Technology Development Component
技术开发部分
基本信息
- 批准号:10405441
- 负责人:
- 金额:$ 7.85万
- 依托单位:
- 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:2020-05-01 至 2025-04-30
- 项目状态:未结题
- 来源:
- 关键词:AffectAppointmentAreaBiomedical EngineeringClientClinicClinicalCognitive ScienceCognitive deficitsCollaborationsCommunicationCommunitiesComplementDataDevelopmentDiseaseEngineeringFacultyFeedbackFoundationsFunctional disorderFundingGoalsHealthcareHumanHuman ResourcesImpaired cognitionIndustryInstitutionKinesiologyKnowledgeLeadershipMeasurementMeasuresMechanicsMedicalMedicineMentorshipMissionNatureNeighborhood Health CenterOutcomeOutcome MeasureParticipantPatientsPerformancePhysical MedicinePhysical RehabilitationPhysical therapyPopulationPopulation HeterogeneityRehabilitation therapyResearchResearch PersonnelResourcesSchoolsScienceScientistSensorimotor functionsSocial SciencesSpeedTechnologyTechnology AssessmentTestingTrainingTranslatingTranslational ResearchUniversitiesbasebridge programclinical practicecognitive functioncognitive rehabilitationcommercializationcommunity engagementdesigndisabilityexperienceimplementation scienceindustry partnerinnovationinstrumentinterestpatient populationprogramsrehabilitation researchrehabilitation sciencesabbaticalsensorsocialstatistical learningtechnology developmenttool
项目摘要
Project Summary—Collabotating Institutions
The proposed Center for Smart use of Technologies to Assess Real-world Outcomes (C-STAR) will serve as a
national resource to help investigators employ technologies to measure and interpret data relevant to
sensorimotor and cognitive function in the lab, clinic, and real world. This will be accomplished by leveraging our
broad expertise in the clinical, social, and technical sciences. The Shirley Ryan AbilityLab (SRAlab) is the focal
point of this expertise as it is where many of our clinicians and scientists, together with our many patients, are
collocated; however, C-STAR participants will also benefit from expertise that extends far beyond the SRAlab.
We will leverage our many external collaborations to facilitate our Center's mission and maximize our impact.
The majority of our external collaborations are with Northwestern University, which has a long record of research
and leadership in the movement, rehabilitation, and cognitive sciences. SRAlab clinicians and scientists regularly
partner with faculty from Northwestern University Schools of Engineering, Medicine, and Communication, and
many of our personnel hold appointments at both institutions. In addition, the translational nature of our research
has led to partnerships with companies that are developing instruments for assessing and augmenting
sensorimotor and cognitive function. Our collaboration plan draws on these existing connections to expand the
opportunities and expertise that C-STAR can provide to the rehabilitation research community. The goals of
these collaborations are to: (1) coalesce local expertise to meet challenges in design, implementation, and
interpretation of measures of sensorimotor and cognitive deficits. This will be accomplished by combining
expertise from colleagues in both insitutions (SRAlab and NU) and (2) develop a network of companies that can
help C-STAR participants translate ideas to practice. Expertise within C-STAR will be organized into four Cores:
Engineering, Clinical, Outcomes, and Implementation Science and Community Engagement. These cores
represent not only our expertise but also the domains of knowledge we believe are critical for deploying the smart
(i.e., appropriate, accurate, and clinically meaningful) use of technology for assessments in the real world. We
will leverage existing collaborations with colleagues at Northwestern University with wide-ranging, deep
experience across all Cores, providing expertise and mentorship to C-STAR participants who apply for pilot
funding or participate in collaborative research or sabbaticals, and contributing to C-STAR didactic resources on
use of technology in rehabilitation. Our industry contacts provide us with established conduits for translational
science, and we will leverage these connections to provide advice and opportunities to C-STAR participants for
commercialization of technologies developed, tested, or validated by our participants. In summary, we believe
that the C-STAR collaborations will be a major asset to our program and its participants. Our connections to
Northwestern University and to industry expand our pool of expertise and broaden the network of scientists and
engineers working on challenges related to the smart use of technology in rehabilitation.
