陈佳林

富含胶原组织（肌腱、软骨、角膜等）的修复与再生；

干细胞分化命运的调控；

细胞微环境；

组织工程与再生医学

奖励荣誉：

2019.12 东南大学 至善青年学者

2017.09 Travel grant from the Wallenberg Foundation, Sweden

2013.12 澳洲政府 2014 Endeavour Australia Cheung Kong Research Fellowship

2011 浙江大学医学部“杏林学术之星”

2010 浙江大学基础医学院POSTER作品竞赛二等奖

2009.11 第四届COA国际学术大会“优秀论文奖”

指导学生获奖：

2021，本科生朱爱静、罗一帆、张艾妮、池佳宇、郑昊天，获“第七届全国大学生基础医学创新研究暨实验设计论坛总决赛”金奖+最佳学术奖

2021，本科生刘昊洋、朱爱静、蒋余杰、张艾妮，“江苏省大学生创新创业训练计划”结题优秀

1987年生，本科至博士毕业于浙江大学，2018年10月入职东南大学医学院。共发表学术期刊论文44篇（总影响因子308，被引2500余次，H指数22），其中一作和通讯论文22篇（平均影响因子6.8）。

教育经历：

2009.09 - 2014.06 浙江大学基础医学院，硕博连读，干细胞和再生医学专业

导师：欧阳宏伟 教授

2014.01 - 2014.05 澳大利亚西澳大学，访问学者

导师：郑铭豪 教授

2005.09 - 2009.06 浙江大学竺可桢学院，本科，生物科学专业

工作经历：

2018.10 - 至今 东南大学医学院，副教授

2014.09 - 2018.08 瑞典于默奥大学，博士后

导师：Patrik Danielson 教授

学术任职：

中华医学会骨科学分会青年委员。

中国医师协会骨科医师分会青年委员会骨科基础学组委员。

中国骨科再生医学会（CORMed）成员。

Military Medical Research（入选中国科技期刊卓越行动计划）青年编委。

国际期刊 Stem Cells International 客座编辑。

国际期刊 Applied Bionics and Biomechanics 客座编辑。

兼任生物材料、干细胞和组织工程领域10余本国际专业SCI期刊的审稿人，期刊包括 Bioactive Materials, Journal of Nanobiotechnology, Acta Biomaterialia, Stem Cell Research & Therapy 等。

科研项目：

山东省重点研发计划，2022.01-2024.12，参与

南京市留学人员科技创新项目择优资助A类，2020.09-2021.08，负责人

东南大学“至善青年学者”支持计划资助，2020.01-2022.12，负责人

国家自然科学基金--青年基金项目，2020.01-2022.12，负责人

江苏省自然科学基金--青年基金项目，2019.07-2022.06，负责人

（省优势）新进教师人才引进启动费，2019.01-2020.12，负责人

东南大学基础科研扶持项目，2019.04-2019.12，负责人

东南大学中央高校建设一流大学（学科）和特色发展引导专项资金经费，2019

参编书籍：

《再生医学：基础与临床》 2013，人民卫生出版社

《疫苗工程学》 2020，东南大学出版社

发表论文：

Mo QY, Zhang W, Zhu AJ, Backman LJ, Chen JL*. Regulation of osteogenicdifferentiation by the pro-inflammatory cytokines IL-1β and TNF-α: Current conclusions and controversies. Human Cell, 2022. (accepted, IF=4.174)

ZhangW*, Zhang YN, Li XL, Cao ZC, Mo QY, Sheng RW, Ling C, Chi JY, Yao QQ*, Chen JL*. Multifunctional polyphenol-based silk hydrogel alleviate soxidative stress and enhances endogenous regeneration of osteochondral defects.Materials Today Bio, 2022, 14:100251. (IF=7.348)

Zhang AN#, Zhang W#, Backman LJ, Chen JL*. Advances in Regulatory Strategies of Differentiating Stem Cells towards Keratocytes. Stem Cells International 2022, 2022: 5403995 (IF=5.443; 一作为本科生)

Chen JL*, Mo QY, Sheng RW, Zhu AJ, Ling C, Luo YF, Zhang AN, Chen ZX, Yao QQ, Cai ZY*, Zhang W*. The application of human periodontal ligament stem cells and biomimetic silk scaffold for in situ tendon regeneration. Stem Cell Res Ther 2021;12:596. (IF=6.832)

