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Development of tropoelastin-functionalized anisotropic PCL scaffolds for musculoskeletal tissue engineering
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作者 Miao Zhang Ziyu Wang +4 位作者 Anyu Zhang Linyang Liu Suzanne M.Mithieux Marcela M.M.Bilek anthony s.weiss 《Regenerative Biomaterials》 SCIE EI CSCD 2023年第1期64-72,共9页
The highly organized extracellular matrix(ECM)of musculoskeletal tissues,encompassing tendons,ligaments and muscles,is structurally anisotropic,hierarchical and multi-compartmental.These features collectively contribu... The highly organized extracellular matrix(ECM)of musculoskeletal tissues,encompassing tendons,ligaments and muscles,is structurally anisotropic,hierarchical and multi-compartmental.These features collectively contribute to their unique function.Previous studies have investigated the effect of tissue-engineered scaffold anisotropy on cell morphology and organization for musculoskeletal tissue repair and regeneration,but the hierarchical arrangement of ECM and compartmentalization are not typically replicated.Here,we present a method for multi-compartmental scaffold design that allows for physical mimicry of the spatial architecture of musculoskeletal tissue in regenerative medicine.This design is based on an ECM-inspired macromolecule scaffold.Polycaprolactone(PCL)scaffolds were fabricated with aligned fibers by electrospinning and mechanical stretching,and then surface-functionalized with the cell-supporting ECM protein molecule,tropoelastin(TE).TE was attached using two alternative methods that allowed for either physisorption or covalent attachment,where the latter was achieved by plasma ion immersion implantation(PIII).Aligned fibers stimulated cell elongation and improved cell alignment,in contrast to randomly oriented fibers.TE coatings bound by physisorption or covalently following 200 s PIII treatment promoted fibroblast proliferation.This represents the first cytocompatibility assessment of novel PIII-treated TE-coated PCL scaffolds.To demonstrate their versatility,these 2D anisotropic PCL scaffolds were assembled into 3D hierarchical constructs with an internally compartmentalized structure to mimic the structure of musculoskeletal tissue. 展开更多
关键词 TROPOELASTIN PCL musculoskeletal tissue engineering plasma immersion ion implantation ELECTROSPINNING anisotropy hierarchical
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