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Analyzing Event-Related Transients: Confidence Intervals, Permutation Tests, and Consecutive Thresholds

Philip Jean-Richard-dit-Bressel, Colin W. G. Clifford, Gavan P. McNally

2020Frontiers in Molecular Neuroscience105 citationsDOIOpen Access PDF

Abstract

Fiber photometry has enabled neuroscientists to easily measure targeted brain activity patterns in awake, freely behaving animal. A focus of this technique is to identify functionally-relevant changes in activity around particular environmental and/or behavioral events, i.e., event-related activity transients (ERT). A simple and popular approach to identifying ERT is to summarize peri-event signal [e.g., area under the curve (AUC), peak activity, etc.,] and perform standard analyses on this summary statistic. We highlight the various issues with this approach and overview straightforward alternatives: waveform confidence intervals (CIs) and permutation tests. We introduce the rationale behind these approaches, describe the results of Monte Carlo simulations evaluating their effectiveness at controlling Type I and Type II error rates, and offer some recommendations for selecting appropriate analysis strategies for fiber photometry experiments.

Topics & Concepts

StatisticPermutation (music)Confidence intervalComputer scienceEvent (particle physics)ResamplingMonte Carlo methodStatisticsType I and type II errorsMultiple comparisons problemTest statisticStatistical hypothesis testingArtificial intelligenceMachine learningData miningPattern recognition (psychology)MathematicsPhysicsAcousticsQuantum mechanicsNeural dynamics and brain functionFunctional Brain Connectivity StudiesOptical Imaging and Spectroscopy Techniques
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