Resource Development Core

资源开发核心

基本信息

批准号：
10747628
负责人：
Gerard L Apodaca
金额：
$ 23.17万
依托单位：
UNIVERSITY OF PITTSBURGH AT PITTSBURGH
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：
2023-09-01 至 2028-06-30
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10747628
关键词：
3-Dimensional 4D Imaging Address Antibodies Antigens Architecture Basic Science Binding Biological Biological Models Cell physiology Cells Collaborations Collagen Collection Computers Country Creativeness Cues Custom Dedications Development Disease Educational process of instructing Electron Microscope Electrons Energy Transfer Ensure Equipment Faculty Fluorochrome Freeze Fracturing Freeze Substitution Functional disorder Funding Goals Gold Hand Image Imaging Device Imaging technology Incubators Individual Industry Infrastructure Injury Kidney Label Light Location Lower urinary tract Maintenance Methods Microfluidics Microscope Microscopy Mission Organ Organelles Organoids Performance Physiology Polarization Microscopy Positioning Attribute Protocols documentation Quality Control Reagent Recording of previous events Renal function Research Research Personnel Resource Development Resources Scanning Schedule Site Standardization Structure System Technology Technology Transfer Testing Three-Dimensional Imaging Time Tissues Training Translational Research Urinary tract Validation Variant Vertebral column Work base cell type cohort cost design extracellular image processing imaging facilities imaging modality imaging study imaging system improved innovation kidney cell kidney dysfunction kidney imaging manufacture mechanotransduction microscopic imaging multidisciplinary novel petabyte repaired response screening second harmonic skills superresolution imaging technology development technology platform terabyte tool tool development transmission process two-photon ultra high resolution virtual reality

项目摘要

ABSTRACT: KIDNIT (Kidney Imaging: Developing Novel and Innovative Tools) is the Pittsburgh Center for Kidney Research’s Resource Development Core. Working in collaboration with kidney investigators and the Center’s Physiology and Model Systems Core, KIDNIT will build and adapt cutting-edge light, super-resolution, and electron microscopic imaging modalities and technologies to address open questions related to kidney function and dysfunction. The broad and long-range goals of KIDNIT are as follows: Aim 1 is to nurture a dynamic incubator space for imaging tool development. KIDNIT will capitalize on the resources provided by the Center for Biological Imaging (CBI), one of the largest imaging facilities in the country. The CBI has a dedicated expert faculty, a large cohort of research technicians, and a vast array of imaging equipment including over 40 contemporary widefield, confocal, two-photon, TIRF, light-sheet, super-resolution, and electron microscopes. Aim 2 is to develop new and custom-made imaging resources, tools, and technologies specifically to augment and advance kidney research. KIDNIT will leverage the CBI’s faculty expertise to develop, adapt, and implement new imaging tools for kidney researchers. Example projects in development include novel clearing and 3D imaging protocols to reveal and quantify kidney architecture and function at the level of the entire organ; analyzing collagen organization and structure in normal and fibrotic tissues using a recently developed variant of polarized light microscopy (instant polarized light microscopy; iPOL); development of new protocols that employ fluorescent lifetime imaging and fluorescent energy transfer to rapidly assess kidney cell function and responses to extracellular cues; use of high throughput platforms to perform large-scale screening of organoid form and function; and development of novel microfluidic chambers. Mechanisms are in place to ensure training and information transfer. Aim 3 is focused on ensuring robust validation and quality control of new resources. An example is a validated antibody collection that can be used to assess differentiation, injury, and repair status of kidney cells and tissues. Aim 4 is to collaborate with the Consortium to prioritize, suspend, or implement new and improved imaging resources. Working in collaboration with the Consortium, KIDNIT will replace obsolete technologies by leveraging its ties with industry leaders, along with a strong track record of S10 funding, to offer the most recent developments in microscopy, specifically to advance the research of our investigator collective. Impact: KIDNIT will advance kidney research by providing Center and Consortium investigators with novel and bespoke imaging tools that will provide critical information about the location, dynamics, amounts, and function of kidney-associated molecules, organelles, cells, and tissues in normal and disease states.

摘要：KIDNIT（肾脏成像：开发新颖和创新工具）是匹兹堡中心肾脏研究的资源开发核心与肾脏研究人员和肾脏研究人员合作。作为该中心的生理学和模型系统核心，KIDNIT 将构建和采用尖端的光、超分辨率、和电子显微成像模式和技术来解决与肾脏相关的悬而未决的问题 KIDNIT 的广泛和长期目标如下：目标 1 是培养活力。 KIDNIT 将利用该中心提供的资源进行成像工具开发的孵化器空间。生物成像 (CBI) 是美国最大的成像设施之一，CBI 拥有一名专门的专家。教职员工、一大批研究技术人员和大量成像设备，其中包括 40 多台现代宽场、共焦、双光子、TIRF、光片、超分辨率和电子显微镜。目标 2 是开发新的定制成像资源、工具和技术，专门用于增强 KIDNIT 将利用 CBI 教师的专业知识来开发、调整和实施。正在开发的肾脏研究人员的新成像工具包括新颖的透明化和 3D。成像协议以揭示和量化整个器官水平的肾脏结构和功能；使用最近开发的变体分析正常和纤维化组织中的胶原组织和结构偏光显微镜（即时偏光显微镜；iPOL）的开发；采用荧光寿命成像和荧光能量转移来快速评估肾细胞功能和对细胞外信号的反应；使用高通量平台进行类器官的大规模筛选形式和功能；以及新型微流体室的开发以确保培训。目标 3 的重点是确保新资源的稳健验证和质量控制。一个例子是经过验证的抗体集合，可用于评估分化、损伤和修复状态目标 4 是与联盟合作确定优先顺序、暂停或实施新的方法。与联盟合作，KIDNIT 将取代过时的图像资源。通过利用与行业领导者的联系以及 S10 融资的良好记录，显微镜的最新发展，特别是为了推进我们研究人员集体的研究。影响：KIDNIT 将通过为中心和联盟研究人员提供新颖且实用的方法来推进肾脏研究。定制成像工具将提供有关位置、动态、数量和功能的关键信息正常和疾病状态下的肾脏相关分子、细胞器、细胞和组织。