蔡晓军-硕士研究生指导教师

发布者:在线买球唯一官网 发布时间:2026-07-10 浏览次数:10

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姓名

蔡晓军

职称

研究员

导师资格

博士研究生导师

学科专业

生物医学工程

联系方式

电话:18221551571

E-mailcaixiaojun00@sjtu.edu.cn

一、个人简介

蔡晓军,博士,上海交通大学医学院附属第六人民医院研究员,博导,上海市神经超声影像诊疗重点实验室副主任。系中华医学会超声医学分会第十一届委员会青年学组副组长等。目前主持国家重点研发计划课题、国家自然科学基金面上项目等,入选上海市科技启明星等人才项目。聚焦超声/纳米神经调控,以第一/通讯作者在Nat.Commun.J.Am. Chem. Soc.Adv.Mater.等期刊发表论文20余篇,授权国家发明专利15项,其中3项已转化/作价入股;获上海市自然科学奖一等奖(R4);作为主要完成人获批医疗器械注册证3项。

二、主要学习与工作经历

学习经历:

2012/09–2017/07中国科学院上海硅酸盐研究所,博士

工作经历:

2017/08–至今上海市第六人民医院,研究员

三、主要科研工作与成绩

科研项目

1普鲁士蓝调控“干细胞归巢”与“再生龛构建”协同促进缺血性脑卒中内源性神经再生的机制研究(82572389),国家自然科学基金面上基金项目,2026.01.01-2029.12.31,第一,49,在研(主持)

2光声/超声双模态多光谱功能成像系统研发(课题四:多光谱功能成像临床前动物研究与验证),国家重点研发计划,2023YFC24117042023-112027-10,课题四负责人/第一,70万,在研(主持)

3基于超声和普鲁士蓝的脑神经疾病无创诊断和治疗(SBR2022006),上海交通大学医学院“临床专职科研队伍”双百人项目,2023.01-2025.12,第一,100万,在研(主持)

4影像可视化纳米酶原位持续产氧长时程增强聚焦超声协同治疗胰腺癌的作用机制研究(82172074),国家自然科学基金面上基金项目,2022.01.01-2025.12.31,第一,55,在研(主持)

论文

1.BoChen#, Gao Wei#, Guowei Zeng#, Haoyu Li#, Rongrong Wu, Hongyu Yan,Zijie Zhou, Kai Luo, Xiaoyang Zhang, Cong Li, Longming Huang,Lingyan Cheng, Xinjie Zhang, Jinghao Zheng*, Bozhong Shi*, XiaojunCai*, Xiaomin He*. A Nano-Interception Strategy for Chronic HeartFailure: Prussian Blue Nanoparticles Disrupt Fibroblast-ImmuneCommunication via CCL2 Sequestration. Advanced Materials, 2026; 38(31) :e20209. doi.org/10.1002/adma.202520209.

2.LinglingXu#, Lixian Jiang#, Rongrong Wu#, Hongyu Yan, Bo Li*, XiaojunCai*, Yuanyi Zheng*. Prussian blue nanoparticles targetingmultiple PANoptosome-mediated PANoptosis for myocardialischemiareperfusion injury therapy. Nature Communications, (2026)17:2329.

3.WenyingXu, Rongrong Wu, Zhicheng Liu, Hongyu Yan, Huan Zhang, YuanyiZheng*, Xiaojun Cai*. Nanoparticle-MediatedImmunometabolic-Epigenetic Remodeling Enhances SchwannCell-Macrophage Interaction for Sciatic Nerve Regeneration.Advanced Science, 2026; 13:e22093.

4.MingmingYu#, Xingxuan Zhang#, Huan Zhang#, Jun Wang, Fang Chen, XiaojunCai*, Yichen Huang*, Yuanyi Zheng*. A Conformal WearableUltrasound Bioelectronics for Mechanotherapy Reprogramming ofFibroblast Plasticity via Wnt-FGF10 Axis to Overcome FibroticHealing in Urethral Regeneration. Advanced Science, 2026;13:e00037. doi.org/10.1002/advs.202600037

5.XiyaoGu‡, Zelu Du‡, Yixiao Liu‡, Xu Han‡, Dipesh Chaudhury,Fang Wang, Qi Li, Hongyu Yan*, Xiaojun Cai*, Weifeng Yu*, SongZhang* Prussian blue nanozymes alleviate postoperative pain viaupregulating endogenous SMOC2 secretion in dorsal root ganglionfibroblasts, Journal of Advanced Research, 2026.doi.org/10.1016/j.jare.2026.02.045

6.QinyuanXu, Ziqi Cao, Hongyu Yan, Lingling Xu, Yixiao Liu, Xiaojun Cai*,Yuanyi Zheng*, Prussian Blue Nanozymes Attenuate HepaticFibrogenesis by Disrupting the Oxidative-Inflammatory-FibroticNetwork, ACS Appl Mater Interfaces. 2025, 17, 33, 46733–46743IF:8.2

7.JunyaoYang#, Jian Chen#, Yixiao Liu#, Xinghe Zhao, Zheyi Chen, HaodongZheng, Fangyi Chen, Hongyu Yan*, Xiaojun Cai*, Jing Xu*,Multifunctional Prussian blue nanozymes ameliorate tendinopathyvia modulating tissue homeostasis, Materials Today Bio, 2025, 34,102187

8.YueqiZhang#, Lixian Jiang#, Rongrong Wu#, Wei Gao*, Xiaojie Zhang, LanLiu, Yaxuan Zhang, Jin Lu, Yuanyi Zheng*, Xiaojun Cai*, JianliangFu*, An AIM2 inflammasome biomimetic mineralization inhibitor forvascular dementia therapy, Theranostics, 2025; 15(13): 6347-6368.doi: 10.7150/thno.110389

9.XiaojunCai#, Moran Huang#, Wujie Qiu#, Xue Xie, Jianrong Wu, Hui Qin*,Lei Wang*, Wei Gao*, and Yuanyi Zheng*, Nanoparticles SelectivelyRegulate the Generation and Scavenging of Multiple Reactive OxygenSpecies at Designated Locations and States, Journal of theAmerican Chemical Society 2025 147 (25), 21385-21399, DOI:10.1021/jacs.4c17687

10.WeiGao, Yan Wang, Yuanyi Zheng*, and Xiaojun Cai*. Prussian BlueNanoparticle: From a Photothermal Conversion Agent and a DrugDelivery System, to a Bioactive Drug. Accounts of MaterialsResearch, 2024. 5, 687−698. doi.org/10.1021/accountsmr.3c00260.April 5, 2024

四、主要社会学术团体兼职

1中华医学会超声医学分会第十一届委员会青年学组副组长2026

2上海市医学会超声医学专科分会临研医工学组副组长2026

3上海市超声医学工程学会青年委员会副主任委员2024

五、主要研究方向

1、超声/纳米神经调控


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