Tissue Engineering Resource Center

组织工程资源中心

基本信息

批准号：
10213712
负责人：
Gordana Vunjak-Novakovic
金额：
$ 131.53万
依托单位：
COLUMBIA UNIVERSITY HEALTH SCIENCES
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-09-16 至 2024-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10213712
关键词：
Academic Medical Centers Advisory Committees Area Automation Awareness Basic Science Biocompatible Materials Biological Biomedical Engineering Bioreactors Cells Clinic Clinical Collaborations Communities Complex Development Disease Disease model Education and Outreach Engineering Ensure Environment Event Feedback Financial Support Fostering Foundations General Population Goals Heart High School Student Hospitals Human Human Engineering Image In Vitro Institution Lead Leadership Letters Link Measurement Measures Mission Modality Myocardial Infarction Natural regeneration Optics Organ Outcome Perfusion Physiological Processes Presbyterian Church Rapid screening Recording of previous events Regenerative Medicine Regenerative engineering Research Research Ethics Research Personnel Resources Role Schools Services Signal Transduction Strategic Planning Structure Students System Technology Therapeutic Time Tissue Engineering Tissues Training Translating Translational Research Translations Universities Vision Visualization base cellular imaging clinical practice clinical translation design driving force experience functional restoration human tissue improved in vivo innovation lung regeneration new technology next generation operation outreach outreach program program dissemination public health relevance regeneration model regenerative treatment response restoration scaffold spatiotemporal technology development technology research and development tissue culture underserved community

项目摘要

SUMMARY Tissue engineering is rapidly developing, but remains limited by (i) scaffold and bioreactor designs that are based on predetermined parameters, and (ii) the lack of real-time, nondestructive measurements of cell and tissue function. To overcome these two limitations, we will develop adaptive-responsive biomaterials that can sense environmental signals and actuate the cells, and imaging-enabled bioreactors with real-time spatiotemporal control of engineered tissues with feedback from the measured cell responses. Our goal is to offer these advances to the tissue engineering community, and translate them into clinic. The proposed Tissue Engineering Resource Center brings together four highly productive and actively collaborating investigators from Columbia University (lead institution), Tufts University and Columbia University Medical Center-Presbyterian Hospital. An Administrative Board will coordinate the Center's activities, in conjunction with an External Advisory Committee, formed from the world leaders in tissue engineering and clinical translation that will evaluate the Center and provide guidance in strategic planning. The Center will partner with a number of existing resources (please see 13 letters of collaboration), and will have very generous financial support of the Columbia University School of Engineering ($2,425,000 over the five-year cycle). Strong and effective leadership is uniquely suited to support this transformative Center. The technical components of the Center are three Technology Research and Development Projects (TRD1: Adaptive-responsive biomaterials; TRD2: Imaging enabled bioreactor systems; TRD3: Regenerative engineering), eight Collaborative Projects and six Service Projects. We also propose a robust and diverse Training and Dissemination program to provide links between the projects in the Center with training of biomedical investigators in the use of new technologies, and the outreach to students, general public and underserved communities. Our mission is is that the Center will serve as a transformative driving force for the field of tissue engineering, by developing and translating new technologies, providing training and service, and offering dissemination and outreach programs for general public and high school students. With a highly innovative scientific premise, extensive foundational research, strong leadership and institutional support, experience in translational research, and long history of collaboration among the lead investigators, we are confident that the Center will accomplish its mission.

概括组织工程正在迅速发展，但仍受（i）脚手架和生物反应器设计的限制基于预定的参数，以及（ii）缺乏对细胞的实时无损测量和组织功能。为了克服这两个局限性，我们将开发自适应响应性生物材料可以感知环境信号并启动细胞，并实时使用成像的生物反应器通过测量的细胞反应反馈对工程组织的时空控制。我们的目标是为组织工程社区提供这些进步，并将其转化为诊所。提议组织工程资源中心汇集了四个高产和积极合作的高产哥伦比亚大学（主要机构），塔夫茨大学和哥伦比亚大学医学的研究人员中心总医院。行政委员会将共同协调中心的活动由由世界组织工程和临床领域的世界领导人组成的外部咨询委员会将评估中心并提供战略规划指导的翻译。该中心将合作拥有许多现有资源（请参阅13封合作信），并且将有非常慷慨的哥伦比亚大学工程学院的财政支持（在五年周期中为2,425,000美元）。强大而有效的领导非常适合支持这个变革性中心。该中心的技术组成部分是三个技术研发项目（TRD1：自适应响应生物材料； TRD2：成像启用生物反应器系统； TRD3：再生工程），八个协作项目和六个服务项目。我们也建议强大而多样化的培训和传播计划，以在项目中提供链接培训生物医学研究人员在使用新技术方面的培训，以及与学生，公众和服务不足的社区。我们的任务是该中心将充当通过开发和翻译新的，用于组织工程领域的变革驱动力技术，提供培训和服务，并为一般提供传播和外展计划公立和高中生。具有高度创新的科学前提，广泛的基础研究，强大的领导力和机构支持，转化研究经验以及悠久的历史在主要调查员之间的协作中，我们相信该中心将完成其任务。