Research Translation Core

研究翻译核心

• 批准号: 9058538
• 负责人: Brad L. Upham
• 金额: $ 17.53万
• 依托单位: MICHIGAN STATE UNIVERSITY
• 依托单位国家: 美国
• 资助国家: 美国
• 起止时间: 至
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/9058538
• 关键词: Academia; Affect; Agonist; Agriculture; Applied Research; Area; Aryl Hydrocarbon Receptor; Basic Science; Biomedical Research; Chemicals; Cities; Communication; Communication Tools; Communities; Complex; Continuing Education; Development; Dioxins; Ecosystem; Educational Activities; Educational Curriculum; Educational workshop; Environment; Environmental Health; Environmental Pollution; Federal Government; General Population; Government; Government Agencies; Health; Health Hazards; Health Personnel; Health Professional; Hospitals; Human; Individual; Industry; Information Technology; Instruction; Knowledge; Lead; Legal patent; Licensing; Medical Students; Medicine; Metals; Michigan; Molecular; National Institute of Environmental Health Sciences; Oils; Paper; Peer Review; Poison; Process; Reporting; Research; Research Personnel; Resources; Rural Developments; Science; Scientist; Site; State Government; Superfund; System; Technology Transfer; Testing; Time; Training; Translational Research; Translations; United States Environmental Protection Agency; Universities; Work; analytical method; anthropogenesis; aryl hydrocarbon receptor ligand; base; beneficiary; college; disease registry; environmental toxicology; improved; innovation; microbial; mobile application; novel; pollutant; programs; response; skills; working group

PROJECT SUMMARY (See instructions): Naturally occurring and anthropogenic pollutants adversely affect human and ecosystem health. Knowledge from biomedical research is not utilized to its maximum potential unless it is effectively communicated in an understandable manner to health professionals, government regulatory agencies, industry and other end users, or stakeholders. We hypothesize that effective bidirectional communication between research scientists and stakeholders of research findings will improve the research being conducted by scientists provide more relevant information for regulatory agencies, enhance the overall benefits of this research, and ultimately lead to the best possible solutions to existing environmental problems. The Michigan State University (MSU) Superfund Research Program (SRP) Center focuses on the toxicology and environmental fate of dioxin and dioxin-like compounds (DLC), which have been identified as environmental contaminants in the Tri-Cities (Saginaw, Midland, Bay City) area in Michigan. The MSU SRP Center Research Translation Core (RTC) will serve as a bidirectional bridge for disseminating information, technology transfer and educational activities between the MSU SRP Center and key stakeholders. Specifically, our stakeholders are State government agencies, including Michigan Department Environment Quality (MDEQ) and Michigan Department of Agriculture Michigan Department of Agriculture and Rural Development (MDARD), Federal government agencies, including the United States Environmental Protection Agency (USEPA) Region 5 and the Agency for Toxic Substances and Disease Registry (ATSDR), and industry, such as the Sediment Management Working Group (SMWG). Ultimately, the most important stakeholders are the residents in communities in which environmental contamination exists and therefore, we have identified health professionals in community-based hospitals as novel stakeholders since they can be critical conduits of research translation. Training of health professionals will occur at the Flint and Midland Regional Campuses of the MSU College of Human Medicine. This aforementioned consortium of stakeholders provides a unique opportunity for scientists from government, industry and academia to collaborate on solutions to complex environmental problems surrounding dioxin and DLC in the State of Michigan. Toward this end, the above stated hypothesis will be tested by: (a) using well-established communication tools; (b) partnering with government and industry; (c) transferring technology using novel mechanisms; and (d) providing educational resources.

项目总结（见说明）： 自然产生的和人为的污染物对人类和生态系统的健康产生不利影响。生物医学研究的知识只有以可理解的方式有效地传达给卫生专业人员、政府监管机构、行业和其他最终用户或利益相关者，才能得到最大限度的利用。我们假设，研究科学家和研究成果的利益相关者之间有效的双向沟通将改善科学家正在进行的研究，为监管机构提供更多相关信息，提高这项研究的整体效益，并最终导致现有环境问题的最佳解决方案。密歇根州立大学（MSU）超级基金研究计划（SRP）中心专注于二恶英和二恶英类化合物（DLC）的毒理学和环境命运，这些化合物已被确定为密歇根州三城（萨吉诺，米德兰，海湾城）地区的环境污染物。MSU SRP中心研究翻译核心（RTC）将作为MSU SRP中心和主要利益相关者之间传播信息，技术转让和教育活动的双向桥梁。具体而言，我们的利益相关者是州政府机构，包括密歇根州环境质量部（MDEQ）和密歇根州农业部密歇根州农业和农村发展部（MDARD），联邦政府机构，包括美国环境保护署（USEPA）第5区和有毒物质和疾病登记署（ATSDR），以及行业，例如沉积物管理工作组（SMWG）。最终，最重要的利益相关者是存在环境污染的社区的居民，因此，我们将社区医院的卫生专业人员确定为新的利益相关者，因为他们可以成为研究转化的关键渠道。卫生专业人员的培训将在密歇根州立大学人类医学学院的弗林特和米德兰地区校区进行。上述利益相关者联盟为来自政府，工业和学术界的科学家提供了一个独特的机会，以合作解决密歇根州围绕二恶英和DLC的复杂环境问题。为此，将通过以下方式检验上述假设：（a）使用完善的通信工具;（B）与政府和工业界建立伙伴关系;（c）使用新机制转让技术;（d）提供教育资源。