Arai, A. E. Fuzzy or sharp borders of acute myocardial ischemia and infarction? JACC Cardiovasc. Imaging 8(12):1390–1392, 2015.
Auerbach, R., L. Kubai, D. Knighton, and J. Folkman. A simple procedure for the long-term cultivation of chicken embryos. Dev. Biol. 41(2):391–394, 1974.
Bruzauskaite, I., D. Bironaite, E. Bagdonas, and E. Bernotiene. Scaffolds and cells for tissue regeneration: different scaffold pore sizes-different cell effects. Cytotechnology 68(3):355–369, 2016.
Chen, L., J. A. Li, S. Wang, S. J. Zhu, C. Zhu, B. Y. Zheng, G. Yang, and S. K. Guan. Surface modification of the biodegradable cardiovascular stent material Mg–Zn–Y–Nd alloy via conjugating REDV peptide for better endothelialization. J. Mater. Res. 33(23):4123–4133, 2018.
Colazzo, F., F. Alrashed, P. Saratchandra, I. Carubelli, A. H. Chester, M. H. Yacoub, P. M. Taylor, and P. Somers. Shear stress and VEGF enhance endothelial differentiation of human adipose-derived stem cells. Growth Factors 32(5):139–149, 2014.
Cosme, J., P. P. Liu, and A. O. Gramolini. The cardiovascular exosome: current perspectives and potential. Proteomics 13(10–11):1654–1659, 2013.
Drury, J. L., and D. J. Mooney. Hydrogels for tissue engineering: scaffold design variables and applications. Biomaterials 24(24):4337–4351, 2003.
Ekblom, P. Role of extracellular matrix in animal development-an introduction. Experientia 51(9–10):851–852, 1995.
Fang, Z., J. F. Wang, X. F. Yang, Q. Sun, Y. Jia, H. R. Liu, T. F. Xi, and S. K. Guan. Adsorption of arginine, glycine and aspartic acid on Mg and Mg-based alloy surfaces: a first-principles study. Appl. Surf. Sci. 409:149–155, 2017.
Fang, Z., J. F. Wang, S. J. Zhu, X. F. Yang, Y. Jia, Q. Sun, and S. K. Guan. A DFT study of the adsorption of short peptides on Mg and Mg-based alloy surfaces. Phys. Chem. Chem. Phys. 20(5):3602–3607, 2018.
Fish, J. E., and J. D. Wythe. The molecular regulation of arteriovenous specification and maintenance. Dev. Dyn. 244(3):391–409, 2015.
Fonarow, G. C. Refining classification of heart failure based on ejection fraction. JACC Heart Fail 5(11):808–809, 2017.
Freestone, B., S. Krishnamoorthy, and G. Y. H. Lip. Assessment of endothelial dysfunction. Expert Rev. Cardiovasc. Ther. 8:557–571, 2010.
Gao, Y., Z. Lu, C. Chen, X. Cui, Y. Liu, T. Zheng, X. Jiang, C. Zeng, D. Quan, and Q. Wang. Mesenchymal stem cells and endothelial progenitor cells accelerate intra-aneurysmal tissue organization after treatment with SDF-1α-coated coils. Neurol. Res. 38(4):333–341, 2016.
He, D., A. S. Zhao, H. Su, Y. Zhang, Y. N. Wang, D. Luo, Y. Gao, J. A. Li, and P. Yang. An Injectable scaffold based on temperature responsive hydrogel and factors loaded nano-particles for potential application of vascularization in tissue engineering. J. Biomed. Mater. Res. Part A 107A:2123–2134, 2019.
Hibbert, B., S. Olsen, and E. O’Brien. Involvement of progenitor cells in vascular repair. Trends Cardiovasc. Med. 13(8):322–326, 2003.
Kemppainen, J. M., and S. J. Hollister. Tailoring the mechanical properties of 3D-designed poly(glycerol sebacate) scaffolds for cartilage applications. Biomed. Mater. Res. A 94A(1):9–18, 2010.
Kuo, K. C., R. Z. Lin, H. W. Tien, P. Y. Wu, Y. C. Li, J. M. Melero-Martin, and Y. C. Chen. Bioengineering vascularized tissue constructs using an injectable cell-laden enzymatically crosslinked collagen hydrogel derived from dermal extracellular matrix. Acta Biomater. 27:151–166, 2015.
