近年论文:(*通讯作者)
著 | 主编 | 参编章节 | 参编章节 | 参编章节 | 参编章节 |
2024年:
[07] Qiao F. Y., Zou Y.*, Lv Y. G.*, Growth factor collected cell membrane-functionalized matrix for vascular-innervated bone regeneration, Composites Part B Engineering, in press, 2024.(IF=12.7, JCR 1区)
[06] Wang S., Zou Y., Hu L. F., Lv Y. G.*, Manganese-doped liquid metal nanoplatforms for cellular uptake and glutathione depletion-enhanced photothermal and chemodynamic combination tumor therapy, Acta Biomaterialia, in press, 2024.(IF=9.4, JCR 1区)
[05] Tang J. B., Zou Y., Liu C. F., Lv Y. G.*, Liquid metal fiber-based high-sensitivity strain and pressure sensors enhanced by porous structure, ACS Applied Electronic Materials, in press, 2024.(IF=4.3, JCR 1区)
[04] Hu L. F., Cao J. K., Lv Y. G.*, A mitochondria-targeted biocompatible photothermal nanoscale hydrogen-organic framework for effective multimodal-imaging guided breast cancer therapy, Chemical Engineering Journal, vol. 492, 152270, 2024. (IF=13.3, JCR 1区)
[03] Wang S., Lv Y. G.*, Silica-coated liquid metal nanoparticles with different stiffness for cellular uptake-enhanced tumor photothermal therapy, Biomaterials Advances, vol. 161, 213872, 2024. (IF=5.5, JCR 1区)
[02] Bie B. L., Zhu Z. L. (co-first author), Lv Y. G.*, Immobilization of metal-organic framework on nanofiber membrane as artificial platelets for efficient hemostasis, Advanced Fiber Materials, vol. 6 (5), 1456-1469, 2024. (IF=17.2, JCR 1区)
[01] Lv Y. G.*, Chen X., Shen Y. P., Folate-modified carboxymethyl chitosan-based drug delivery system for breast cancer specific combination therapy via regulating mitochondrial calcium concentration, Carbohydrate Polymers, vol. 323, 121434, 2024. (IF=10.7, JCR 1区)
2023年:
[12] Qiao F. Y., Zou Y., Bie B. L., Lv Y. G.*, Dual siRNA-loaded cell membrane functionalized matrix facilitates bone regeneration with angiogenesis and neurogenesis, Small, vol. 20 (8), 2307062, 2023. (IF=13.3, JCR 1区)
[11] Hu L. F., Lv Y. G.*, Covalent organic framework-based nanoplatforms with tunable mechanical properties for drug delivery and cancer therapy, Mechanobiology in Medicine, vol. 1, 100024, 2023.
[10] Chen L. N., Lv Y. G.*, Suspension state affects the stemness of breast cancer cells by regulating the glycogen synthase kinase-3, Tissue & Cell, vol. 85, 102208, 2023.
[09] Shen Y. P., Zou Y., Bie B. L., Lv Y. G.*, Hierarchically released liquid metal nanoparticles for mild photothermal therapy/chemotherapy of breast cancer bone metastases via remodeling tumor stromal microenvironment, Advanced Healthcare Materials, vol. 12, e2301080, 2023. (IF=11.092, JCR 1区)
[08] Hu L. F., Li S. T. (co-first author), Lv Y. G.*, pH-sensitive cationic polymer/DNA nano-assemblies for efficient gene transfection in neuroma cells, ACS Applied Nano Material, vol. 6 (12), 10559-10568, 2023. (IF=6.140, JCR 2区)
[07] Chen Z. Y., Zou Y.*, Lv Y. G.*, Dynamic stiffening collagen-coated substrate enhances osteogenic differentiation of mesenchymal stem cells through integrin α2β1, Biomaterials Science, vol. 11 (13), 4700-4712, 2023. (IF=7.590, JCR 1区)
[06] Qiao F. Y., Lv Y. G.*, Hybrid cell membrane-functionalized matrixes for modulating inflammatory microenvironment and improving bone defect repair, Advanced Healthcare Materials, vol. 12 (19), e2203047, 2023. (IF=11.092, JCR 1区)
[05] Zhao B. Y., Lv Y. G.*, A biomechanical view of epigenetic tumor regulation, Journal of Biological Physics, vol. 49 (3), 283-307, 2023.
