Frontiers in Cellular Neuroscience (Apr 2023)

NeuroSeg-II: A deep learning approach for generalized neuron segmentation in two-photon Ca2+ imaging

  • Zhehao Xu,
  • Yukun Wu,
  • Jiangheng Guan,
  • Shanshan Liang,
  • Junxia Pan,
  • Meng Wang,
  • Qianshuo Hu,
  • Hongbo Jia,
  • Hongbo Jia,
  • Xiaowei Chen,
  • Xiaowei Chen,
  • Xiaowei Chen,
  • Xiang Liao

DOI
https://doi.org/10.3389/fncel.2023.1127847
Journal volume & issue
Vol. 17

Abstract

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The development of two-photon microscopy and Ca2+ indicators has enabled the recording of multiscale neuronal activities in vivo and thus advanced the understanding of brain functions. However, it is challenging to perform automatic, accurate, and generalized neuron segmentation when processing a large amount of imaging data. Here, we propose a novel deep-learning-based neural network, termed as NeuroSeg-II, to conduct automatic neuron segmentation for in vivo two-photon Ca2+ imaging data. This network architecture is based on Mask region-based convolutional neural network (R-CNN) but has enhancements of an attention mechanism and modified feature hierarchy modules. We added an attention mechanism module to focus the computation on neuron regions in imaging data. We also enhanced the feature hierarchy to extract feature information at diverse levels. To incorporate both spatial and temporal information in our data processing, we fused the images from average projection and correlation map extracting the temporal information of active neurons, and the integrated information was expressed as two-dimensional (2D) images. To achieve a generalized neuron segmentation, we conducted a hybrid learning strategy by training our model with imaging data from different labs, including multiscale data with different Ca2+ indicators. The results showed that our approach achieved promising segmentation performance across different imaging scales and Ca2+ indicators, even including the challenging data of large field-of-view mesoscopic images. By comparing state-of-the-art neuron segmentation methods for two-photon Ca2+ imaging data, we showed that our approach achieved the highest accuracy with a publicly available dataset. Thus, NeuroSeg-II enables good segmentation accuracy and a convenient training and testing process.

Keywords