Kvam, G., H. Dahle, J. E. Nordrehaug, T. I. Randa, and T. Tillung. The shortening fraction of myocardial fibers and its layered distribution, as derived from cine-MR imaged left ventriculograms. An approach for evaluating globar left ventricular function. Acta Radiol. 38(3):391–399, 1997.
Leblanc, A. J., L. Krishnan, C. J. Sullivan, S. K. Williams, and J. B. Hoying. Microvascular repair: post-angiogenesis vascular dynamics. Microcirculation 19(8):676–695, 2012.
Li, L. Q., and C. Cleo. Three-dimensional scaffolds for tissue engineering applications: role of porosity and pore size. Tissue Eng. Part B 19(6):485–502, 2013.
Li, J. A., G. C. Li, K. Zhang, Y. Z. Liao, P. Yang, M. F. Maitz, and N. Huang. Co-culture of vascular endothelial cells and smooth muscle cells by hyaluronic acid micro-pattern on titanium surface. Appl. Surf. Sci. 273:24–31, 2013.
Li, J. A., K. Zhang, P. Yang, L. L. Wu, J. L. Chen, A. S. Zhao, G. C. Li, and N. Huang. Research of smooth muscle cells response to fluid flow shear stress by hyaluronic acid micro-pattern on a titanium surface. Exp. Cell Res. 319(17):2663–2672, 2013.
Li, J. A., K. Zhang, Y. Xu, J. Chen, P. Yang, Y. C. Zhao, A. S. Zhao, and N. Huang. A novel co-culture models of human vascular endothelial cells and smooth muscle cells by hyaluronic acid micro-pattern on titanium surface. J. Biomed. Mater. Res. Part A 102A:1950–1960, 2014.
Li, J. A., K. Zhang, H. Q. Chen, T. Liu, P. Yang, Y. C. Zhao, and N. Huang. A novel coating of type IV collagen and hyaluronic acid on stent material-titanium for promoting smooth muscle cells contractile phenotype. Mater. Sci. Eng. C 38:235–243, 2014.
Li, J. A., K. Zhang, J. J. Wu, Y. Z. Liao, P. Yang, and N. Huang. Co-culture of endothelial cells and patterned smooth muscle cells on titanium: construction with high density of endothelial cells and low density of smooth muscle cells. Biochem. Biophys. Res. Commun. 456:555–561, 2015.
Li, J. A., K. Zhang, W. Y. Ma, F. Wu, P. Yang, Z. K. He, and N. Huang. Investigation of enhanced hemocompatibility and tissue compatibility associated with multi-functional coating based on hyaluronic acid and type IV collagen. Regener. Biomater. 3(3):149–157, 2016.
Li, J. A., W. Qin, K. Zhang, F. Wu, P. Yang, Z. K. He, A. S. Zhao, and N. Huang. Controlling mesenchymal stem cells differentiate into contractile smooth muscle cells on a TiO2 micro/nano interface: towards benign pericytes environment for endothelialization. Colloids Surf. B 145:410–419, 2016.
Li, J. A., F. Wu, K. Zhang, Z. K. He, D. Zou, X. Luo, Y. H. Fan, P. Yang, A. S. Zhao, and N. Huang. Controlling molecular weight of hyaluronic acid conjugated on amine-rich surface: towards better multifunctional biomaterials for cardiovascular implants. ACS Appl. Mater. Interfaces. 9:30343–30358, 2017.
Liu, X., X. M. Wang, A. Horii, X. J. Wang, L. Qiao, S. G. Zhang, and F. Z. Cui. In vivo studies on angiogenic activity of two designer self-assembling peptide scaffold hydrogels in the chicken embryo chorioallantoic membrane. Nanoscale 4:2720–2727, 2012.
Liu, Y., F. Luo, B. R. Wang, H. Q. Li, Y. Xu, X. L. Liu, L. Shi, X. L. Lu, W. C. Xu, L. Lu, Y. Qin, Q. Y. Xiang, and Q. Z. Liu. STAT3-regulated exosomal miR-21 promotes angiogenesis and is involved in neoplastic processes of transformed human bronchial epithelial cells. Cancer Lett. 370(1):125–135, 2016.
