Accomplish
发表于 2025-3-30 10:23:00
On-Site Differentiation of Human Mesenchymal Stem Cells into Vascular Cells on Extracellular Matrix and mortality worldwide. However, limited sources of functional vascular cells remain a major obstacle in vascular tissue engineering. Here we describe a novel approach whereby functional vascular cells were obtained by on-site differentiation of human mesenchymal stem cells on a vascular extracell
CEDE
发表于 2025-3-30 15:08:55
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WAIL
发表于 2025-3-30 16:41:09
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幸福愉悦感
发表于 2025-3-30 23:27:55
In Situ Fabrication and Perfusion of Tissue-Engineered Blood Vessel Microphysiological System,del disease states in vitro. We developed a novel device to fabricate arteriole-scale human endothelialized TEBVs in situ with smaller volumes and higher throughput than previously reported. Both primary and induced pluripotent stem cell (iPSC)-derived cells can be used. Four collagen TEBVs with 600
duplicate
发表于 2025-3-31 04:31:20
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教唆
发表于 2025-3-31 06:41:12
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清澈
发表于 2025-3-31 12:13:01
Engineering Vascular Grafts with Multiphase Structures,fabrication technique used to produce nano- to microfibrous architectures capable of mimicking native extracellular matrix structure. Likewise, polycitrate elastomers are favorable luminal materials for vascular applications because of their hemocompatibility and mechanical properties. Here we descr
执
发表于 2025-3-31 16:44:48
Fabrication of Small-Diameter Tubular Grafts for Vascular Tissue Engineering Applications Using Mulrein, we describe the methodology for fabricating two different types of tubular silk scaffolds aimed for vascular grafting. The first method emphasizes the use of very thin (10–15μm) silk films with unidirectional longitudinal micro-patterns, followed by their sequential rolling, which results in a
CANT
发表于 2025-3-31 17:34:19
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安定
发表于 2025-3-31 22:41:34
Controlling Pore Size of Electrospun Vascular Grafts by Electrospraying of Poly(Ethylene Oxide) Miccate porous vascular grafts with fibrous morphology closely mimicking the natural extracellular matrix (ECMs). However, the inherently small pore sizes of electrospun vascular grafts often inhibit cell infiltration and impede vascular regeneration. Here we describe an effective and controllable meth