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Data Management and Bioinformatics Core

数据管理和生物信息学核心

基本信息

批准号：
10326811
负责人：
JUSTIN B. STARREN
金额：
$ 31.7万
依托单位：
NORTHWESTERN UNIVERSITY AT CHICAGO
依托单位国家：
美国
项目类别：
财政年份：
2018
资助国家：
美国
起止时间：
2018-01-17 至 2022-12-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10326811
关键词：
Algorithms Alveolar Architecture Archives Area Behavior Big Data to Knowledge Bioinformatics Biology Clinical Clinical Data Collection Complex Data Data Science Data Set Data Storage and Retrieval Disease Funding Opportunities Genome Genomics Goals Graph Infrastructure Instruction Intensive Care Units Lead Liquid substance Medicine Metadata Methods Modeling Molecular Molecular Profiling Multiomic Data National Institute of Allergy and Infectious Disease Nosocomial pneumonia Pathway interactions Patients Pneumonia Precision Medicine Initiative Proteomics Research Research Personnel Resources Running Secure Source Systems Biology Testing United States National Institutes of Health Universities Weight base bioinformatics tool biomedical informatics clinical phenotype computerized tools computing resources data dissemination data management data repository data streams design diverse data experience gene regulatory network genetic variant genome wide association study genomic data genomic locus innovation multiscale data novel novel strategies pathogen phenome phenomics pneumonia treatment repository response skills tool treatment response web portal

项目摘要

Data Management and Bioinformatics Core Project Summary: This innovative integrated systems biology application seeks to delineate the complex host/pathogen interactions occurring at the alveolar level that lead to unsuccessful response to therapy in serious pneumonia. In spite of active research in this area, a generalize multi-scale solution that can support a systems biology approach to clinical problems remains elusive. This is not surprising, given that a general solution effectively requires modeling all of biology and medicine simultaneously. Even though a general solution may be intractable, we believe that substantial progress can be made by focusing on the clinical, genomic, and pathogen data for a single condition, Hospital Acquired Pneumonia (HAP). The overall goal of the Data Management and Bioinformatics (DMBI) Core is to develop and implement new and enhanced computational resources that support a systems biology approach to HAP, and to share those resources broadly. The DMBI Core will sit at the nexus of SCRIPT where it will provide the tools, methods, skills and infrastructure to collect, integrate, transform, analyze and distribute the diverse data generated by both projects. The design and implementation of the DMBI Core is based on the premise that genome-centric approaches and phenome-centric approaches are both inherently scientifically limiting. Rather, a systems biology approach that gives equal weight to all data types is more likely to produce significant findings. Achieving the broader goals of this project will require the seamless integration of clinical data with molecular profiling data on both host and pathogen. We will leverage our extensive experience in the integration of EHR and genomic data to design a novel graph- based repository. The multiple sources of genomic data will be integrated with clinical phenomic data extracted from the continuous stream of data that populates the EHR in patients in the intensive care unit. We will utilize the data sets generated in Aim 1 for further analysis of the gene regulatory networks using both novel computation tools and novel uses of existing tools. In particular, we will develop tailor- made algorithms for an integrative analysis of multiple omics data sets that enable modeling of the underlying gene regulatory networks. A multi-pronged approach to dissemination will be employed. Datasets and metadata will be archived in the appropriate NIAID and/or NCBI archives. Computational tools will be distributed through a GitHub repository. Of greater long term value will be the creation of a secure, interactive web portal that will allow research to interact with the study data repository to not only browse and filter data based on a rich section of attributes, but also to run analysis directly.

数据管理与生物信息学核心项目概述：