项目概要——合作机构
拟议的智能使用技术评估现实世界成果中心 (C-STAR) 将作为
帮助调查人员利用技术来测量和解释相关数据的国家资源
实验室、诊所和现实世界中的感觉运动和认知功能。这将通过利用我们的
临床、社会和技术科学方面的广泛专业知识。 Shirley Ryan 能力实验室 (SRAlab) 是重点
这是我们的许多临床医生和科学家以及我们的许多患者所从事的专业知识的重点
并置;然而,C-STAR 参与者还将受益于远远超出 SRAlab 范围的专业知识。
我们将利用许多外部合作来促进我们中心的使命并最大限度地发挥我们的影响力。
我们的大部分外部合作都是与西北大学合作,该大学拥有悠久的研究记录
以及运动、康复和认知科学领域的领导力。 SRAlab 临床医生和科学家定期
与西北大学工程学院、医学院和传播学院的教师合作,以及
我们的许多人员都在这两个机构任职。此外,我们研究的转化性质
导致与正在开发评估和增强工具的公司建立了合作伙伴关系
感觉运动和认知功能。我们的合作计划利用这些现有的联系来扩展
C-STAR 可以为康复研究界提供机会和专业知识。的目标
这些合作的目的是:(1) 凝聚当地专业知识,应对设计、实施和开发方面的挑战
感觉运动和认知缺陷测量的解释。这将通过结合来完成
两个机构(SRAlab 和 NU)同事的专业知识,以及 (2) 建立一个公司网络,可以
帮助 C-STAR 参与者将想法转化为实践。 C-STAR 的专业知识将分为四个核心:
工程、临床、成果、实施科学和社区参与。这些核心
不仅代表了我们的专业知识,还代表了我们认为对部署智能技术至关重要的知识领域
(即适当、准确和有临床意义的)使用技术在现实世界中进行评估。我们
将利用与西北大学同事的现有合作,开展广泛、深入的合作
跨所有核心的经验,为申请试点的 C-STAR 参与者提供专业知识和指导
资助或参与合作研究或休假,并为 C-STAR 教学资源做出贡献
在康复中使用技术。我们的行业联系为我们提供了成熟的转化渠道
科学,我们将利用这些联系为 C-STAR 参与者提供建议和机会
我们的参与者开发、测试或验证的技术的商业化。综上所述,我们认为
C-STAR 合作将成为我们的计划及其参与者的重要资产。我们的联系
西北大学和工业界扩大了我们的专业知识库并扩大了科学家和
工程师致力于解决与康复中智能使用技术相关的挑战。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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JULIUS P DEWALD其他文献
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{{ truncateString('JULIUS P DEWALD', 18)}}的其他基金
Contralesional Corticobulbospinal Structural and Functional Changes Post Stroke: Biomarkers for the upper limb flexion synergy
中风后对侧皮质球脊髓结构和功能变化:上肢屈曲协同作用的生物标志物
- 批准号:
10741103 - 财政年份:2023
- 资助金额:
$ 7.85万 - 项目类别:
Determination of the Recruitment of Indirect Motor Pathways in Chronic Hemiparetic Stroke
慢性偏瘫中风间接运动通路募集的测定
- 批准号:
9978864 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Contralesional Corticobulbospinal Structural and Functional Changes Post Stroke: Biomarkers for the upper limb flexion synergy
中风后对侧皮质球脊髓结构和功能变化:上肢屈曲协同作用的生物标志物
- 批准号:
10832173 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Determination of the Recruitment of Indirect Motor Pathways in Chronic Hemiparetic Stroke
慢性偏瘫中风间接运动通路募集的测定
- 批准号:
9809617 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Contralesional Corticobulbospinal Structural and Functional Changes Post Stroke: Biomarkers for the upper limb flexion synergy
中风后对侧皮质球脊髓结构和功能变化:上肢屈曲协同作用的生物标志物
- 批准号:
10378022 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Contralesional Corticobulbospinal Structural and Functional Changes Post Stroke: Biomarkers for the upper limb flexion synergy
中风后对侧皮质球脊髓结构和功能变化:上肢屈曲协同作用的生物标志物
- 批准号:
10624767 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Contralesional Corticobulbospinal Structural and Functional Changes Post Stroke: Biomarkers for the upper limb flexion synergy
中风后对侧皮质球脊髓结构和功能变化:上肢屈曲协同作用的生物标志物
- 批准号:
9914139 - 财政年份:2019
- 资助金额:
$ 7.85万 - 项目类别:
Motor impairment related changes in muscles properties in chronic stroke
慢性中风中运动障碍相关的肌肉特性变化
- 批准号:
8888307 - 财政年份:2015
- 资助金额:
$ 7.85万 - 项目类别:
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