Liu H#, Chen J#, Qiao S#, Zhang W*. Carbon-Based Nanomaterials for Bone and Cartilage Regeneration: A Review. Acs Biomater Sci Eng 2021, 7:4718-4735. (共一，IF=4.749; 一作为本科生)

Zhang W*, Zhang YN, Zhang AN, Ling C, Sheng RW, Li XL, Yao QQ*, Chen JL*. Enzymatically Crosslinked Silk-Nanosilicate Reinforced Hydrogel with Dual-Lineage Bioactivity for Osteochondral Tissue Engineering. Mat Sci Eng C-Mater. 2021,127:112255. (IF=7.328)

Zhang W*, Ling C, Li XL, Sheng RW, Liu HY, Zhang AN, Jiang YJ, Chen JL*, Yao QQ*. Cell-Free Biomimetic Scaffold with Cartilage Extracellular Matrix-Like Architectures for In Situ Inductive Regeneration of Osteochondral Defects. ACS Biomater Sci Eng 2020, 6, 6917-6925. (IF=4.749)

Sheng RW, Jiang YJ, Backman LJ, Zhang W*, Chen JL*. The application of mechanical stimulations in tendon tissue engineering. Stem Cells International 2020, 2020: 8824783. (IF=5.443; 一作为本科生)

Chen J*, Backman LJ, Zhang W, Ling C, Danielson P*. Regulation of keratocyte phenotype and cell behavior by substrate stiffness. ACS Biomaterials Science & Engineering 2020. 6(9): 5162-5171. (IF=4.749)

Zhang W*, Ling C, Zhang AN, Liu HY, Jiang YJ, Li XL, Sheng RW, Yao QQ*, Chen JL*. An all-silk-derived functional nanosphere matrix for sequential biomolecule delivery and in situ osteochondral regeneration. Bioactive Materials. 2020, 5:832-843. (IF=14.593)

Zhang W*, Ling C, Liu HY, Zhang AN, Mao L, Wang J, Chao J, Backman LJ, Yao QQ*, Chen JL*. Tannic Acid-Mediated Dual Peptide-Functionalized Scaffolds to Direct Stem Cell Behavior and Osteochondral Regeneration. Chem Eng J. 2020, 396:125232. (IF=13.273)

Chen J, Zhang W, Backman LJ, Kelk P, and Danielson P: Mechanical stress potentiates the differentiation of periodontal ligament stem cells into keratocytes. Br J Ophthalmol 2018;102; 562-569 (IF=4.638)

Chen J, Zhang W, Kelk P, Backman LJ, and Danielson P: Substance P and Patterned Silk Biomaterial Stimulate Periodontal Ligament Stem Cells to Form Corneal Stroma in a Bioengineered 3D Model. Stem Cell Res Ther 2017;8:260 (IF=6.832)

Chen J, Zhang E, Zhang W, et al. Fos Promotes Early Stage Teno-Lineage Differentiation of Tendon Stem/Progenitor Cells in Tendon. Stem Cells Transl Med. 2017. 6(11): 2009-2019. (IF=6.94)

Chen JL, Lan J, Liu DL, Backman LJ, Zhang W, Zhou QJ, Danielson P. Ascorbic Acid Promotes the Stemness of Corneal Epithelial Stem/Progenitor Cells and Accelerates Epithelial Wound Healing in the Cornea. Stem Cells Transl Med. 2017;6:1356-1365. (IF=6.94)

Chen J, Chen P, Backman LJ, Zhou Q, Danielson P. Ciliary Neurotrophic Factor Promotes the Migration of Corneal Epithelial Stem/progenitor Cells by Up-regulation of MMPs through the Phosphorylation of Akt. Sci Rep 2016;6:25870. (IF=4.379)

Chen JL, Zhang W, Liu ZY, Zhu T, Shen WL, Ran JS, Tang QM, Gong XN, Backman LJ, Chen X, Chen XW, Wen FQ, Ouyang HW. Characterization and comparison of post-natal rat Achilles tendon-derived stem cells at different development stages. Sci Rep 2016;6:22946. (IF=4.379)

Chen JL, Zhang W, Liu ZY, Heng BC, Ouyang HW, Dai XS.Physical regulation of stem cells differentiation into teno-lineage: currentstrategies and future direction. Cell Tissue Res 2015. 360(2):195-207.(IF=5.249)