[04] Chen G. B.*, Deng Y. X., Xia B., Lv Y. G.*, In situ regulation and mechanisms of 3D matrix stiffness on the activation and reversion of hepatic stellate cells, Advanced Healthcare Materials, vol. 12 (9), e2202560, 2023. (IF=11.092, JCR 1区)
[03] Shen Y. P., Zou Y., Bie B. L., Dong C. J., Lv Y. G.*, Combining dual-targeted liquid metal nanoparticles with autophagy activation and mild photothermal therapy for treating metastatic breast cancer and inhibiting bone destruction, Acta Biomaterialia, vol. 157, 578-592, 2023. (IF=10.633, JCR 1区)
[02] Bie B. L., Xu W. L., Lv Y. G.*, Liquid metal-based textiles for smart clothes, Science China Technological Sciences, vol. 66 (6), 1511-1529, 2023. (IF=3.903, JCR 2区)
[01] Zhao B. Y., Lv Y. G.*, Suspension state and shear stress enhance breast tumor cells EMT through YAP by microRNA-29b, Cell Biology and Toxicology, vol. 39 (3), 1037-1052, 2023. (IF=6.819, JCR 1区)
2022年:
[13] Chen Z. Y., Lv Y. G.*, Uninterrupted dynamic stiffening microenvironment enhances the paracrine function of mesenchymal stem cells for vascularization through chromatin remodeling, Materials & Design, vol. 224, 111328, 2022. (IF=9.417, JCR 1区)
[12] Chen Z. Y., Du W. J., Lv Y. G.*, Zonally stratified decalcified bone scaffold with different stiffness modified by fibrinogen for osteochondral regeneration of knee joint defect, ACS Biomaterials Science & Engineering, vol. 8 (12), 5257-5272, 2022. (IF=5.395, JCR 2区)
[11] 武亚琪, 琚海燕*, 吕永钢*, 天然胶原多肽及其护肤功效的最新研究进展, 生物医工程学杂志, vol. 39 (6), 1259-1267, 2022.
[10] Lv Y. G.*, Wei C. L., Zhao B. Y., Study on the mechanism of low shear stress restoring the viability of damaged breast tumor cells, Tissue & Cell, vol. 79, 101947, 2022.
[09] Yao D. D., Zou Y., Lv Y. G.*, Maresin 1 enhances osteogenic potential of mesenchymal stem cells by modulating macrophage peroxisome proliferator-activated receptor-γ-mediated inflammation resolution, Biomaterials Advances, vol. 141, 213116, 2022. (IF=8.457, JCR 1区)
[08] Shen Y. P., Lv Y. G.*, Dual targeted zeolitic imidazolate framework nanoparticles for treating metastatic breast cancer and inhibiting bone destruction, Colloids and Surfaces B Biointerfaces, vol. 219, 112826, 2022. (IF=5.999, JCR 1区)
[07] Chen Z. Y., Lv Y. G.*, Gelatin/sodium alginate composite hydrogel with dynamic matrix stiffening ability for bone regeneration, Composites Part B Engineering, vol. 243, 110162, 2022. (IF=11.322, JCR 1区)
[06] Yao D. D., Lv Y. G.*, A cell-free difunctional demineralized bone matrix scaffold enhances the recruitment and osteogenesis of mesenchymal stem cells by promoting inflammation resolution, Biomaterials Advances, vol. 139, 213036, 2022. (IF=8.457, JCR 1区)
[05] Li S., Dong C. J., Lv Y. G.*, Magnetic liquid metal scaffold with dynamically tunable stiffness for bone tissue engineering, Biomaterials Advances, vol. 139, 212975, 2022. (IF=8.457, JCR 1区)
[04] Hao Y. T., Gao J. Y., Lv Y. G.*, Liu J.*, Low melting point alloys enabled stiffness tunable advanced materials, Advanced Functional Materials, vol. 32 (25), 2201942, 2022. (IF=19.924, JCR 1区)
[03] 陈振银, 吕永钢*, 材料生物力学2021年度研究进展, 医用生物力学, vol. 37 (2), pp. 211-218, 2022.
[02] Zhao B. Y., Tang M., Lv Y. G.*, Shear stress regulates the migration of suspended breast cancer cells by nuclear lamina protein A/C and large tumor suppressor through yes-associated protein, Human Cell, vol. 35 (2), 583-598, 2022.
[01] Deng Y. X., Xia B., Chen Z. M., Wang F. P., Lv Y. G., Chen G. B.*, Stem cell-based therapy strategy for hepatic fibrosis by targeting intrahepatic cells, Stem Cell Reviews and Reports, vol. 18 (1), 77-93, 2022. (IF=6.692, JCR 2区)
2021年:
[13] Song Y., Long J. Y. (co-first author), Dunkers J. P., Woodcock J. W., Lin H. C., Fox D. M., Liao X. L., Lv Y. G.*, Yang L.*, Chiang M. Y. M.*, Micromechanical compatibility between cells and scaffolds directs the phenotypic transition of stem cells, ACS Applied Materials & Interfaces, vol. 13 (48), 58152-58161, 2021. (IF=9.229, JCR 1区)
[12] Yao D. D., Qiao F. Y., Song C. C., Lv Y. G.*, Matrix stiffness regulates bone repair by modulating 12-lipoxygenase-mediated early inflammation, Materials Science & Engineering C-Materials for Biological Applications, vol. 128, 112359, 2021. (IF=7.328, JCR 1区)
[11] Dong C. J., Qiao F. Y. (co-first author), Chen G. B., Lv Y. G.*, Demineralized and decellularized bone extracellular matrix incorporated electrospun nanofibrous scaffold for bone regeneration, Journal of Materials Chemistry B, vol. 9 (34), 6881-6894, 2021. (IF=6.331, JCR 2区)
[10] Qiao F. Y., Dong C. J., Yao D. D., Xu Z. L., Lv Y. G.*, 4-Octyl itaconate modified demineralized bone matrix scaffold improves bone repair by regulating early inflammation, Chemical Engineering Journal, vol. 425, 131490, 2021. (IF=13.273, JCR 1区)
[09] Tang M., Lv Y. G.*, The role of N6-methyladenosine modified circular RNA in pathophysiological processes, International Journal of Biological Sciences, vol. 17 (9), 2262-2277, 2021. (IF=6.580, JCR 1区)
[08] Liang Z., Yang L., Lv Y. G.*, Exosome derived from mesenchymal stem cells mediates hypoxia-specific BMP2 gene delivery and enhances bone regeneration, Chemical Engineering Journal, vol. 422, 130084, 2021. (IF=13.273, JCR 1区)
[07] Wei C. L., Tang M. (co-first author), Xu Z. L., Yang L., Lv Y. G.*, Role of endothelial cells in the regulation of mechanical microenvironment on tumor progression, Acta Mechanica Sinica, vol. 37 (2), 218-228, 2021.
