A novel dynamic network imaging analysis method reveals aging-related fragmentation of cortical networks in mouse

Llano, Daniel A.; Ma, Chihua; Fabrizio, Umberto Di; Taheri, Aynaz; Stebbings, Kevin A.; Yudintsev, Georgiy; Xiao, Gang; Kenyon, Robert V.; Berger-Wolf, Tanya Y.

doi:10.1162/netn_a_00191

Cited by 2 publications

(7 citation statements)

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“…along the Z axis. The community datasets were generated using the CommDy Algorithm (Llano et al, 2021;. Three-dimensional point clouds may also be generated for raw and the first derivative of intensities (Figure 8).…”

Section: Methodsmentioning

confidence: 99%

“…Data extraction comprised five steps: capturing images from tissue preparation, composed image generation, labeling and outlining of ROIs (individual somata), extraction of centroid coordinates from the ROI, and activity time course extraction (Tanzi, 2017). The time series of spontaneous calcium signals were then processed using either a K ‐means clustering or a dynamic community algorithm discussed in (Llano et al, 2021; Tantipathananandh & Berger‐Wolf, 2011) which identifies dynamically organized clusters of neurons. These clusters are then visualized using the V‐NeuroStack application.…”

Section: Data Processingmentioning

confidence: 99%

“…We then create a network with neurons as nodes and the correlation coefficient between them as edges. This network is then fed to a K ‐means clustering or CommDy algorithm (Llano et al, 2021; Tantipathananandh & Berger‐Wolf, 2011) for the network analysis. This is followed by visualizing the networks using V‐NeuroStack.…”

Section: Data Processingmentioning

confidence: 99%

“…K ‐means clustering, which has been broadly used in the biology to identify networks of interacting biological entities, was applied to the datasets. In addition, a newer algorithm, known as community dynamic analysis (Llano et al, 2021; Tantipathananandh & Berger‐Wolf, 2011) was used to infer dynamic communities. These approaches generated clusters that were then used as inputs to our visualization tool for exploration and analysis.…”

Section: Introductionmentioning

confidence: 99%

“…Highlights of V‐NeuroStack Application applied to in vitro data. (a) Shows V‐NeuroStack with dataset created using CommDy algorithm (Llano et al, 2021; Tantipathananandh & Berger‐Wolf, 2011) with window size 100 frames and correlation coefficient threshold of 0.9. (b1–b3) Show detailed views of timesteps in A with columnar clusters.…”

Section: Introductionmentioning

confidence: 99%

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V‐NeuroStack: Open‐source 3D time stack software for identifying patterns in neuronal data

Naik

Kenyon

Taheri

et al. 2022

J of Neuroscience Research

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Understanding functional correlations between the activities of neuron populations is vital for the analysis of neuronal networks. Analyzing large‐scale neuroimaging data obtained from hundreds of neurons simultaneously poses significant visualization challenges. We developed V‐NeuroStack, a novel network visualization tool to visualize data obtained using calcium imaging of spontaneous activity of neurons in a mouse brain slice as well as in vivo using two‐photon imaging. V‐NeuroStack creates 3D time stacks by stacking 2D time frames for a time‐series dataset. It provides a web interface to explore and analyze data using both 3D and 2D visualization techniques. Previous attempts to analyze such data have been limited by the tools available to visualize large numbers of correlated activity traces. V‐NeuroStack's 3D view is used to explore patterns in dynamic large‐scale correlations between neurons over time. The 2D view is used to examine any timestep of interest in greater detail. Furthermore, a dual‐line graph provides the ability to explore the raw and first‐derivative values of activity from an individual or a functional cluster of neurons. V‐NeuroStack can scale to datasets with at least a few thousand temporal snapshots. It can potentially support future advancements in in vitro and in vivo data capturing techniques to bring forth novel hypotheses by allowing unambiguous visualization of massive patterns in neuronal activity data.

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Section: Methodsmentioning

confidence: 99%

Section: Data Processingmentioning

confidence: 99%

Section: Data Processingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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V‐NeuroStack: Open‐source 3D time stack software for identifying patterns in neuronal data

Naik

Kenyon

Taheri

et al. 2022

J of Neuroscience Research

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Age‐ and sex‐dependent alterations in primary somatosensory cortex neuronal calcium network dynamics during locomotion

2023

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Over the past 30 years, the calcium (Ca2+) hypothesis of brain aging has provided clear evidence that hippocampal neuronal Ca2+ dysregulation is a key biomarker of aging. Age‐dependent Ca2+‐mediated changes in intrinsic excitability, synaptic plasticity, and activity have helped identify some of the mechanisms engaged in memory and cognitive decline based on work done mostly at the single‐cell level and in the slice preparation. Recently, our lab identified age‐ and Ca2+‐related neuronal network dysregulation in the cortex of the anesthetized animal. Still, investigations in the awake animal are needed to test the generalizability of the Ca2+ hypothesis of brain aging. Here, we used in vigilo two‐photon imaging in ambulating mice, to image GCaMP8f in the primary somatosensory cortex (S1), during ambulation and at rest. We investigated aging‐ and sex‐related changes in neuronal networks in the C56BL/6J mouse. Following imaging, gait behavior was characterized to test for changes in locomotor stability. During ambulation, in both young adult and aged mice, an increase in network connectivity and synchronicity was noted. An age‐dependent increase in synchronicity was seen in ambulating aged males only. Additionally, females displayed increases in the number of active neurons, Ca2+ transients, and neuronal activity compared to males, particularly during ambulation. These results suggest S1 Ca2+ dynamics and network synchronicity are likely contributors of locomotor stability. We believe this work raises awareness of age‐ and sex‐dependent alterations in S1 neuronal networks, perhaps underlying the increase in falls with age.

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A novel dynamic network imaging analysis method reveals aging-related fragmentation of cortical networks in mouse

Cited by 2 publications

References 100 publications

V‐NeuroStack: Open‐source 3D time stack software for identifying patterns in neuronal data

V‐NeuroStack: Open‐source 3D time stack software for identifying patterns in neuronal data

Age‐ and sex‐dependent alterations in primary somatosensory cortex neuronal calcium network dynamics during locomotion

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