NeuroART: Real-Time Analysis and Targeting of Neuronal Population Activity during Calcium Imaging for Informed Closed-Loop Experiments.

IF 2.7 3区 医学 Q3 NEUROSCIENCES
eNeuro Pub Date : 2024-10-16 Print Date: 2024-10-01 DOI:10.1523/ENEURO.0079-24.2024
Zac Bowen, Dulara De Zoysa, Kelson Shilling-Scrivo, Samira Aghayee, Giorgio Di Salvo, Aleksandr Smirnov, Patrick O Kanold, Wolfgang Losert
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Abstract

Two-photon calcium imaging allows for the activity readout of large populations of neurons at single cell resolution in living organisms, yielding new insights into how the brain processes information. Holographic optogenetics allows us to trigger activity of this population directly, raising the possibility of injecting information into a living brain. Optogenetic triggering of activity that mimics "natural" information, however, requires identification of stimulation targets based on real-time analysis of the functional network. We have developed NeuroART (Neuronal Analysis in Real Time), software that provides real-time readout of neuronal activity integrated with downstream analysis of correlations and synchrony and of sensory metadata. On the example of auditory stimuli, we demonstrate real-time inference of the contribution of each neuron in the field of view to sensory information processing. To avoid the limitations of microscope hardware and enable collaboration of multiple research groups, NeuroART taps into microscope data streams without the need for modification of microscope control software and is compatible with a wide range of microscope platforms. NeuroART also integrates the capability to drive a spatial light modulator (SLM) for holographic photostimulation of optimal stimulation targets, enabling real-time modification of functional networks. Neurons used for photostimulation experiments were extracted from Sprague Dawley rat embryos of both sexes.

NeuroART:在钙成像过程中对神经元群活动进行实时分析和定位,用于知情闭环实验。
双光子钙成像技术能够以单细胞分辨率读出生物体内大量神经元群的活动,为了解大脑如何处理信息提供了新的视角。全息光遗传学使我们能够直接触发这些神经元群的活动,为向活体大脑注入信息提供了可能。然而,要通过光遗传学触发模拟 "自然 "信息的活动,需要根据对功能网络的实时分析来确定刺激目标。我们开发的 NeuroART(实时神经元分析)软件可实时读取神经元活动,并集成相关性、同步性和感觉元数据的下游分析。以听觉刺激为例,我们演示了实时推断视野中每个神经元对感觉信息处理的贡献。为了避免显微镜硬件的限制并实现多个研究小组的合作,NeuroART 无需修改显微镜控制软件即可接入显微镜数据流,并与各种显微镜平台兼容。NeuroART 还集成了驱动空间光调制器 (SLM) 的功能,可对最佳刺激目标进行全息光刺激,从而实现对功能网络的实时修改。用于光刺激实验的神经元提取自Sprague Dawley大鼠的雌雄胚胎。意义声明 我们开发了一个软件平台--实时神经元分析(NeuroART),它满足了神经元成像研究对实时分析能力日益增长的需求,与其他最新开发的软件(Giovannucci, Friedrich et al.2017;Mitani 和 Komiyama 2018;Zhang、Russell 等人 2018;Giovannucci、Friedrich 等人 2019;Sheng、Zhao 等人 2022)。NeuroART 的突出之处在于它实时包含了功能网络分析、相关性分析、同步性分析、全息光遗传光刺激以及感觉信息元数据的整合。此外,该工具还能让实验人员实时评估数据质量。凭借这些独一无二的功能以及与多种广泛使用的显微镜平台配合使用的能力,NeuroART有望实现新颖的闭环模型引导实验。
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来源期刊
eNeuro
eNeuro Neuroscience-General Neuroscience
CiteScore
5.00
自引率
2.90%
发文量
486
审稿时长
16 weeks
期刊介绍: An open-access journal from the Society for Neuroscience, eNeuro publishes high-quality, broad-based, peer-reviewed research focused solely on the field of neuroscience. eNeuro embodies an emerging scientific vision that offers a new experience for authors and readers, all in support of the Society’s mission to advance understanding of the brain and nervous system.
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