[06] Xia B., Deng Y. X., Lv Y. G., Chen G. B.*, Stem cell recruitment based on scaffold features for bone tissue engineering, Biomaterials Science, vol. 9 (4), 1189-1203, 2021. (IF=6.843, JCR 1区,Back Cover文章)
[05] Lv Y. G.*, Wang H. J., Li G., Zhao B. Y., Three-dimensional decellularized tumor extracellular matrices with different stiffness as bioengineered tumor scaffolds, Bioactive Materials, vol. 6 (9), 2767-2782, 2021. (IF=14.593, JCR 1区)
[04] Lv Y. G.*, Zhang X. M., Chen L. N., Suspension state regulates epithelial-to-mesenchymal transition and stemness of breast tumor cells, Biotechnology Letters, vol. 43 (3), 561-578, 2021.
[03] Leng Q. P., Liang Z., Lv Y. G.*, Demineralized bone matrix scaffold modified with mRNA derived from osteogenically pre-differentiated MSCs improves bone repair, Materials Science & Engineering C-Materials for Biological Applications, vol. 119, 111601, 2021. (IF=7.326, JCR 1区)
[02] 徐志玲,吕永钢,梅虎,杨迎伍,“半翻转课堂+半自主设计”教学模式在实验教学改革中的探索与实践, 实验技术与管理, vol. 38 (1), 191-194, 2021.
[01] 徐志玲,王贵学,王伯初,刘万钱,吕永钢,新工科背景下教育部重点实验室建设对策探究, 实验室研究与探索, vol. 40 (6), 146-149, 2021.
2020年:
[08] 徐志玲,段铭,卢来春,吕永钢*,新工科背景下医工融合实验室安全保障体系建设研究, 科教导刊, vol. 35, 20-22, 2020.
[07] Dong C. J., Qiao F. Y., Hou W. S., Yang L., Lv Y. G.*, Graphene-based conductive fibrous scaffold boosts sciatic nerve regeneration and functional recovery upon electrical stimulation, Applied Materials Today, vol. 21, 100870, 2020. (IF=8.352, JCR 1区)
[06] Liang Z., Luo Y., Lv Y. G.*, Mesenchymal stem cell-derived microvesicles mediate BMP2 gene delivery and enhance bone regeneration, Journal of Materials Chemistry B, vol. 8 (30), 6378-6389, 2020. (IF=5.344, JCR 1区,Back Cover文章)
[05] Lv Y. G.*, Application of physical stimulation in stem cell-based tissue engineering, Current Stem Cell Research & Therapy, vol. 15 (5), 389-390, 2020. (Editorial)
[04] Li S., Wei C. L. (co-first author), Lv Y. G.*, Preparation and application of magnetic responsive materials in bone tissue engineering, Current Stem Cell Research & Therapy, vol. 15 (5), 428-440, 2020.
[03] Leng Q. P., Chen L. N., Lv Y. G.*, RNA-based scaffolds for bone regeneration: application and mechanisms of mRNA, miRNA and siRNA, Theranostics, vol. 10 (7), 3190-3205, 2020. (IF=8.579, JCR 1区)
[02] Wang Y., Zhang X. M., Zhao B. Y., Xu Z. L.*, Lv Y. G.*, Suspension state promotes drug resistance of breast tumor cells by inducing ABCC3 overexpression, Applied Biochemistry and Biotechnology, vol. 190 (2), 410-422, 2020.
[01] He J. H., Chen G. B. (co-first author), Liu M. Y., Xu Z. L., Chen H., Yang L., Lv Y. G.*, Scaffold strategies for modulating immune microenvironment during bone regeneration, Materials Science & Engineering C-Materials for Biological Applications, vol. 108, 110411, 2020. (IF=5.88, JCR 1区)
2019年:
[06] 李强, 杨力, 吕永钢*, 流体剪切力作用下间充质干细胞在三维支架上生长率理论模型的优化, 生物医学工程学杂志, vol. 36 (5), 795-802, 2019.
[05] Chen G. B.*, Xia B., Fu Q., Huang X., Wang F. P., Chen Z. M.*, Lv Y. G.*, Matrix mechanics as regulatory factors and therapeutic targets in hepatic fibrosis, International Journal of Biological Sciences, vol. 15 (12), 2509-2521, 2019.(IF=4.067, 科学院2区)
[04] Xia B., Chen G. B., Zou Y., Yang L., Pan J., Lv Y. G.*, Low-intensity pulsed ultrasound combination with induced pluripotent stem cells-derived neural crest stem cells and growth differentiation factor 5 promotes sciatic nerve regeneration and functional recovery, Journal of Tissue Engineering and Regenerative Medicine, vol. 13 (4), 625-636, 2019. (IF=4.089, 科学院2区)
[03] 吕永钢*,詹世革,第三届全国生物力学青年学者学术研讨会报告综述, 力学学报, vol. 51 (1), 298-303, 2019.
