonstrated a direct correlation between action potential duration (APD90) and field potential duration (FPD) in human ventricular slices (r2=0.64, p<0.0001).
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