Shen WL^#, Chen JL^#, Zhu T, Yin Z, Chen X, Chen LK, Fang Z, Heng BC, JiJF, Chen WS, Ouyang HW, Osteoarthritis prevention through meniscal regeneration induced by intra-articular injection of meniscus stem cells. Stem Cells Dev, 2013. 22(14): p. 2071-82. (共一，封面文章, IF=3.272)

Zhang W^#, Chen JL^#, Tao JD, Hu CC,Chen LK, Zhao HS, Xu GW, Heng BC, Ouyang HW. The promotion of osteochondral repair by combined intra-articular injection of parathyroid hormone-related protein and implantation of a bi-layer collagen-silk scaffold. Biomaterials, 2013. 34(25): p. 6046-57. (共一, IF=12.479, 被引78次)

Shen W^#, Chen J^#, Yin Z, Chen X, LiuH, Heng BC, Chen W, Ouyang HW. Allogenous tendon stem/progenitor cells in silk scaffold for functional shoulder repair. Cell Transplant 2012;21(5):943-958. (共一, IF=4.064, 被引97次)

Chen JL, Yin Z, Shen WL, Chen X, Heng BC, Zou XH, Ouyang HW. Efficacy of hESC-MSCs in knitted silk-collagen scaffold for tendon tissue engineering and their roles. Biomaterials 2010. 31(36):9438-9451. (IF=12.479, 被引219次)

Zhang W*, Chen JL, Qu ML, Backman J, Zhang AN, Liu HY, Zhang XP, Zhou QJ*, Danielson P*. Sustained release of TPCA-1 from silk fibroin hydrogels preserves keratocyte phenotype and promotes corneal regeneration by inhibiting interleukin-1β signaling. Adv Healthc Mater. 2020, e2000591. (IF=9.933)

He SQ, Ruan DF, Chen YW, Ran JS, Chen X, Yin Z, Tang CQ, Huang JY, Heng BC, Chen JL, Chen WS, Shen WL, Ouyang HW. Characterization and Comparison of Postnatal Rat Meniscus Stem Cells at Different Developmental Stages. Stem Cells Transl Med. 2019, 8:1318-1329.(IF=6.94)

El-Habta R, Chen JL, Pingel J, Backman LJ.Tendinosis-like changes in denervated rat Achilles tendon. BMC Musculoskelet Disord. 2018,19:426. (IF=2.362)

Zhang W, Li Y, Jiang DM, XieSJ, Zeng MF, Chen JL, Chen LK,Ouyang HW, Zou XH. Promotion of Hernia Repair with High-Strength, Flexible, and Bioresorbable Silk Fibroin Mesh in a Large Abdominal Hernia Model. ACS Biomaterials Science & Engineering 2018 4 (6), 2067-2080 (IF=4.749)

Spang C, Backman LJ, Le RS, Chen J, Danielson P. Glutamate signaling through the NMDA receptor reduces the expression of scleraxis in plantaris tendon derived cells. BMC Musculoskelet Disord.2017.18(1): 218. (IF=2.362)

Zhang W, Chen L, Chen J, Wang L, Gui X, Ran J, Xu G,Zhao H, Zeng M, Ji J, Qian L, Zhou J, Ouyang H, Zou X. Silk Fibroin BiomaterialShows Safe and Effective Wound Healing in Animal Models and a Randomized Controlled Clinical Trial. Adv Healthc Mater 2017. 6. (封面文章, IF=9.933)

Zhang W, Chen J, Backman LJ, Malm AD, Danielson P. Surface Topography andMechanical Strain Promote Keratocyte Phenotype and Extracellular MatrixFormation in a Biomimetic 3D Corneal Model. Adv Healthc Mater. 2017. 6(5). (封面文章, IF=9.933)

Spang C, Chen J, Backman LJ. The tenocyte phenotype of human primary tendoncells in vitro is reduced by glucocorticoids. BMC Musculoskelet Disord. 2016;17:467.(IF=2.362)

Yin Z, Hu JJ, Yang L, ZhengZF, An CR, Wu BB, Zhang C, Shen WL, Liu HH, Chen JL, Heng BC, Guo GJ, Chen X, Ouyang HW. Single-cell analysis reveals a nestin+ tendon stem/progenitor cell population with strong tenogenic potentiality. Science Advances, 2016. 2(11):e1600874-e1600874.(IF=14.136)

