Journal
ANNALS OF BIOMEDICAL ENGINEERING
Volume 39, Issue 1, Pages 469-483Publisher
SPRINGER
DOI: 10.1007/s10439-010-0170-8
Keywords
Gastric electrical activity; High-resolution mapping; Activation map; Automated detection; Cycle partitioning
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Funding
- New Zealand HRC
- NIH [RO1 DK64775]
- American Neurogastroenterology and Motility Society (ANMS)
- NZ Society of Gastroenterology/Ferring Pharmaceuticals
- NATIONAL INSTITUTE OF DIABETES AND DIGESTIVE AND KIDNEY DISEASES [R01DK064775] Funding Source: NIH RePORTER
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High-resolution (HR) multi-electrode mapping has become an important technique for evaluating gastrointestinal (GI) slow wave (SW) behaviors. However, the application and uptake of HR mapping has been constrained by the complex and laborious task of analyzing the large volumes of retrieved data. Recently, a rapid and reliable method for automatically identifying activation times (ATs) of SWs was presented, offering substantial efficiency gains. To extend the automated data-processing pipeline, novel automated methods are needed for partitioning identified ATs into their propagation cycles, and for visualizing the HR spatiotemporal maps. A novel cycle partitioning algorithm (termed REGROUPS) is presented. REGROUPS employs an iterative REgion GROwing procedure and incorporates a Polynomial-surface-estimate Stabilization step, after initiation by an automated seed selection process. Automated activation map visualization was achieved via an isochronal contour mapping algorithm, augmented by a heuristic 2-step scheme. All automated methods were collectively validated in a series of experimental test cases of normal and abnormal SW propagation, including instances of patchy data quality. The automated pipeline performance was highly comparable to manual analysis, and outperformed a previously proposed partitioning approach. These methods will substantially improve the efficiency of GI HR mapping research.
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