Data Management and Analysis Core

数据管理与分析核心

基本信息

批准号：
10731712
负责人：
DENNIS J. HARTIGAN-O'CONNOR
金额：
$ 23.54万
依托单位：
UNIVERSITY OF CALIFORNIA AT DAVIS
依托单位国家：
美国
项目类别：
财政年份：
2023
资助国家：
美国
起止时间：
2023-05-22 至 2028-05-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10731712
关键词：
Address Affinity Aftercare Area Binding Bioinformatics Biological Process Biometry Cellular biology Clinical Clinical Data Complex Custom Data Data Analyses Data Management Resources Data Science Data Set Data Storage and Retrieval Dimensions Ensure Flow Cytometry Goals HIV Health Human Human Resources Immune Immune response Infection Control Infrastructure Ingestion Interruption Joints Kinetics Mediating Metabolic Metadata Modality Modeling Nature Online Systems Outcome Participant Phenotype Process Regimen Research Research Personnel Resolution Secure Specificity Staging Standardization Statistical Data Interpretation Structure System T cell receptor repertoire sequencing T cell response T-Lymphocyte Techniques Testing Vaccine Therapy Vaccines Viral Viremia Work data harmonization data ingestion data library data management data modeling data sharing experience improved insight member metabolomics multidimensional data multimodal data multimodality multiple omics nonhuman primate pathogen programs public database repository shared database single-cell RNA sequencing therapeutic vaccine therapy outcome transcriptome sequencing vaccine response

项目摘要

The Data Management and Analysis Core (DSC) will be responsible for performing and supporting biostatistical analyses and management of multidimensional and subject metadata sets generated in the OmiT- HIV program. A custom project will be created and maintained on the UCSF Data Library platform to store, secure, curate, and make accessible all raw and processed biological data and de-identified clinical data associated with the research program. We will interface with each project team for data ingestion and provide statistical and bioinformatic support to each. We will additionally perform multi-modal integrative analyses, including cross-species analysis, to answer questions within and across each project toward better understanding how vaccine regimens and metabolic conditions influence T-cell responses to and virologic outcomes of therapeutic vaccination. We will accomplish these goals with the following specific aims: Aim 1: Develop and maintain a centralized system of data management and sharing using the UCSF Data Library. - We will leverage the UCSF Data Library (UCDL) to facilitate the ingestion, curation, and secure storage of the diverse high-dimensional data types and metadata or de-identified clinical data generated across the projects. - We will apply shared data schemas per modality that store raw and processed data and annotations. - The UCDL supports web-based data sharing across all members of project and core teams as well as serves as a staging area for the transfer of all raw and processed data and metadata to ImmPort and other public databases. Aim 2: Provide statistical analysis and bioinformatic support for testing project hypotheses relevant to vaccine regimens, T-cell features, metabolomics, and rebound kinetics. - We will apply standardized and custom approaches to harmonize datasets for use by all teams. - We will work collaboratively with each project and core team to perform described analyses including dimensionality reduction, differential analysis, and association with outcomes. Aim 3: Integrate multi-modal data to develop a model of joint immune and metabolomic influence over vaccine responses and control over viremia in ATI. - We will leverage the complementary nature of these projects and state-of-the-art integrative analysis techniques, including cross-species analysis, to construct models relating multi-modal factors to longitudinal immune and virologic outcomes. - We will address the Bridging Hypotheses described in the Overall component.

数据管理和分析核心（DSC）将负责执行和支持 OmiT-中生成的多维和主题元数据集的生物统计分析和管理艾滋病毒计划。将在 UCSF 数据库平台上创建和维护一个自定义项目来存储、保护、管理并提供所有原始和处理后的生物数据以及去识别化的临床数据与研究计划相关。我们将与每个项目团队进行接口以进行数据摄取并提供为每个人提供统计和生物信息支持。我们还将进行多模态综合分析，包括跨物种分析，回答每个项目内部和跨项目的问题，以更好地了解疫苗方案和代谢条件如何影响 T 细胞反应和病毒学治疗性疫苗接种的结果。我们将通过以下具体目标来实现这些目标：目标 1：使用 UCSF 开发和维护数据管理和共享的集中式系统数据库。 - 我们将利用 UCSF 数据库 (UCDL) 来促进摄取、管理和安全存储各种高维数据类型和元数据或去识别的临床数据项目。 - 我们将根据存储原始和处理后的数据和注释的模式应用共享数据模式。 - UCDL 支持项目和核心团队的所有成员以及基于网络的数据共享作为将所有原始和处理后的数据和元数据传输到 ImmPort 的暂存区其他公共数据库。目标 2：为测试相关项目假设提供统计分析和生物信息学支持疫苗方案、T 细胞特征、代谢组学和反弹动力学。 - 我们将应用标准化和定制方法来协调数据集以供所有团队使用。 - 我们将与每个项目和核心团队合作进行所描述的分析，包括降维、差异分析以及与结果的关联。目标 3：整合多模态数据，开发联合免疫和代谢组影响的模型 ATI 中的疫苗反应和病毒血症控制。 - 我们将利用这些项目的互补性和最先进的综合分析技术，包括跨物种分析，构建与多模态因素相关的模型纵向免疫和病毒学结果。 - 我们将讨论总体部分中描述的桥接假设。