2020 Nuroelectronic Interfaces Gordon Research Conference and Gordon Research Seminar
2020年神经电子接口戈登研究会议暨戈登研究研讨会
基本信息
- 批准号:9913124
- 负责人:
- 金额:$ 2万
- 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:2020-03-06 至 2023-02-28
- 项目状态:已结题
- 来源:
- 关键词:AreaAtmosphereBasic ScienceBiologicalBiologyBiophysicsBrain PathologyCellular biologyChronicClinicClinicalClinical InvestigatorClinical MedicineCodeCollaborationsCommunitiesCultural BackgroundsDevelopmentDevicesDisabled PersonsDisciplineDiseaseEcologyEcosystemElectrical EngineeringElectrodesEngineeringEnvironmentFosteringFoundationsFunctional disorderFundingGenderHolidaysImmunologyImplantIndustrializationInternationalKnowledgeLifeMedicalMedicineMinorityMinority GroupsMotorNervous System TraumaNervous system structureNeurobiologyNeuronsNeurosciencesPathway interactionsPatientsPeripheralPersonsPharmacological TreatmentPostdoctoral FellowRehabilitation therapyRelationship-BuildingResearchResearch PersonnelScienceScientistSensoryStudentsTechnologyTissuesTrainingTranslational ResearchTranslationsTravelTreatment FailureUnderrepresented GroupsWidespread DiseaseWomanbrain computer interfacebrain machine interfacecareercircadianclinical applicationclinical implementationclinical practicecommunity buildingdesignexpectationfrontierfunctional restorationgraduate studentinnovationmaterials sciencemeetingsmembermultidisciplinarynervous system disorderneuroregulationneurosurgeryneurotechnologynext generationnovelprogramsreduce symptomsrelating to nervous systemsuccesssymposiumtrendunpublished works
项目摘要
Abstract
We are requesting support for the 2020 GRC on Neuroelectronic Interfaces: Bridging Neural Engineering and
Neurobiology Edge Effects to Divergent Innovation, which will be held March 14th – March 20th, 2020, at the
Four Points Sheraton / Holiday Inn Express in Ventura, CA. Following the successful inaugural 2018
Neuroelectronic Interfaces Gordon Research Conference, this conference continues to bringing together world-
class clinicians, scientists, and engineers with a multi-disciplinary skillset in cellular neuroscience, brain
pathology, neuro-technology and materials science in order to discuss, and eventually solve or discard the
obstacles to chronically useful and reliable neural interface.
The expectation for Gordon Research Conferences is that vigorous formal and informal discussions will be
maximized between prominent investigators and junior attendees of the conferences, with particular emphasis
being placed on underrepresented groups, women, minorities, and persons with disabilities. This conference is
designed to bridge the scientific field by bringing established researchers that provide a strong foundational
support for past research and inject new ideas from outside investigators and junior members of the field.
Because of the funds we hope to acquire from the pending proposal, support for travel and registration for
speakers, discussions leaders, post-doctoral fellows and graduate students who attend the conference with
priority going toward the support of members of underrepresented groups. Thus, we will foster the
development of and continued involvement of qualified students and researchers from minority groups in
neural engineering research. Additionally, the 2020 conference program is inspiring in the range of topics and
in the quality and diversity of speakers. We are building a program that we are confident will lead to a lively and
inspiring conference that is at the cutting edge of science and engineering. The program covers major recent
trends in Neuroelectronic Interface research, including the state of the art, critical hurdles to be overcome, and
inspiring sessions from tangential fields that could pave the way to success. This GRC will provide a forum for
the findings of established scientists engaged in other biomedical areas to enable identification of new
concepts for, and potential collaboration in, neural interfaces research.
Therefore, we expect to change the landscape of the Neural Interfacing Community's conference circuit, and
become a lasting tradition, worthy of the prestige of the Gordon Conferences, effectively becoming a “go to
meeting for neural interfacing.”
