ICoRD: iterative correlation-based ROI detection method for the extraction of neural signals in calcium imaging

Seongtak Kang, Jiho Park, Kyungsoo Kim, Sung Ho Lim, Samhwan Kim, Joon Ho Choi, Jong Cheol Rah, Ji Woong Choi

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Objective. In vivo calcium imaging is a standard neuroimaging technique that allows selective observation of target neuronal activities. In calcium imaging, neuron activation signals provide key information for the investigation of neural circuits. For efficient extraction of the calcium signals of neurons, selective detection of the region of interest (ROI) pixels corresponding to the active subcellular region of the target neuron is essential. However, current ROI detection methods for calcium imaging data exhibit a relatively low signal extraction performance from neurons with a low signal-to-noise power ratio (SNR). This is problematic because a low SNR is unavoidable in many biological experiments. Approach. Therefore, we propose an iterative correlation-based ROI detection (ICoRD) method that robustly extracts the calcium signal of the target neuron from a calcium imaging series with severe noise. Main results. ICoRD extracts calcium signals closer to the ground-truth calcium signal than the conventional method from simulated calcium imaging data in all low SNR ranges. Additionally, this study confirmed that ICoRD robustly extracts activation signals against noise, even within in vivo environments. Significance. ICoRD showed reliable detection from neurons with a low SNR and sparse activation, which were not detected by conventional methods. ICoRD will facilitate our understanding of neural circuit activity by providing significantly improved ROI detection in noisy images.

Original languageEnglish
Article number046035
JournalJournal of Neural Engineering
Volume19
Issue number4
DOIs
StatePublished - 1 Aug 2022

Bibliographical note

Publisher Copyright:
© 2022 The Author(s). Published by IOP Publishing Ltd.

Keywords

  • calcium imaging
  • denoising
  • region of interest
  • signal-to-noise power ratio

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