[02] Sun Y. Y., Chen G. B., Lv Y. G.*, Effects of hypoxia on the biological behavior of MSCs seeded in demineralized bone scaffolds with different stiffness, Acta Mechanica Sinica, vol. 35 (2), 309-320, 2019.
[01] Sha Y. Q., Yang L., Lv Y. G.*, MGF E peptide improves anterior cruciate ligament repair by inhibiting hypoxia-induced cell apoptosis and accelerating angiogenesis, Journal of Cellular Physiology, vol. 234 (6), 8846-8861, 2019. (IF=3.923, 科学院2区)
2018年:
[13] 杨力, 吕永钢, 主编, 组织修复生物力学, 上海交通大学出版社, 2017.12.
[12] 徐志玲,吕永钢,杨力,颜艳,沙永强,应力加载系统在细胞力学研究与教学中的应用, 实验室科学, vol. 21 (6), 119-124, 2018.
[11] Chen G. B., Lv Y. G.*, Decellularized bone matrix scaffold for bone regeneration, in Decellularized Scaffolds and Organogenesis (Kursad Turksen eds.), Springer, vol. 1577, 239-254, 2018. (邀请稿, Methods in Molecular Biology series丛书系列)
[10] Liu M. Y., Lv Y. G.*, Reconstructing bone with natural bone graft: a review of in vivo studies in bone defect animal model, Nanomaterials, vol. 8 (12), 999, 2018. (邀请综述, IF=3.504, 科学院2区)
[09] Zhang B. B., Zhang Y., Zhang X. M., Lv Y. G.*, Suspension state promotes extravasation of breast tumor cells by increasing integrin β1 expression, Biocell, vol. 42 (1), 17-24, 2018.
[08] Hu Q. X., Liu , M. Y. (co-first author), Chen G. B., Xu Z. L., Lv Y. G.*, Demineralized bone scaffolds with tunable matrix stiffness for efficient bone integration, ACS Applied Materials & Interfaces, vol. 10 (33), 27669-27680, 2018. (IF=8.079,科学院1区)
[07] Zhang X. M., Yang L., Chien S., Lv Y. G.*, Suspension state promotes metastasis of breast cancer cells by up-regulating cyclooxygenase-2, Theranostics, vol. 8 (14), 3722-3736, 2018. (IF=8.537, 科学院1区)
[06] Xia T. T., Zhao R. Z. (co-first author), Feng F., Song Y. J., Zhang Y., Dong L. L., Lv Y. G.*, Yang L.*, Gene expression profiling of human hepatocytes grown on differing substrate stiffness, Biotechnology Letters, vol. 40 (5), 809-818, 2018.
[05] Xia T. T., Zhao R. Z., Liu W. Q., Huang Q. P., Chen P. X., Waju Y. N., Mohanad K. A., Lv Y. G.*, Yang L.*, Effect of substrate stiffness on hepatocyte migration and cellular Young’s modulus, Journal of Cellular Physiology, vol. 233 (9), 6996-7006, 2018. (IF=3.923, 科学院2区)
[04] Song Y., Xu K., Yu C., Dong L. L., Chen P. X., Lv Y. G., Chiang M. Y. M., Li L. H., Liu W. Q., Yang L., The use of mechano growth factor to prevent cartilage degeneration in knee osteoarthritis, Journal of Tissue Engineering and Regenerative Medicine, vol. 12 (3), 738-749, 2018. (IF=4.089, 科学院2区)
[03] He J. H., Dong L. L., Xu K., Qian Y. N., Wang C. L., Sha Y. Q., Zhong J. L., Liu W. Q., Lv Y. G., Song Y., Yang L., Mechano growth factor E peptide inhibits invasion of melanoma cells and up-regulates CHOP expression via endoplasmic reticulum stress, Biotechnology Letters, vol. 40 (1), 205-213, 2018.
[02] Sha Y. Q., Yang L., Lv Y. G.*, ERK1/2 and Akt phosphorylation were essential for MGF E peptide regulating cell morphology and mobility but not proangiogenic capacity of BMSCs under severe hypoxia, Cell Biochemistry and Function, vol. 36 (3), 113-171, 2018.
[01] Xia B., Lv Y. G.*, Dual-delivery of VEGF and NGF by emulsion electrospun nanofibrous scaffold for peripheral nerve regeneration, Materials Science & Engineering C-Materials for Biological Applications, vol. 82, 253-264, 2018. (IF=5.080, 科学院2区)
2017年:
[07] Xia B., Zou Y., Xu Z. L., Lv Y. G.*, Gene expression profiling analysis of the effects of low-intensity pulsed ultrasound on induced pluripotent stem cell-derived neural crest stem cells, Biotechnology and Applied Biochemistry, vol. 64 (6), 927-937, 2017.
[06] Sha Y. Q., Lv Y. G.*, Xu Z L., Yang L., Hao X. Y., Afandi R., MGF E peptide pretreatment improves the proliferation and osteogenic differentiation of BMSCs via MEK-Erk1/2 and PI3K-Akt pathway under severe hypoxia, Life Sciences, vol. 189, 52-62, 2017.
