利用 Eventer 对自发突触波形进行可重复的监督学习辅助分类

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-13 DOI:10.3389/fninf.2024.1427642
Giles Winchester, Oliver G. Steele, Samuel Liu, Andre Maia Chagas, Wajeeha Aziz, Andrew C. Penn
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引用次数: 0

摘要

检测和分析自发突触事件是许多神经科学研究实验室的一项极为常见的任务。多年来,人们开发了各种算法和工具,以提高检测突触事件的灵敏度。然而,大多数突触事件检测程序的最后阶段仍然需要人工选择候选事件。分析中的这一步骤非常费力,需要小心谨慎,以保持整个数据集中事件选择的一致性。人工选择可能会引入偏见和主观选择标准,而这些标准无法与其他实验室共享报告方法。为了解决这个问题,我们开发了一款独立的应用程序 Eventer,用于检测通过电生理学或成像获得的自发突触事件。这款开源应用程序使用免费提供的 MATLAB Runtime,可部署在 Mac、Windows 和 Linux 系统上。Eventer 应用程序的原理是学习用户的 "专家 "策略,以便从一小部分数据中对一组检测到的候选事件进行分类,然后自动将相同的标准应用于剩余的数据集。Eventer 首先使用一个合适的模型模板,利用基于快速傅立叶变换 (FFT) 的低阈值解卷积来提取候选事件。然后创建并训练随机森林,将事件的各种特征与人工标注联系起来。存储的模型文件可以重新加载并用于分析大型数据集,而且一致性更高。源代码及其用户界面的可用性提供了一个框架,可进一步调整现有的随机森林实施,或添加额外的人工智能分类方法。Eventer网站(https://eventerneuro.netlify.app/)包括一个资源库,研究人员可以上传和共享他们的机器学习模型文件,从而为提高分析自发突触活动数据集的可重复性提供更多机会。总之,Eventer 和相关的存储库可以让研究突触传递的研究人员提高数据分析的吞吐量,解决神经科学研究中日益严重的可重复性问题。
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Reproducible supervised learning-assisted classification of spontaneous synaptic waveforms with Eventer
Detection and analysis of spontaneous synaptic events is an extremely common task in many neuroscience research labs. Various algorithms and tools have been developed over the years to improve the sensitivity of detecting synaptic events. However, the final stages of most procedures for detecting synaptic events still involve the manual selection of candidate events. This step in the analysis is laborious and requires care and attention to maintain consistency of event selection across the whole dataset. Manual selection can introduce bias and subjective selection criteria that cannot be shared with other labs in reporting methods. To address this, we have created Eventer, a standalone application for the detection of spontaneous synaptic events acquired by electrophysiology or imaging. This open-source application uses the freely available MATLAB Runtime and is deployed on Mac, Windows, and Linux systems. The principle of the Eventer application is to learn the user's “expert” strategy for classifying a set of detected event candidates from a small subset of the data and then automatically apply the same criterion to the remaining dataset. Eventer first uses a suitable model template to pull out event candidates using fast Fourier transform (FFT)-based deconvolution with a low threshold. Random forests are then created and trained to associate various features of the events with manual labeling. The stored model file can be reloaded and used to analyse large datasets with greater consistency. The availability of the source code and its user interface provide a framework with the scope to further tune the existing Random Forest implementation, or add additional, artificial intelligence classification methods. The Eventer website (https://eventerneuro.netlify.app/) includes a repository where researchers can upload and share their machine learning model files and thereby provide greater opportunities for enhancing reproducibility when analyzing datasets of spontaneous synaptic activity. In summary, Eventer, and the associated repository, could allow researchers studying synaptic transmission to increase throughput of their data analysis and address the increasing concerns of reproducibility in neuroscience research.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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