Mathivanan, S., H. Ji, and R. J. Simpson. Exosomes: extracellular organelles important in intercellular communication. J. Proteomics 73(10):1907–1920, 2010.
Melchiorri, A. J., B. N. B. Nguyen, and J. P. Fisher. Mesenchymal stem cells: roles and relationships in vascularization. Tissue Eng. Part B 20(3):218–228, 2014.
Min, P. K., and G. Sharon. Harnessing developmental processes for vascular engineering and regeneration. Development 141(14):2760–2769, 2014.
Mungadi, I. A. Bioengineering tissue for organ repair, regeneration, and renewal. J. Surg. Tech. Case Rep. 4(2):77–78, 2012.
Novosel, E. C., K. Claudia, and P. J. Kluger. Vascularization is the key challenge in tissue engineering. Adv. Drug Deliv. Rev. 63:300–311, 2011.
Patra, S., M. Remy, A. R. Ray, B. Brouillaud, J. Amedee, B. Gupta, and L. Bordenave. A novel route to polycaprolactone scaffold for vascular tissue engineering. Biomaterials and Tissue Engineering 3:1–10, 2003.
Potente, M., H. Gerhardt, and P. Carmeliet. Basic and therapeutic aspects of angiogenesis. Cell 146(6):873–887, 2011.
Sharma, P., L. Schiapparelli, and H. T. Cline. Exosomes function in cell–cell communication during brain circuit development. Curr. Opin. Neurobiol. 23(6):997–1004, 2013.
Simpson, R. J., J. W. E. Lim, R. L. Moritz, and S. Mathivanan. Exosomes: proteomic insights and diagnostic potential. Expert Rev. Proteomics 6(3):267–283, 2009.
Sivashanmugam, A., R. A. Kumar, M. V. Priya, S. V. Nair, and R. Jayakumar. An overview of injectable polymeric hydrogels for tissue engineering. Eur. Polym. J. 72:543–565, 2015.
Tousoulis, D., M. Koutsogiannis, N. Papageorgiou, G. Siasos, C. Antoniades, E. Tsiamis, and C. Stefanadis. Endothelial dysfunction: potential clinical implications. Minerva Med. 101(4):271–283, 2010.
Tseliou, E., W. X. Liu, J. Valle, B. M. Sun, M. Mirotsou, and E. Marban. Newt exosomes are bioactive on mammalian heart, enhancing proliferation of rat cardiomyocytes and improving recovery after myocardial infarction. Circulation 132(S3):15925, 2015.
Tu, Q. F., Y. Zhang, D. X. Ge, J. Wu, and H. Q. Chen. Novel tissue-engineered vascular patches based on decellularized canine aortas and their recellularization in vitro. Appl. Surf. Sci. 255(2):282–285, 2008.
Wood, J. How cells bind biomaterials determines response: biomaterials. Mater. Today 8(6):16–19, 2005.
Wu, F., J. A. Li, K. Zhang, Z. K. He, P. Yang, D. Zou, and N. Huang. Multi-functional coating based on hyaluronic acid and dopamine conjugate for potential application on surface modification of cardiovascular implanted devices. ACS Appl. Mater. Interfaces. 8(1):109–121, 2016.
Xu, Q. H., Z. Zhang, C. S. Xiao, C. L. He, and X. S. Chen. Injectable polypeptide hydrogel as biomimetic scaffolds with tunable bioactivity and controllable cell adhesion. Biomacromol 18:1411–1418, 2017.
Zhang, K., Z. Q. Shi, J. K. Zhou, Q. Xing, S. S. Ma, Q. H. Li, Y. T. Zhang, M. H. Yao, X. F. Wang, Q. Li, J. A. Li, and F. X. Guan. Potential application of an injectable hydrogel scaffold loaded with mesenchymal stem cells for treating traumatic brain injury. J. Mater. Chem. B 6:2982–2992, 2018.
Zhou, J. K., K. Zhang, S. S. Ma, T. F. Liu, M. H. Yao, J. A. Li, X. F. Wang, and F. X. Guan. Preparing an injectable hydrogel with sodium alginate and type I collagen to create better MSCs growth microenvironment. e-Polymer 19:87–91, 2019.
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