[05] Zhang X. M., Lv Y. G.*, Suspension state increases reattachment of breast cancer cells by up-regulating lamin A/C, Biochimica et Biophysica Acta-Molecular Cell Research, vol. 1864 (12), 2272-2282, 2017. (IF=4.521, 科学院2区)
[04] Chen G. B., Lv Y. G.*, Matrix elasticity-modified scaffold loaded with SDF-1α improves the in situ regeneration of segmental bone defect in rabbit radius, Scientific Reports, vol. 7, 1672, 2017. (IF=4.259, 科学院2区)
[03] Sha Y. Q., Afandi R., Zhang B. B., Yang L., Lv Y. G.*, MGF E peptide pretreatment improves collagen synthesis and cell proliferation of injured human ACL fibroblasts via MEK-ERK1/2 signaling pathway, Growth Factors, vol. 35 (1), 29-38, 2017.
[02] Lv Y. G.*, Chen C., Zhao B. Y., Zhang X. M., Regulation of matrix stiffness on the epithelial-mesenchymal transition of breast cancer cells under hypoxia environment, The Science of Nature (Naturwissenschaften), vol. 104 (5-6), 38, 2017.
[01] Chen G. B., Xu R. (共同第一作者), Zhang C., Lv Y. G.*, Responses of MSCs to 3D scaffold matrix mechanical properties under oscillatory perfusion culture, ACS Applied Materials & Interfaces, vol. 9 (2), 1207-1218, 2017. (IF=7.504, 科学院1区)
2016年:
[08] 李贵,张小梅,吕永钢*, 三维工程化肿瘤模型的构建及应用, 生命的化学, vol. 36 (6), 823-833, 2016.
[07] Chen G. B., Lv Y. G.*, Nanotechnology-based cryopreservation of cell-scaffold constructs: a new breakthrough to clinical application, CryoLetters, vol. 37 (6), 381-387, 2016. (邀请综述)
[06] Lv Y. G.*, Lin C. W., High mobility group box 1-immobilized nanofibrous scaffold enhances vascularization, osteogenesis and stem cells recruitment, Journal of Materials Chemistry B, vol. 4 (29), 5002-5014, 2016. (IF=4.872, 科学院1区)
[05] Chen G. B., Yang L., Lv Y. G.*, Cell-free scaffolds with different stiffness but same microstructure promote bone regeneration in rabbit large bone defect model, Journal of Biomedical Materials Research Part A, vol. 104 (4), 833-841, 2016. (IF=3.369, 科学院2区)
[04] Dong C. J., Lv Y. G.*, Application of collagen scaffold in tissue engineering: recent advances and new perspectives, Polymers, vol. 8 (2), 42, 2016. (IF=3.681, 科学院2区,ESI高被引论文)
[03] Song Y., Yu C., Wang C. L., Ma X. S., Xu K., Zhong J. L., Lv Y. G., Sung K. L. P., Yang L., Mechano growth factor-C24E, a potential promoting biochemical factor for ligament tissue engineering, Biochemical Engineering Journal, vol. 105 (Part A), 249-263, 2016.(科学院2区)
[02] 陈灿, 张小梅, 杨力, 吕永钢*, 低氧介导的信号通路调控肿瘤细胞上皮间质转化的研究进展, 生物医学工程学杂志, vol. 33 (3), 575-582, 2016
[01] 沙永强, 吕永钢*, 力生长因子E肽对前交叉韧带成纤维细胞活力、迁移与侵袭的影响, 医用生物力学, vol. 31 (3), 227-234, 2016.
2015年:
[11] Lv Y. G.*, Nan P. P., Chen G. B., Sha Y. Q., Xia B., Yang L., In vivo repair of rat transected sciatic nerve by low-intensity pulsed ultrasound and induced pluripotent stem cells-derived neural crest stem cells, Biotechnology Letters, vol. 37 (12), pp. 2497-2506, 2015.
[10] Li H. B., Lei M. X., Luo Z. W., Wu S. C., Zhong L., Xu Z. L., Lv Y. G., Yang L., Mechano-growth factor enhances differentiation of bone marrow-derived mesenchymal stem cells, Biotechnology Letters, vol. 37 (11), pp. 2341-2348, 2015.
[09] Li H. B., Lei M. X., Yu C., Lv Y. G., Song Y., Yang L., Mechano growth factor-E regulates apoptosis and inflammatory responses in fibroblast-like synoviocytes of knee osteoarthritis, International Orthopaedics, vol. 39 (12), pp. 2503-2509, 2015.
[08] Chen G. B., Dong C. J., Yang L., Lv Y. G.*, 3D scaffolds with different stiffness but the same microstructure for bone tissue engineering, ACS Applied Materials & Interfaces, vol. 7 (29), pp. 15790-15802, 2015. (IF=6.723, 科学院1区)
[07] Luo Z., Jiang L. (co-first author), Xu Y., Li H., Xu W., Wu S., Wang Y., Tang Z., Lv Y. G.*, and Yang L.*, Mechano growth factor (MGF) and transforming growth factor (TGF)-β3 functionalized silk scaffolds enhance articular hyaline cartilage regeneration in rabbit model, Biomaterials, vol. 52, pp. 463-475, 2015. (IF=8.557, 科学院1区)
[06] Lv Y. G.*, Nanofiber-based drug design, delivery and application, Current Pharmaceutical Design, vol. 21 (15), pp. 1918-1919, 2015. (IF=3.452)
[05] Chen G. B., Lv Y. G.*, Immobilization and application of electrospun nanofiber scaffold-based growth factor in bone tissue engineering, Current Pharmaceutical Design, vol. 21 (15), pp. 1967-1978, 2015. (IF=3.452)
[04] Chen G. B., Lv Y. G.*, Dong C. J., Yang L., Effect of internal structure of collagen/hydroxyapatite scaffold on the fate of mesenchymal stem cells, Current Stem Cell Research & Therapy, vol. 10 (2), pp. 99-108, 2015.
