Community Engagement

社区参与

基本信息

批准号：
10652623
负责人：
Keith W MacRenaris
金额：
$ 7.42万
依托单位：
MICHIGAN STATE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2020
资助国家：
美国
起止时间：
2020-07-01 至 2025-05-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10652623
关键词：
Acceleration Address Adopted Adoption Advisory Committees Area Automobile Driving Award Awareness Biological Sciences Biology Biomedical Research Charge Chemistry Clinical Research Collaborations Communities Computer software Consultations Core Facility Data Analyses Detection Development Disease Disease model Educational workshop Elements Ensure Evaluation Fostering Funding Goals Grant Guidelines Health Human Human Resources Image Internet Investigation Journals Leadership Legal patent Length Life Maps Metals Methods Microscopy Movement Newsletter Peer Review Preparation Press Releases Process Professional Organizations Protocols documentation Publications Publishing Research Research Personnel Resource Allocation Resources Review Literature Sampling Scholars Program Services Specific qualifier value Students Technology Time Training Training Activity United States National Institutes of Health Visit base commercialization community engaged research community engagement cost data acquisition efficacy evaluation experience improved innovation instrument instrumentation meetings model organism new technology online tutorial pathogen programs prospective social media symposium technology development visiting scholar web site

项目摘要

PROJECT SUMMARY – COMMUNITY ENGAGEMENT The proposed Resource for Quantitative Elemental Mapping for the Life Sciences has the potential for extraordinary impact on biomedical research through the development of technologies, methods, and software that will dramatically improve the ability of researchers to address significant questions in biology and clinical research concerning human health and disease. Consequently, the adoption and dissemination of Resource technologies is extremely important to the Resource leadership and technology teams. Our approach to achieving the goals of enhancing collaboration and providing access to Resource capabilities is built upon the solicitation, evaluation and selection of Collaboration and Service (C&S) projects. Eight prospective Collaboration and Service projects, which cover a range of biology and disease in humans, model organisms, and pathogens, have already been identified. This list is a modest snapshot of a much larger research community encompassing >2,300 active NIH-funded research programs focused on specific metals. The Resource will develop an informed, competent user base that is prepared to adopt the new methods and technologies. We will use a Visiting Scholar program, analytical imaging workshops, conference presentations and annual “Inorganic Signatures of Life” symposia, to educate and train users and promote adoption of new technologies. Resource technical staff, with extensive experience in technical training will provide investigators and students with direct hands-on training in instrument usage, data acquisition, and interpretation across the entire range of Resource technologies. We will partner with professional societies to offer a short course on new technologies for elemental detection and localization. Our strategies for technology dissemination will include providing online access to Resource software and downloadable SOPs for sample preparation and workflows and specifications for instrument customization and development. Importantly, we will provide robust web presence for the Resource through the development of a Resource Portal. Access to mature Resource technologies will leverage robust mechanisms for external usage of instrumentation and expertise in place for core facility usage at Northwestern and user access protocols on the ANL campus. Dual project leads located on the Northwestern and ANL campuses will ensure coordination and integration of CE activities across the Resource. In addition, we will pursue commercialization of technologies, where appropriate, such as the photoacoustic microscopy methods under development. We will assess the impact of these dissemination activities on the adoption of the new technologies by tracking publications in which these technologies are used and/or the P41 grant award is cited. We will also review the literature annually to determine how these technologies have opened new areas of inquiry and stimulated new innovations.

项目摘要 – 社区参与拟议的生命科学定量元素测绘资源有潜力通过技术、方法和软件的开发对生物医学研究产生非凡影响这将极大地提高研究人员解决生物学和临床重大问题的能力有关人类健康和疾病的研究、资源的采用和传播。技术对于资源领导层和技术团队极其重要。我们实现加强协作和提供资源能力的目标的方法建立在协作与服务 (C&S) 项目的征集、评估和选择的基础上。前瞻性合作和服务项目，涵盖一系列人类生物学和疾病、模型生物体和病原体已经被识别出来，这个清单只是一个更大的清单的一个缩影。研究社区包含超过 2,300 个由 NIH 资助的活跃研究项目，重点关注特定金属。该资源将发展一个知情、有能力的用户群，准备采用新方法和我们将使用访问学者计划、分析成像研讨会、会议演讲。和年度“生命的无机特征”研讨会，教育和培训用户并促进采用新的具有丰富技术培训经验的技术人员将为研究者提供资源。以及接受过仪器使用、数据采集和解释方面直接实践培训的学生我们将与专业协会合作，提供有关新资源技术的短期课程。元素检测和定位技术。我们的技术传播策略将包括提供对资源软件的在线访问用于样品制备和工作流程的可下载 SOP 以及仪器定制和规范重要的是，我们将通过开发一个为该资源提供强大的网络存在。资源门户。访问成熟的资源技术将利用强大的外部使用机制。西北大学核心设施使用的仪器和专业知识以及用户访问协议 ANL 校区。位于西北校区和 ANL 校区的双项目负责人将确保协调。此外，我们将追求商业化。适当的技术，例如正在开发的光声显微镜方法。我们将通过跟踪评估这些传播活动对新技术采用的影响我们还将审查使用这些技术和/或引用 P41 资助奖的出版物。每年都会查阅文献，以确定这些技术如何开辟新的研究领域并激发新的研究创新。