第一/共同第一/通讯作者文章
[1] Caixia Fan, Hui Cai, Lulu Zhang, et al. Constructing Linear-Oriented Pre-Vascularized Human Spinal Cord Tissues for Spinal Cord Injury Repair [J]. Advanced Healthcare Materials, 2024,e2303388.
[2] Caixia Fan, Jiaxiong He, Sijia Xu, et al. Advances in biomaterial-based cardiac organoids [J]. Biomaterials Advance, 2023, 153:213502.
[3] Fan CX, Zhang LL, Yang W, et al. Restoration of spinal cord biophysical microenvironment for enhancing tissue repair by injury-responsive conductive hydrogel[J]. Biomaterials, 2022, 288, 121689.
[4] Liu S, Fan CX（co-first author）, Xie YY, et al. Collagen scaffold loaded allogeneic neural stem cells promoted locomotion recovery of spinal cord injury mainly through secreting neurotrophic factors[J]. Materials & Design, 2022, 219, 110804.
[5] Shen H, Fan CX（co-first author）, You ZF, et al. Advances in biomaterial-based spinal cord injury repair[J]. Advanced Functional Materials, 2021, 2110628.
[6] Xue WW, Fan CX（co-first author）, Chen B, et al. Direct neuronal differentiation of neural stem cells for spinal cord injury repair[J]. Stem Cells, 2021, 1-8.
[7] Fan CX, Shi JJ, et al. Myocardial-Infarction-Responsive Smart Hydrogels Targeting Matrix Metalloproteinase for On-Demand Growth Factor Delivery[J]. Advanced Materials, 2019, 1902900.
[8] Shi JJ, Fan CX (co-first author), et al. Heparan sulfate proteoglycan promotes fibroblast growth factor-2 function for ischemic heart repair[J]. Biomaterials Science, 2019, 7, 5438-5450.
[9] Fan CX, Li X, Zhao YN, et al. Cetuximab and Taxol co-modified collagen scaffolds show combination effects for the repair of acute spinal cord injury[J]. Biomaterials Science, 2018, 6: 1723-1734.
[10] Li XR, Fan CX (co-first author), Xiao ZF, et al. A collagen microchannel scaffold carrying paclitaxel-liposomes induces neuronal differentiation of neural stem cells through Wnt/ß-catenin signaling for spinal cord injury repair[J]. Biomaterials, 2018, 183: 114-127.
[11] Fan CX, Li X, Xiao ZF, et al. A modified collagen scaffold facilitates endogenous neurogenesis for acute spinal cord injury repair[J]. Acta Biomaterialia, 2017, 51: 304-316.
[12] Wang L, Fan CX (co-first author), Xu WT et al. Characterization and functional analysis of a novel C1q-domain- containing protein in Japanese flounder (Paralichthys olivaceus)[J]. Developmental and Comparative Immunology, 2017, 67: 322-332.

参与作者文章
[1] Chen ZN, Zhang HM, Fan CX, et al. Adhesive, stretchable, and spatiotemporal delivery fibrous hydrogels harness endogenous neural stem/progenitor cells for spinal cord injury repair[J]. ACS Nano, 2022, 16, 1986-1998.
[2] Zhang LL, Fan CX, Hao WP, et al. NSCs migration promoted and drug delivered exosomes-collagen scaffold via a bio-specific peptide for one-step spinal cord injury repair[J]. Advanced Healthcare Materials, 2021, 10, 2001896.
[3] Shi LY, Zhao YN, Xie QF, Fan CX, et al. Moldable hyaluronan hydrogel enabled by dynamic metal-bisphosphonate coordination chemistry for wound healing[J]. Advanced Healthcare Materials, 2018, 7:1700973.
[4] Han SF, Xiao ZF, Li X, Zhao H, Wang B, Qiu ZX, Li Z, Mei X, Xu B, Fan CX, et al. Human placenta-derived mesenchymal stem cells loaded on linear ordered collagen scaffold improves functional recovery after completely transected spinal cord injury in canine[J]. Science China Life Sciences, 2018, 61(1): 2-13.
[5] Liu SM, Xiao ZF, Li X, Zhao YN, Wu XM, Han J, Chen B, Li JY, Fan CX, et al. Vascular endothelial growth factor activates neural stem cells through epidermal growth factor receptor signal after spinal cord injury[J]. CNS Neuroscience & Therapeutics, 2019, 25: 375-385.
[6] Xue WW, Zhao YN, Xiao ZF, Wu XM, Ma DZ, Han J, Li X, Xue XY, Yang Y, Fan CX, et al. Epidermal growth factor receptor-extracellular-regulated kinase blockade upregulates TRIM32 signaling cascade and promotes neurogenesis after spinal cord injury[J]. STEM CELLS, 2019, 38: 118-133.

专利
[1] 用于修复脊髓损伤的类脊髓组织材料、其构建方法及应用：中国，202210308802.3
[2] 明胶基导电水凝胶、其制备方法及应用：中国，202111244001. 7
[3] 一种脊髓小胶质细胞的培养方法及应用：中国，202111472099.1
[4] 微环境控释型功能化水凝胶、其制备方法及应用：中国，ZL 2019 1 0180252.X，授权
[5] 双重修饰的胶原支架及在修复脊髓损伤的产品中的应用：中国，ZL 2017 1 0493863.0，授权
[6] 胶原特异结合能力的EGFR抗体及在脊髓损伤修复中的应用：中国，ZL 2016 1 0841518.7，授权