[03] Qian Y. N., Li L. H., Jiang C., Xu W., Lv Y. G., Zhong L., Cai K. Y., Yang L.*, The effect of hyaluronan on the motility of skin dermal fibroblasts in nanofibrous scaffolds, International Journal of Biological Macromolecules, vol. 79, pp. 133-143, 2015.
[02] Li L. H., Qian Y. N., Lin C. W., Li H. B., Jiang C., Lv Y. G., Liu W. Q., Cai K. Y., Germershaus O., Yang L., The effect of silk gland sericin protein incorporation into electrospun polycaprolactone nanofibers on in vitro and in vivo characteristics, Journal of Materials Chemistry B, vol. 3, pp. 859-870, 2015. (IF=4.726, 科学院1区)
[01] 余璨, 沙永强, 郭盼, 陈义梅, Njunge Lucy Wanjiru, 吕永钢, 杨力,力生长因子对软组织修复调控作用的研究, 生物医学工程学杂志, vol. 32 (1), pp. 235-239, 2015.
2014年:
[05] Lv Y. G.*, Hao X. Y., Sha Y. Q., Yang L., Pretreatment with mechano-growth factor E peptide protects bone marrow mesenchymal cells against damage by fluid shear stress, Biotechnology Letters, vol. 36 (12), pp. 2559-2569, 2014.
[04] 徐锐,陈国宝,张昌*,杨力,吕永钢*,振荡流动对组织工程用灌注式生物反应器中剪切力影响, 医用生物力学, vol. 29 (5), pp. 424-431, 2014.
[03] 张小梅,吕永钢*,徐志玲,杨力,基质力学对肿瘤发生发展及肿瘤细胞生物学行为影响的研究进展, 生物化学与生物物理进展, vol. 41 (6), pp. 532-541, 2014.
[02] 黄杨河,罗自维,李海滨,吴双迟,吕永钢*,刘万钱,钟莉,杨力*,TNF-、IL-1通过PKA通路诱导成纤维样滑膜细胞中力生长因子表达, 医用生物力学, vol. 29 (3), pp. 276-280, 2014.
[01] 刘二福, 孙妍君, 彭永金, 徐伟, 王业全, 许康, Mohanad Khalid Ahmed, 吕永钢, 杨力,一种新型水浴冷冻夹具在大鼠跟腱力学测试中的应用, 生物医学工程学杂志, vol. 31 (3), pp. 678-681, 2014.
2013年:
[06] Lv Y. G.*, Zhao P. C., Chen G. B., Sha Y. Q., Yang L., Effects of low intensity pulsed ultrasound on cell viability, proliferation and neural differentiation of induced pluripotent stem cells-derived neural crest stem cells, Biotechnology Letters, vol. 35 (12), pp. 2201-2212, 2013.
[05] Xu W., Wang Y. Q., Liu E. F., Sun Y. J., Luo Z. W., Xu Z. L., Liu W. Q., Zhong L., Lv Y. G., Wang A. J., Tang Z. Y., Li S., Yang L., Human iPSC-derived neural crest stem cells promote tendon repair in a rat patellar tendon window defect model, Tissue Engineering, vol. 19 (21-22), pp. 2439-2451, 2013. (IF=4.065, 科学院2区)
[04] Chen G. B., Lv Y. G.*, Guo P., Lin C. W., Zhang X. M., Yang L., Xu Z. L., Matrix mechanics and fluid shear stress control stem cells fate in three dimensional microenvironment, Current Stem Cell Research & Therapy, vol. 8 (4), pp. 313-323, 2013.
[03] Tan J., Tian F. F., Lv Y. G.*, Liu W. Q., Zhong L., Liu Y. L., Yang L.*, Integration of QSAR modelling and QM/MM analysis to investigate functional food peptides with antihypertensive activity, Molecular Simulation, vol. 39 (12), pp. 1000-1006, 2013.
[02] 陈国宝,吕永钢*,张小梅,董单娟,郭盼,杨力,用于组织工程的去细胞化基质材料研究进展, 功能材料, vol. 44 (21), pp. 3065-3071, 2013.
[01] 徐志玲,吕永钢,杨力,霍丹群,王贵学,石轶松,立足交叉学科特色 推进研究生国际化培养——以重庆大学生物医学工程类研究生为例, 教育教学论坛, vol. 12, pp. 189-191, 2013.
2012年:
[11] Zhang X. M., Lv Y. G.*, Chen G. B., Zou Y., Lin C. W., Yang L., Guo P., Lin M. P., Effect of mild hypothermia on breast cancer cells adhesion and migration, Bioscience Trends, vol. 6 (6), pp. 313-324, 2012.
