QuNex--可重现神经成像分析的集成平台。

IF 2.5 4区 医学 Q2 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Frontiers in Neuroinformatics Pub Date : 2023-04-05 eCollection Date: 2023-01-01 DOI:10.3389/fninf.2023.1104508
Jie Lisa Ji, Jure Demšar, Clara Fonteneau, Zailyn Tamayo, Lining Pan, Aleksij Kraljič, Andraž Matkovič, Nina Purg, Markus Helmer, Shaun Warrington, Anderson Winkler, Valerio Zerbi, Timothy S Coalson, Matthew F Glasser, Michael P Harms, Stamatios N Sotiropoulos, John D Murray, Alan Anticevic, Grega Repovš
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引用次数: 8

摘要

简介神经成像技术经历了爆炸式增长,改变了对健康和疾病神经机制的研究。然而,由于处理神经成像数据的复杂工具多种多样,该领域在方法整合方面面临着挑战,尤其是在跨模式和跨物种方面。具体来说,研究人员往往不得不依赖孤立的方法,这种方法限制了数据的可重复性、数据组织的特殊性以及软件互操作性的有限性:为了应对这些挑战,我们开发了定量神经成像环境和工具箱(QuNex),这是一个用于端到端一致处理和分析的平台。QuNex为神经成像分析提供了多项新功能,包括一个 "交钥匙 "命令,用于可重复地部署定制工作流程,从原始数据的入库到分析功能的生成:该平台通过一个扩展框架和一个软件开发工具包(SDK),实现了多模态、社区开发的神经成像软件的互操作性集成,从而实现了社区工具的无缝集成。最重要的是,它支持在本地或云端的高性能计算环境中进行高吞吐量并行处理。值得注意的是,QuNex 已成功处理了神经成像联盟的 10,000 多次扫描,其中包括多个临床数据集。此外,QuNex 还能通过一个具有凝聚力的转化平台整合人类和非人类工作流程:总之,这项工作将对跨采集方法、管道、数据集、计算环境和物种的神经成像方法整合产生重大影响。建立在这一平台上的神经成像技术将对健康和疾病产生更快速、可扩展和可重复的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

QuNex-An integrative platform for reproducible neuroimaging analytics.

QuNex-An integrative platform for reproducible neuroimaging analytics.

QuNex-An integrative platform for reproducible neuroimaging analytics.

QuNex-An integrative platform for reproducible neuroimaging analytics.

Introduction: Neuroimaging technology has experienced explosive growth and transformed the study of neural mechanisms across health and disease. However, given the diversity of sophisticated tools for handling neuroimaging data, the field faces challenges in method integration, particularly across multiple modalities and species. Specifically, researchers often have to rely on siloed approaches which limit reproducibility, with idiosyncratic data organization and limited software interoperability.

Methods: To address these challenges, we have developed Quantitative Neuroimaging Environment & Toolbox (QuNex), a platform for consistent end-to-end processing and analytics. QuNex provides several novel functionalities for neuroimaging analyses, including a "turnkey" command for the reproducible deployment of custom workflows, from onboarding raw data to generating analytic features.

Results: The platform enables interoperable integration of multi-modal, community-developed neuroimaging software through an extension framework with a software development kit (SDK) for seamless integration of community tools. Critically, it supports high-throughput, parallel processing in high-performance compute environments, either locally or in the cloud. Notably, QuNex has successfully processed over 10,000 scans across neuroimaging consortia, including multiple clinical datasets. Moreover, QuNex enables integration of human and non-human workflows via a cohesive translational platform.

Discussion: Collectively, this effort stands to significantly impact neuroimaging method integration across acquisition approaches, pipelines, datasets, computational environments, and species. Building on this platform will enable more rapid, scalable, and reproducible impact of neuroimaging technology across health and disease.

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来源期刊
Frontiers in Neuroinformatics
Frontiers in Neuroinformatics MATHEMATICAL & COMPUTATIONAL BIOLOGY-NEUROSCIENCES
CiteScore
4.80
自引率
5.70%
发文量
132
审稿时长
14 weeks
期刊介绍: Frontiers in Neuroinformatics publishes rigorously peer-reviewed research on the development and implementation of numerical/computational models and analytical tools used to share, integrate and analyze experimental data and advance theories of the nervous system functions. Specialty Chief Editors Jan G. Bjaalie at the University of Oslo and Sean L. Hill at the École Polytechnique Fédérale de Lausanne are supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics and the public worldwide. Neuroscience is being propelled into the information age as the volume of information explodes, demanding organization and synthesis. Novel synthesis approaches are opening up a new dimension for the exploration of the components of brain elements and systems and the vast number of variables that underlie their functions. Neural data is highly heterogeneous with complex inter-relations across multiple levels, driving the need for innovative organizing and synthesizing approaches from genes to cognition, and covering a range of species and disease states. Frontiers in Neuroinformatics therefore welcomes submissions on existing neuroscience databases, development of data and knowledge bases for all levels of neuroscience, applications and technologies that can facilitate data sharing (interoperability, formats, terminologies, and ontologies), and novel tools for data acquisition, analyses, visualization, and dissemination of nervous system data. Our journal welcomes submissions on new tools (software and hardware) that support brain modeling, and the merging of neuroscience databases with brain models used for simulation and visualization.
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