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• W2938863873 endingPage "45" @default.
• W2938863873 startingPage "35" @default.
• W2938863873 abstract "In children with congenital heart defects, surgical correction often involves the use of valves, patches or vascular conduits to establish anatomic continuity. Due to the differences between the pediatric and adult populations, tissue reconstruction in pediatric patients requires a substantially different approach from those in adults. Cardiovascular anatomy of children with congenital heart defect vary, which requires tailored surgical operations for each patient. Since grafts used in these palliative surgeries are sensitive to the local hemodynamic environments, their geometries need to be precisely designed to ensure long-term performance. Tissue engineered vascular grafts (TEVGs) have made tremendous progress over the past decade, but it remains difficult to fabricate patient- and operation-specific vascular grafts. This review summarizes historical milestones of TEVG development for repairing pediatric congenital defects and current clinical outcomes. We also highlight ongoing works on 3D bioprinting of TEVGs with complex geometries and address the current limitations of each technique. Although 3D bioprinted vascular grafts with appropriate functions are yet to be developed, some of the current researches are promising to create better patient specific tissue engineered vascular grafts in the future. In children with congenital heart defects, surgical correction often involves the use of valves, patches or vascular conduits to establish anatomic continuity. Due to the differences between the pediatric and adult populations, tissue reconstruction in pediatric patients requires a substantially different approach from those in adults. Cardiovascular anatomy of children with congenital heart defect vary, which requires tailored surgical operations for each patient. Since grafts used in these palliative surgeries are sensitive to the local hemodynamic environments, their geometries need to be precisely designed to ensure long-term performance. Tissue engineered vascular grafts (TEVGs) have made tremendous progress over the past decade, but it remains difficult to fabricate patient- and operation-specific vascular grafts. This review summarizes historical milestones of TEVG development for repairing pediatric congenital defects and current clinical outcomes. We also highlight ongoing works on 3D bioprinting of TEVGs with complex geometries and address the current limitations of each technique. Although 3D bioprinted vascular grafts with appropriate functions are yet to be developed, some of the current researches are promising to create better patient specific tissue engineered vascular grafts in the future." @default.
• W2938863873 created "2019-04-25" @default.
• W2938863873 creator A5007830637 @default.
• W2938863873 creator A5060312576 @default.
• W2938863873 creator A5072245580 @default.
• W2938863873 date "2019-09-01" @default.
• W2938863873 modified "2023-09-26" @default.
• W2938863873 title "3D bioprinting of vascular conduits for pediatric congenital heart repairs" @default.
• W2938863873 cites W1560481041 @default.
• W2938863873 cites W1601381175 @default.
• W2938863873 cites W1830447782 @default.
• W2938863873 cites W1933042345 @default.
• W2938863873 cites W1965511151 @default.
• W2938863873 cites W1965588557 @default.
• W2938863873 cites W1970824735 @default.
• W2938863873 cites W1972709119 @default.
• W2938863873 cites W1981586047 @default.
• W2938863873 cites W1982043414 @default.
• W2938863873 cites W1982058920 @default.
• W2938863873 cites W1986598233 @default.
• W2938863873 cites W1989704675 @default.
• W2938863873 cites W1991016293 @default.
• W2938863873 cites W1994903148 @default.
• W2938863873 cites W1995357308 @default.
• W2938863873 cites W1996481646 @default.
• W2938863873 cites W2004181539 @default.
• W2938863873 cites W2011590928 @default.
• W2938863873 cites W2011994854 @default.
• W2938863873 cites W2012517517 @default.
• W2938863873 cites W2012744372 @default.
• W2938863873 cites W2016627718 @default.
• W2938863873 cites W2018818236 @default.
• W2938863873 cites W2022923982 @default.
• W2938863873 cites W2023166500 @default.
• W2938863873 cites W2026811774 @default.
• W2938863873 cites W2029541365 @default.
• W2938863873 cites W2031480185 @default.
• W2938863873 cites W2034318826 @default.
• W2938863873 cites W2036194565 @default.
• W2938863873 cites W2040165312 @default.
• W2938863873 cites W2044967972 @default.
• W2938863873 cites W2047927055 @default.
• W2938863873 cites W2048071051 @default.
• W2938863873 cites W2050076318 @default.
• W2938863873 cites W2055664464 @default.
• W2938863873 cites W2068502571 @default.
• W2938863873 cites W2072607005 @default.
• W2938863873 cites W2073889644 @default.
• W2938863873 cites W2074473847 @default.
• W2938863873 cites W2074852143 @default.
• W2938863873 cites W2075449803 @default.
• W2938863873 cites W2077178584 @default.
• W2938863873 cites W2080669230 @default.
• W2938863873 cites W2090028890 @default.
• W2938863873 cites W2090342312 @default.
• W2938863873 cites W2094258709 @default.
• W2938863873 cites W2097154761 @default.
• W2938863873 cites W2100706026 @default.
• W2938863873 cites W2102954558 @default.
• W2938863873 cites W2103055365 @default.
• W2938863873 cites W2117035634 @default.
• W2938863873 cites W2119937860 @default.
• W2938863873 cites W2128423968 @default.
• W2938863873 cites W2129141554 @default.
• W2938863873 cites W2133286550 @default.
• W2938863873 cites W2133346775 @default.
• W2938863873 cites W2142721422 @default.
• W2938863873 cites W2151245068 @default.
• W2938863873 cites W2153030094 @default.
• W2938863873 cites W2159428115 @default.
• W2938863873 cites W2164279637 @default.
• W2938863873 cites W2165543134 @default.
• W2938863873 cites W2165962676 @default.
• W2938863873 cites W2167720673 @default.
• W2938863873 cites W2167723092 @default.
• W2938863873 cites W2171492615 @default.
• W2938863873 cites W2185825455 @default.
• W2938863873 cites W2206726567 @default.
• W2938863873 cites W2210387669 @default.
• W2938863873 cites W2299693612 @default.
• W2938863873 cites W2488863215 @default.
• W2938863873 cites W2562982267 @default.
• W2938863873 cites W2577084245 @default.
• W2938863873 cites W2583357335 @default.
• W2938863873 cites W2737828629 @default.
• W2938863873 cites W2753939593 @default.
• W2938863873 cites W2755965525 @default.
• W2938863873 cites W2762925038 @default.
• W2938863873 cites W2786145560 @default.
• W2938863873 cites W2786308703 @default.
• W2938863873 cites W2791313137 @default.
• W2938863873 cites W2805660106 @default.
• W2938863873 cites W2805688637 @default.
• W2938863873 cites W2808779459 @default.
• W2938863873 cites W2905718190 @default.
• W2938863873 cites W4246317872 @default.
• W2938863873 cites W2460381462 @default.
• W2938863873 doi "https://doi.org/10.1016/j.trsl.2019.03.007" @default.

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