[10] Lv Y. G.*, Zou Y., Yang L., Uncertainty and sensitivity analysis of property of phase change micro/nanoparticles for thermal protection during cryosurgery, Forschung im Ingenieurwesen-Engineering Research, vol. 76 (1-2), pp. 41-50, 2012.
[09] Li L. H., Qian Y. N., Jiang C., Lv Y. G., Liu W. Q., Zhong L., Cai. K. Y., Li S., Yang L., The use of hyaluronan to regulate protein adsorption and cell infiltration in nanofibrous scaffolds, Biomaterials, vol. 33 (12), pp. 3428-3445, 2012. (IF=7.604, 科学院1区)
[08] Lv Y. G.*, Zou Y., Yang L., Theoretical model for thermal protection by microencapsulated phase change micro/nanoparticles during hyperthermia, Heat and Mass Transfer, vol. 58 (4), pp. 573-584, 2012.
[07] Tian F., Lv Y. G. (共同第一作者), Yang L., Structure-based prediction of protein-protein binding affinity with consideration of allosteric effect, Amino Acids, vol. 43 (2), pp. 531-543, 2012. (IF=3.877)
[06] Wang Y. Q., Tang Z. Y., Xue R. Y., Singh G. K., Liu W. Q., Lv Y. G., Yang L., Differential response to CoCl2 stimulated hypoxia on HIF-1alpha, VEGF, and MMP-2 expression in ligament cells, Molecular and Cellular Biochemistry, vol. 360 (1-2), pp. 235-242, 2012.
[05] 钱宇娜,李林昊,蒋超,吕永钢,钟莉,杨力,静电纺丝天然-人工合成聚合物复合纳米纤维 及 其对细胞黏附、增殖和迁移的影响, 功能材料, vol. 43 (18), pp. 2473-2477, 2012.
[04] 张非飞,颜艳,吕永钢,钟莉,宋关斌,Mohanad Khalid Ahmed,杨力,周期性机械拉伸对类风湿关节炎成纤维样滑膜细胞增殖的影响, 医用生物力学, vol. 27 (6), pp. 692-697, 702, 2012.
[03] 赵鹏程,吕永钢*,邹杨,张小梅,陈国宝,杨力,电刺激联合干细胞修复周围神经损伤的研究进展, 生物化学与生物物理进展, vol. 39 (6), pp. 540-547; S547.1-S547.3, 2012.
[02] Xu Z. L., Cai S. X., Yang L., Lv Y. G., Zhong L., Wu S. R., In vitro evaluation of a novel small-caliber vascular scaffold fabricated with acellular vascular matrix and Poly (Lactic-co-Glycolic Acid), 医用生物力学, vol. 27 (增刊), pp. 153, 2012.
[01] 沙永强,吕永钢*,杨力,MGF预处理对ACL拉伸损伤后细胞活性的影响, 医用生物力学, vol. 27 (增刊), pp. 252, 2012.
2011年:
[12] Tian F., Lv Y. G. (共同第一作者), Zhou P., Yang L., Characterization of PDZ domain-peptide interactions using an integrated protocol of QM/MM, PB/SA, and CFEA analyses, Journal of Computer-Aided Molecular Design, vol. 25 (10), pp. 947-958, 2011. (IF=3.374)
[11] Li L. H., Li H. B., Qian Y. N., Li X., Singh G. K., Zhong L., Liu W. Q., Lv Y. G., Cai K. Y., Yang L., Electrospun poly (ε-caprolactone)/silk fibroin core-sheath nanofibers and their potential applications in tissue engineering and drug release, International Journal of Biological Macromolecules, vol. 49 (2), pp. 223-232, 2011.
[10] Peng Q., Wang Y. L., Qiu J. H., Zhang B. B., Sun J. X., Lv Y. G., Yang L., A novel mechanical loading model for studying the distributions of strain and mechano-growth factor expression, Archives of Biochemistry and Biophysics, vol. 511 (1-2), pp. 8-13, 2011. (IF=3.022)
[09] Lv Y. G.*, Zou Y., Yang L., Feasibility study for thermal protection by microencapsulated phase change micro/nanoparticles during cryosurgery, Chemical Engineering Science, vol. 66 (17), pp. 3941-3953, 2011.(科学院2区)
[08] Lv Y. G.*, Zou Y., Yang L., Uncertainty analysis of thermal protection by microencapsulated phase change micro/nanoparticles during hyperthermia, Advanced Materials Research, vol. 291-294, pp. 1816-1819, 2011.
[07] Tian F. F., Lv Y. G., Cai K. Y., Wang G. X., Yang L., Use of support vector machine to predict the toxicity of aromatic compounds, 2011 International Conference on Remote Sensing, Environment and Transportation Engineering, RSETE 2011 - Proceedings, vol. 2011, pp. 7297-7299, 2011.
[06] Wang Y. Q., Tang Z. Y., Xue R. Y., Singh G. K., Shi K. N., Lv Y. G., Yang L., Combined effects of TNF-alpha, IL-1 beta, and HIF-1 alpha on MMP-2 production in ACL fibroblasts under mechanical stretch: an in vitro study, Journal of Orthopaedic Research, vol. 29 (7), pp. 1008-1014, 2011.