Yin Z, Chen X, Song HX, Hu JJ, Tang QM, Zhu T, Shen WL, Chen JL, Liu H, Heng BC, Ouyang HW. Electrospun scaffolds for multiple tissues regeneration in vivo through topography dependent induction of lineage specific differentiation. Biomaterials 2015;44:173-185. (IF=12.479)

Tang QM, Chen JL, Shen WL, Yin Z, Liu HH, Fang Z, Heng BC, Ouyang HW, Chen X. Fetal and adult fibroblasts display intrinsic differences in tendon tissue engineering and regeneration. Sci Rep2014;4:5515. (IF=4.379)

Shen WL, Chen JL, Zhu T, Chen LK, Zhang W, Fang Z, Heng BC, Yin Z, Chen X,Ji JF, Chen WS, Ouyang HW. Intra-Articular Injection of Human MeniscusStem/Progenitor Cells Promotes Meniscus Regeneration and Ameliorates Osteoarthritis Through Stromal Cell-Derived Factor-1/CXCR4-Mediated Homing. Stem Cells Transl Med, 2014. 3(3): p. 387-94. (IF=6.94)

Chen X, Yin Z, Chen JL, Liu HH, Shen WL, Fang Z, ZhuT, Ji JF, Ouyang HW, Zou XH. Scleraxis-overexpressed human embryonic stemcell-derived mesenchymal stem cells for tendon tissue engineering with knittedsilk-collagen scaffold. Tissue Eng Part A,2014. 20(11-12): p. 1583-92. (IF=3.845)

Fang Z, Zhu T, Shen WL, Tang QM, Chen JL, Yin Z, Ji JF, Heng BC, Ouyang HW, Chen X. Transplantationof fetal instead of adult fibroblasts reduces the probability of ectopicossification during tendon repair. TissueEng Part A, 2014. 20(13-14): p.1815-26. (IF=3.845)

Shen W, Chen X, Hu Y, Yin Z, Zhu T, Hu J, Chen J, Zheng Z, Zhang W, Ran J, HengBC, Ji J, Chen W, Ouyang HW. Long-term effects of knitted silk-collagen spongescaffold on anterior cruciate ligament reconstruction and osteoarthritisprevention. Biomaterials 2014;35(28):8154-8163. (IF=12.479)

Zhang W, Chen J, Tao J, Jiang Y, Hu C, Huang L, Ji JF, Ouyang HW. The use oftype 1 collagen scaffold containing stromal cell-derived factor-1 to create amatrix environment conducive to partial-thickness cartilage defects repair. Biomaterials2013;34(3):713-723. (IF=12.479)

Chen X, Yin Z, Chen JL, Shen WL, Liu HH, Tang QM, FangZ, Lu LR, Ji JF, Ouyang HW. Force and scleraxis synergistically promote thecommitment of human ES cells derived MSCs to tenocytes. Sci Rep, 2012. 2: p.977. (IF=4.379)

Zou XH, Jinag YZ, Chen JL, Chen X, Ouyang HW. Tissueengineering for soft tissue regeneration. Science.2012 April:(Suppl: regenerative medicine in China): 33-34. (Science专刊)

Zhang W, Chen J, Zhang S, Ouyang HW. Inhibitory function of parathyroidhormone-related protein on chondrocyte hypertrophy: the implication forarticular cartilage repair. Arthritis ResTher 2012;14(4):221. (IF=5.156)

Yin Z, Chen X, Chen JL, Shen WL, Hieu NT, Gao L, andOuyang HW. The regulation of tendon stem cell differentiation by the alignmentof nanofibers. Biomaterials 2010;31(8):2163-2175. (IF=12.479)

Shen W,Chen X, Chen J, Yin Z, Heng BC, ChenW, Ouyang HW. The effect of incorporation ofexogenous stromal cell-derived factor-1 alpha within a knitted silk-collagensponge scaffold on tendon regeneration. Biomaterials2010;31(28):7239-7249. (IF=12.479)

Yin Z, Chen X, Chen JL, Ouyang HW. Stem cells fortendon tissue engineering and regeneration. Expert Opin Biol Ther 2010;10(5):689-700. (IF=4.388)

注：上述标注均为2020年度影响因子：2020 Journal Citation Reports (Clarivate Analytics 2021)。