Imaging structure and function

影像结构与功能

• 批准号: 10213733
• 负责人: Thomas Robert Clandinin
• 金额: $ 15.58万
• 依托单位: STANFORD UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-09-30 至 2022-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10213733
• 关键词: Antibodies; Behavioral; Charge; Collaborations; Communities; Computer software; Confocal Microscopy; Core Facility; Custom; Data; Data Analyses; Development; Discipline; Disease; Electronics; Equipment; Faculty; Goals; Grant; Health; Hour; Human Resources; Image; Imaging technology; In Vitro; Individual; Investments; Label; Laboratories; Lasers; Maintenance; Methods; Microscope; Microscopy; Modality; Modernization; Modification; Monitor; Neurons; Neurosciences; Ophthalmology; Ophthalmoscopes; Optical Coherence Tomography; Optics; Output; Ownership; Photic Stimulation; Play; Protocols documentation; Reagent; Renaissance; Research; Research Personnel; Resolution; Role; Scanning; Scientist; Services; Slide; Stimulus; Structure; Support Groups; System; Techniques; Technology; Technology Transfer; Testing; Time; Tissues; Training; Ursidae Family; Vision; Vision research; Visual; Visual system structure; Work; adaptive optics; adaptive optics scanning laser ophthalmoscopy; cost; data acquisition; experience; experimental study; fluorescence microscope; imaging approach; imaging modality; imaging system; in vivo; in vivo imaging; innovation; instrument; member; microscopic imaging; multiphoton microscopy; novel strategies; optical imaging; optogenetics; payment; process optimization; recruit; relating to nervous system; sensor; service programs; software development; synergism; tool; two-photon; virtual reality environment; vision development; vision science; visual stimulus

IMAGING STRUCTURE AND FUNCTION CORE SUMMARY Imaging technologies such as confocal microscopy, multiphoton microscopy and super- resolution imaging as well as optical coherence tomography have transformed the ability of scientists to observe structural and functional changes in the visual system, in vivo and ex vivo, in both health and disease. The overarching goal of the imaging core is to transform the ability of vision scientists to use these critical technologies by providing access to and training on the newest imaging modalities, and transferring novel approaches between groups to facilitate innovation in research and collaboration across vision research disciplines. This goal will be achieved through supporting (1) access to new confocal and OCT/in vivo fluorescence microscopes as well as custom adaptive optics imaging ophthalmoscopes that will be made available through the Ophthalmology Department, (2) access to advanced imaging modalities available through various Stanford Microscopy Facilities, and (3) application and dissemination of customized in vivo imaging approaches and systems developed by investigators in the vision research center.

成像结构与功能核心 概括 成像技术，如共焦显微镜、多光子显微镜和超 分辨率成像和光学相干断层扫描改变了科学家的能力 观察健康体内和离体视觉系统的结构和功能变化 和疾病。成像核心的总体目标是转变视觉科学家的能力 通过提供最新成像模式的访问和培训来使用这些关键技术， 并在小组之间转移新颖的方法，以促进研究和协作的创新 跨视觉研究学科。这一目标将通过支持 (1) 获得新的 共焦和 OCT/体内荧光显微镜以及定制自适应光学成像 将通过眼科提供的检眼镜，(2) 通过各种斯坦福显微镜设施提供先进的成像模式，以及（3） 应用和传播定制的体内成像方法和系统开发 视觉研究中心的研究人员。