[05] Wang Y. Q., Tang Z. Y., Xue R. Y., Singh G. K., Lv Y. G., Shi K. N., Cai K. Y., Deng L. H., Yang L., TGF-β1 promoted MMP-2 mediated wound healing of anterior cruciate ligament fibroblasts through NF-κB, Connective Tissue Research, vol. 52 (3), pp. 218-225, 2011.
[04] Wang P., You X., Yan Y. Singh G. K., Li X., Zhou W., Liu W. Q., Zhang F. F., Lv. Y. G., Yang L., Cyclic mechanical stretch downregulates IL-1β-induced COX-2 expression and PGE2 production in rheumatoid arthritis fibroblast-like synoviocytes, Connective Tissue Research, vol. 52 (3), pp. 190-197, 2011.
[03] 吕永钢*,林崇文,李林昊,钱宇娜,张小梅,杨力,何建华,聚己内酯/丝胶蛋白静电混纺膜炎症响应的体内评价, 中国组织工程研究与临床康复, vol. 15 (47), pp. 8782-8786, 2011.
[02] 周薇,吕永钢(共同第一作者),Gurinder K Singh,颜艳,刘万钱,杨宁宁,张非飞,杨力,周期性机械拉伸对类风湿关节炎和骨关节炎成纤维样滑膜细胞BMP-2表达的影响, 医用生物力学, vol. 26 (2), pp. 121-127, 2011.
[01] 李海滨, 李林昊, 钱宇娜, 蔡开勇, 吕永钢, 钟莉, 刘万钱, 杨力, PCL/SS纳米纤维支架的制备及相容性研究, 生物医学工程学杂志, vol. 28 (2), pp. 305-309, 2011.
2010年前代表性论文:
[06] Zhang C., Wang X. Q., Lv Y. G., Ma J. J., Huang J. H., A new method for evaluating heat and water vapor transfer properties of porous polymeric materials, Polymer Testing, vol. 29 (5), pp. 553-557, 2010.
[05] Lv Y. G., Cheung N. K., Fu B. M., A pharmacokinetic model for radioimmunotherapy delivered through cerebrospinal fluid for the treatment of leptomeningeal metastases, Journal of Nuclear Medicine, vol. 50 (8), pp. 1324-1331, 2009. (IF=6.424, 科学院1区)
[04] Lv Y. G., Liu J., Gao Y. H., Xu B., Modeling of transdermal drug delivery with a microneedle array, Journal of Micromechanics and Microengineering, vol. 16 (11), pp. 2492-2501, 2006.
[03] Lv Y. G., Huai X. L., Wang W. W., Study on the effect of micro geometric structure on heat conduction in porous media subjected to pulse laser, Chemical Engineering Science, vol. 61 (17), pp. 5717-5725, 2006.(科学院2区)
[02] Lv Y. G., Liu J., Zhang J., Theoretical evaluation of burns to the human respiratory tract due to inhalation of hot gas in the early stage of fires, Burns, vol. 32 (4), pp. 436-446, 2006.
[01] Lv Y. G., Deng Z. S., Liu J., 3-D numerical study on the induced heating effects of embedded micro/nanoparticles on human body subject to external medical electromagnetic field, IEEE Transactions on NanoBioscience, vol. 4 (4), pp. 284-294, 2005.
参编著作
[08] 吕永钢,陈振银,赵博渊,天然盆底组织和器官的生物力学特征,《女性盆底生物力学》(苗娅莉、吴江主译),世界图书出版公司,89-106,2022.
[07] 吕永钢,姚东东,赵博渊,动物模型盆底生物力学,《女性盆底生物力学》(苗娅莉、吴江主译),世界图书出版公司,107-122,2022.
[06] 吕永钢,著,细胞-基质力学基础与应用,科学出版社,2020.
[05] 杨力,吕永钢,主编,组织修复生物力学,上海交通大学出版社,2017.
[04] Chen G. B.,Lv Y. G.*,Decellularized bone matrix scaffold for bone regeneration,《Decellularized Scaffolds and Organogenesis》(Kursad Turksen eds.),Springer,2017.
[03] 杨力,吕永钢,宋关斌,生物力学与再生,《再生医学:基础与临床》(付小兵等主编),人民卫生出版社,844-867, 2013.
[02] 杨力,吕永钢,生物医学工程前沿领域及技术,《中国医学科技发展报告 2012》(中国医学科学院编著),科学出版社,183-189,2012.
[01] 吕永钢,机遇和挑战共存的多尺度生物传热,《中国科学院优博论丛》 (白春礼主编), 科学出版社,61-71,2008.
已授权发明专利
[09] 吕永钢,陈国宝,邹杨,ZL 201410153286.7
[08] 吕永钢,林崇文,邹杨,ZL 201310271920.2
[07] 吕永钢,董单娟,邹杨,ZL 201210417903.0
[06] 吕永钢,邹杨,杨力,ZL 201110286443.8
[05] 吕永钢,杨力,ZL 201010191017.1
[04] 刘静,吕永钢,ZL 200410008745.9
[03] 刘静,吕永钢,ZL 03137561.8
[02] 刘静,吕永钢,ZL 200310122439.3
[01] 杨力,刘二福,徐伟,彭永金,王业全,穆罕纳德.哈立德.艾哈迈德,吕永钢,ZL 201110177957.X