期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 112, 期 50, 页码 15426-15431出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.1504745112
关键词
paper scaffolds; origami; tissue engineering; initiated chemical vapor deposition; hydrogel
资金
- Ministry of Health and Welfare of Korea [HI13C1789010014, HI13C0451020013, HI14C15410100]
- National Research Foundation of Korea - Ministry of Education, Science and Technology [NRF-2012M3A9C6050102]
- Advanced Biomass R&D Center of the Global Frontier Project - Ministry of Science, Information & Communication Technology (ICT), and Future Planning [ABC-2011-0031350]
- Korea Health Promotion Institute [HI13C0451020013] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
In this study, we present a method for assembling biofunctionalized paper into a multiform structured scaffold system for reliable tissue regeneration using an origami-based approach. The surface of a paper was conformally modified with a poly(styrene-comaleic anhydride) layer via initiated chemical vapor deposition followed by the immobilization of poly-L-lysine (PLL) and deposition of Ca2+. This procedure ensures the formation of alginate hydrogel on the paper due to Ca2+ diffusion. Furthermore, strong adhesion of the alginate hydrogel on the paper onto the paper substrate was achieved due to an electrostatic interaction between the alginate and PLL. The developed scaffold system was versatile and allowed area-selective cell seeding. Also, the hydrogel-laden paper could be folded freely into 3D tissue-like structures using a simple origami-based method. The cylindrically constructed paper scaffold system with chondrocytes was applied into a three-ring defect trachea in rabbits. The transplanted engineered tissues replaced the native trachea without stenosis after 4 wks. As for the custom-built scaffold system, the hydrogel-laden paper system will provide a robust and facile method for the formation of tissues mimicking native tissue constructs.
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