摘要
我们正在请求支持2020年神经电子接口GRC:桥接神经工程和
将于2020年3月14日至3月20日在纽约举行的神经生物学边缘效应对发散性创新的影响
Four Points Sheraton / Holiday Inn Express-文图拉,CA继2018年成功举办首届
神经电子接口戈登研究会议,这次会议继续汇集世界-
类临床医生,科学家和工程师与细胞神经科学,脑,
病理学,神经技术和材料科学,以讨论,并最终解决或放弃
长期有用和可靠的神经接口的障碍。
对戈登研究会议的期望是,将进行积极的正式和非正式讨论。
最大限度地发挥了突出的研究人员和会议的初级与会者之间,特别强调
被安置在代表性不足的群体、妇女、少数民族和残疾人身上。本次大会是
旨在通过将建立的研究人员,提供一个强大的基础,
支持过去的研究,并从外部调查人员和该领域的初级成员注入新的想法。
由于我们希望从未决提案中获得资金,
发言人,讨论领导人,博士后研究员和研究生谁参加会议,
优先支持代表性不足群体的成员。我们将继续努力,
培养和继续参与少数群体的合格学生和研究人员,
神经工程研究此外,2020年的会议计划在主题范围内鼓舞人心,
演讲者的质量和多样性。我们正在建立一个计划,我们有信心将导致一个生动的,
在科学和工程的前沿鼓舞人心的会议。该计划涵盖了最近的主要
神经电子接口研究的趋势,包括最新技术水平,需要克服的关键障碍,以及
来自边缘领域的鼓舞人心的会议,可以为成功铺平道路。本GRC将提供一个论坛,
从事其他生物医学领域的知名科学家的研究结果,
神经接口研究的概念和潜在的合作。
因此,我们希望改变神经接口社区会议电路的格局,
成为一个持久的传统,值得戈登会议的威望,有效地成为一个“去,
神经连接会议”
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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Takashi Daniel Yoshida Kozai其他文献
Parvalbumin interneuron activity induces slow cerebrovascular fluctuations in awake mice
小清蛋白中间神经元活动诱导清醒小鼠脑血管缓慢波动
- DOI:
10.1101/2024.06.15.599179 - 发表时间:
2024 - 期刊:
- 影响因子:0
- 作者:
A. Rakymzhan;Mitsuhiro Fukuda;Takashi Daniel Yoshida Kozai;Alberto L Vazquez - 通讯作者:
Alberto L Vazquez
Takashi Daniel Yoshida Kozai的其他文献
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{{ truncateString('Takashi Daniel Yoshida Kozai', 18)}}的其他基金
Modulation of Oligodendrocyte Calcium Activity with ICMS and Melatonin Stimulation
ICMS 和褪黑激素刺激调节少突胶质细胞钙活性
- 批准号:
10622191 - 财政年份:2022
- 资助金额:
$ 2万 - 项目类别:
Elucidating electrical stimulation induced non-neuronal activity using emerging in vivo imaging technology and electrophysiology
利用新兴的体内成像技术和电生理学阐明电刺激诱导的非神经元活动
- 批准号:
10668278 - 财政年份:2020
- 资助金额:
$ 2万 - 项目类别:
Elucidating electrical stimulation induced non-neuronal activity using emerging in vivo imaging technology and electrophysiology
利用新兴的体内成像技术和电生理学阐明电刺激诱导的非神经元活动
- 批准号:
10599740 - 财政年份:2020
- 资助金额:
$ 2万 - 项目类别:
Elucidating electrical stimulation induced non-neuronal activity using emerging in vivo imaging technology and electrophysiology
利用新兴的体内成像技术和电生理学阐明电刺激诱导的非神经元活动
- 批准号:
10267211 - 财政年份:2020
- 资助金额:
$ 2万 - 项目类别:
Elucidating electrical stimulation induced non-neuronal activity using emerging in vivo imaging technology and electrophysiology
利用新兴的体内成像技术和电生理学阐明电刺激诱导的非神经元活动
- 批准号:
10447133 - 财政年份:2020
- 资助金额:
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Using Electrical Stimulation to Modulation Microglia and the Conversion of Microglia Phenotypes
利用电刺激调节小胶质细胞和小胶质细胞表型的转换
- 批准号:
10526723 - 财政年份:2020
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Subcellular Wireless Axons for in vivo Localized Neuronal Excitation
用于体内局部神经元兴奋的亚细胞无线轴突
- 批准号:
10534746 - 财政年份:2019
- 资助金额:
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用于体内局部神经元兴奋的亚细胞无线轴突
- 批准号:
10307095 - 财政年份:2019
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Subcellular Wireless Axons for in vivo Localized Neuronal Excitation
用于体内局部神经元兴奋的亚细胞无线轴突
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