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激光增材制造技术在眼科中的应用 被引量:8

Application of Laser Additive Manufacturing Technology in Ophthalmology
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摘要 总结了增材制造技术在个性化眼科医疗、精准眼科医疗、移动眼科医疗、眼视光学和眼科仿生领域的近期应用与未来发展前景。激光增材制造技术凭借易于定制和高效率的优势,有望令病人获得更具人性化、更有针对性、更加普及化的眼科医疗服务。 The recent applications of the additive manufacturing technology in the fields of personalized ophthalmology, precision ophthalmology, mobile ophthalmology, optometry and ophthalmic bionic, and its future prospects are reviewed. With the advantages of high efficiency and convenient of customization, the laser additive manufacturing is expected to help patients to obtain more humanistic, more targeted and more widespread ophthalmic medical services.
作者 段沐森 吴凡 刘瑞雪
机构地区 黑龙江大学物理科学与技术学院 山东省立医院皮肤科 视网膜健康中心科研部
出处 《激光与光电子学进展》 CSCD 北大核心 2018年第1期61-69,共9页 Laser & Optoelectronics Progress
关键词 激光技术 激光增材制造 三维打印 眼科 应用前景 laser technique laser additive manufacturing three-dimensional printing ophthalmology application prospects
分类号 TP391.7 [自动化与计算机技术—计算机应用技术] R319 [医药卫生—基础医学]
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  • 1Skaradal A, Atala A. Biomaterials for integration with 3-D bioprinting[J]. Annals of Biomedical Engineering, 2015, 43(3): 730-746.
  • 2Bohandy J, Kim B F, Adrian F J. Metal deposition from a supported metal film using an excimer laser[J]. Journal of Applied Physics, 1986, 60(4): 1538-1539.
  • 3Fogarassy E, Fuchs C, Kerherve F, et al.. Laser- induced forward transfer of high- TcYBaCuO and BiSrCaCuO superconducting thin films[J]. Journal of Applied Physics, 1989, 66(1): 457-459.
  • 4Piqué A, Chrisey D B, Auyeung R C Y, et al.. A novel laser transfer process for direct writing of electronic and sensor materials [J]. Applied Physics A, 1999, 69(s1): S279-S284.
  • 5Ringeisen B R, Chrisey D B, Piqué A, et al.. Generation of mesoscopic patterns of viable Escherichia coli by ambient laser transfer[J]. Biomaterials, 2002, 23(1): 161-166.
  • 6Ringeisen B R, Kim H, Barron J A, et al.. Laser printing of pluripotent embryonal carcinoma cells[J]. Tissue Engineering Part A, 2004, 10(3-4): 483-491.
  • 7Barron J A, Wu P, Ladouceur H D, et al.. Biological laser printing: A novel technique for creating heterogeneous 3- dimensional cell patterns[J]. Biomedical Microdevices, 2004, 6(2): 139-147.
  • 8Serra P, Duocastella M, Fernández- Pradas J M, et al.. Laser- induced forward transfer: A laser- based technique for biomolecules printing[M]. //Ringeisen B R, Spargo B J, Wu P K. Cell and organ printing. Netherlands: Springer, 2010: 53-74.
  • 9Chen C Y, Barron J A, Ringeisen B R. Cell patterning without chemical surface modification: Cell-cell interactions between printed bovine aortic endothelial cells (BAEC) on a homogeneous cell-adherent hydrogel[J]. Applied Surface Science, 2006, 252(24): 8641-8645.
  • 10Guillemot F, Guillotin B, Catros S, et al.. High-throughput biological laser printing: Droplet ejection mechanism, integration of a dedicated workstation, and bioprinting of cells and biomaterials[M]. //Ringeisen B R, Spargo B J, Wu P K. Cell and organ printing. Netherlands: Springer, 2010: 95-113.

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激光与光电子学进展
2018年 第1期

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