来自杂志 Neuron 的文献。
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1.
钟鸣 (2024-05-27 23:13):
#paper doi:10.1016/j.neuron.2023.11.016 Lights, fiber, action! A primer on in vivo fiber photometry 这是一篇比较权威也比较新出炉的综述,讲解全面也细致。 首先,指出近年来光度测定法迅速发展和普遍使用的背景,以及与其他方法相比独特的优势。 随后,讲解了不同类型的生物传感器。包括列举传感器类型、讲解传感器的两大组成部分(传感域和荧光报告域)的结构基础及相应特性。着重介绍了传感器的选择,包括2种获得阴性对照信号的方式及要注意的坑,指出了将生物传感器导入体内的方式及利弊,也顺带着提了一嘴多光同用的价值。 第三块介绍了相关机器的硬件,包括光源的分类、多光源调制方式(频分/时分)、信号带宽、灵敏度、使用转环的利弊、无线系统、多模态(联用光遗传)等方面。作者还科普了3个新兴且有潜力的硬件:光谱可分辨传感器、锥形光纤、FLiP。 接下来就是数据处理部分。在预处理阶段,强调了中间步骤的重要性、要理解光度信号的组成成分及相应的噪音影响。很有价值的是,作者以图片形式展示了过滤、漂白校正、运动校正和标准化(DF/F 、Zscore)的处理效果及代码。当然作者也以文字介绍了上述过程的处理注意事项。 在数据分析这块,主要介绍的是事件关联分析和线性回归。这块有点抽象。 最后展望了一下未来。
IF:14.700Q1 Neuron, 2024-Mar-06. DOI: 10.1016/j.neuron.2023.11.016 PMID: 38103545
Abstract:
Fiber photometry is a key technique for characterizing brain-behavior relationships in vivo. Initially, it was primarily used to report calcium dynamics as a proxy for neural activity via genetically encoded … >>>
Fiber photometry is a key technique for characterizing brain-behavior relationships in vivo. Initially, it was primarily used to report calcium dynamics as a proxy for neural activity via genetically encoded indicators. This generated new insights into brain functions including movement, memory, and motivation at the level of defined circuits and cell types. Recently, the opportunity for discovery with fiber photometry has exploded with the development of an extensive range of fluorescent sensors for biomolecules including neuromodulators and peptides that were previously inaccessible in vivo. This critical advance, combined with the new availability of affordable "plug-and-play" recording systems, has made monitoring molecules with high spatiotemporal precision during behavior highly accessible. However, while opening exciting new avenues for research, the rapid expansion in fiber photometry applications has occurred without coordination or consensus on best practices. Here, we provide a comprehensive guide to help end-users execute, analyze, and suitably interpret fiber photometry studies. <<<
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2.
AI 5.0.3 (2023-05-08 17:03):
#paper Systematic Integration of Structural and Functional Data into Multi-scale Models of Mouse Primary Visual Cortex,https://doi.org/10.1016/j.neuron.2020.01.040,本文借助bmtk建模工具对视觉皮层v1区进行建模计算提出了生物学模型和计算机拓扑模型,主要分为生物学成分模型和整合发射点神经元模型,有较好的迁移性可以使用在其他脑区建模上。
IF:14.700Q1 Neuron, 2020-05-06. DOI: 10.1016/j.neuron.2020.01.040 PMID: 32142648
Abstract:
Structural rules underlying functional properties of cortical circuits are poorly understood. To explore these rules systematically, we integrated information from extensive literature curation and large-scale experimental surveys into a data-driven, … >>>
Structural rules underlying functional properties of cortical circuits are poorly understood. To explore these rules systematically, we integrated information from extensive literature curation and large-scale experimental surveys into a data-driven, biologically realistic simulation of the awake mouse primary visual cortex. The model was constructed at two levels of granularity, using either biophysically detailed or point neurons. Both variants have identical network connectivity and were compared to each other and to experimental recordings of visual-driven neural activity. While tuning these networks to recapitulate experimental data, we identified rules governing cell-class-specific connectivity and synaptic strengths. These structural constraints constitute hypotheses that can be tested experimentally. Despite their distinct single-cell abstraction, both spatially extended and point models perform similarly at the level of firing rate distributions for the questions we investigated. All data and models are freely available as a resource for the community. <<<
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3.
庞庞 (2022-10-26 15:51):
#paper doi: https://doi.org/10.1016/j.neuron.2022.08.012,Automated optimization of TMS coil placement for personalized functional network engagement。本文提出了基于个体化的功能网络分区的TMS刺激方法(TANS)。TMS用于治疗多种精神和神经系统疾病,但由于个体的功能网络分布不同,所以个体反应是高度可变的。传统的基于组水平的TMS方法可能会无意中针对抑郁症患者的不同功能网络,导致疗效不佳。而作者开发的 TANS方法,选择的线圈位置则是使得个体目标功能网络受刺激占比最高的位置。作者从计算机和活体验证两方面,验证了TASN可以提高被试的刺激特异性。
IF:14.700Q1 Neuron, 2022-10-19. DOI: 10.1016/j.neuron.2022.08.012 PMID: 36113473
Abstract:
Transcranial magnetic stimulation (TMS) is used to treat multiple psychiatric and neurological conditions by manipulating activity in particular brain networks and circuits, but individual responses are highly variable. In clinical … >>>
Transcranial magnetic stimulation (TMS) is used to treat multiple psychiatric and neurological conditions by manipulating activity in particular brain networks and circuits, but individual responses are highly variable. In clinical settings, TMS coil placement is typically based on either group average functional maps or scalp heuristics. Here, we found that this approach can inadvertently target different functional networks in depressed patients due to variability in their functional brain organization. More precise TMS targeting should be feasible by accounting for each patient's unique functional neuroanatomy. To this end, we developed a targeting approach, termed targeted functional network stimulation (TANS). The TANS approach improved stimulation specificity in silico in 8 highly sampled patients with depression and 6 healthy individuals and in vivo when targeting somatomotor functional networks representing the upper and lower limbs. Code for implementing TANS and an example dataset are provided as a resource. <<<
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