学位:博士学位
学历:博士研究生毕业
职称:教授
所在单位:湘雅药学院
学术荣誉: 曾获荣誉:
陈传品,男,1978年生,现为中南大学湘雅药学院教授,药剂学系主任,“升华猎英计划”人才。系美国化学会、国际光学工程学会、澳洲流体力学学会会员,Lab Chip,Appl. Phys. Lett.等国际期刊的特邀审稿人。多年来一直从事微流控芯片相关研究,精通微流体芯片制备流程、微流体操控及其检测技术设备开发。在芯片毛细管电泳电化学检测技术研究、生化武器微流控芯片检测设备、药物携带型微气泡超声造影剂制备、微球制备技术等方面都取得了突出的原创性成果,发表论著数十篇,包括2篇在本领域最有影响的原创性SCI检索论文。曾为LG公司开发应用于血糖检测的手持式电化学检测设备,以及为澳大利亚国家科学安全与技术部开发多个版本的便携式化学武器检测仪。拥有2项国际专利。曾多次在国际学术会议上作报告,并有特邀报告的经历。2011年回国后主持多项国家自然科学基金。所指导研究生已多次获得国家奖学金并有SCI等检索论文发表。
主要研究方向:
1、 单分散微\纳米液滴及微球制备、单分散微气泡超声造影剂制备及其产业化研究
2、 微流控方法高通量并行免疫和核酸分析及其产业化研究
3、 表面增强拉曼光谱及其在药物分析中的应用
教育和工作经历:
2016年9月--至今,中南大学湘雅药学院,教授
2011年-2016年9月,中南大学药学院,副教授
2008年-2011年,联邦科学与工业研究组织(澳大利亚),材料科学与工程所,博士后
2002年-2008年,浦项工业大学(韩国),博士、博士后
1996年-2002年,哈尔滨工业大学,学士、硕士
欢迎微流控方向、药物分析、微纳米药物制剂方向的同仁加入课题组或攻读学位。
Integrating Artificial Intelligence and Microfluidics Technology for Psoriasis Therapy: A Comprehensive Review for Research and Clinical Applications
点击次数:
影响因子:6.8
DOI码:10.1002/aisy.202400558
所属单位:Xiangya School of Pharmaceutical Sciences in Central South University, Changsha, Hunan, China
发表刊物:Advanced Intelligent Systems
刊物所在地:德国
摘要:Microfluidics has evolved into a transformative technology with far-reachingapplications in biomedical research. However, designing and optimizing custommicrofluidic systems remains challenging because of their inherent complexities.Integrating artificial intelligence (AI) with microfluidics promises to overcomethese barriers by leveraging AI algorithms to automate device design, streamlineexperimentation, and enhance diagnostic and therapeutic outcomes. Psoriasis isan incurable dermatological condition that is difficult to diagnose and treat owingto its complex pathogenesis. Traditional diagnostic and therapeutic approachesare often ineffective and fail to address individual variabilities in disease pro-gression and treatment responses. However, AI-coupled microfluidic platformshave the potential to revolutionize psoriasis research and clinical applicationswith expansive dermatological applications. AI-driven microfluidic chips withembedded biosensors have the potential to precisely detect biomarkers (BMs),manipulate biological samples, and mimic psoriasis-like in vivo and in vitromodels, thereby allowing real-time monitoring and optimized therapeutic testing.This review examines the transformative potential of AI and AI-poweredmicrofluidic platforms for advancing psoriasis research. It examines the designand mechanisms of AI-coupled microfluidic platforms for cell screening, diseasediagnosis, and drug delivery. It highlights recent advances, clinical applications,challenges, future perspectives, and ethical considerations to enhance person-alized care and patient outcomes.REVIEWwww.advintellsyst.comAdv. Intell. Syst. 2024, 2400558 2400558 (1 of 25) © 2024 The Author(s). Advanced Intelligent Systems published by Wiley-VCH GmbH
合写作者:A. Y. Seid, C. Nie, K. Zhang
第一作者:I. Shaw
论文类型:综述论文
通讯作者:C. Chen, Y. Xiao
学科门类:医学
一级学科:药学
页面范围:2400558
ISSN号:2640-4567
是否译文:否
发表时间:2024-11-26
收录刊物:SCI
附件::Advanced Intelligent Systems - 2024 - Shaw - Psoriasis.pdf
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