Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network - Wikidata - wikimedia - TriplyDB

Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

http://www.wikidata.org/entity/Q28546737

about

Pericyte-targeting drug delivery and tissue engineering Revascularization of decellularized lung scaffolds: principles and progress Biomimetic on-a-chip platforms for studying cancer metastasis Tissue culture on a chip: Developmental biology applications of self-organized capillary networks in microfluidic devices.Engineered Microvessels for the Study of Human Disease Tumour-on-a-chip: microfluidic models of tumour morphology, growth and microenvironment.A Low Permeability Microfluidic Blood-Brain Barrier Platform with Direct Contact between Perfusable Vascular Network and Astrocytes.A perforated microhole-based microfluidic device for improving sprouting angiogenesis in vitro.96 perfusable blood vessels to study vascular permeability in vitro.Modeling angiogenesis with micro- and nanotechnology."Open-top" microfluidic device for in vitro three-dimensional capillary beds.Relationship between Pericytes and Endothelial Cells in Retinal Neovascularization: A Histological and Immunofluorescent Study of Retinal Angiogenesis.Wet-AMD on a Chip: Modeling Outer Blood-Retinal Barrier In Vitro.Integrating perfusable vascular networks with a three-dimensional tissue in a microfluidic device.Establishment of in vitro model of erectile dysfunction for the study of high-glucose-induced angiopathy and neuropathy.Engineered circulatory scaffolds for building cardiac tissue Microfluidic-Based 3D Engineered Microvascular Networks and Their Applications in Vascularized Microtumor Models

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P2860

Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

http://www.wikidata.org/entity/Q28546737

description

2015 nî lūn-bûn

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2015 թուականին հրատարակուած գիտական յօդուած

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2015年の論文

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2015年学术文章

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2015年学术文章

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2015年學術文章

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Engineering of a Biomimetic Pericyte-Covered 3D Microvascular Network

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Dong Hyun Jo

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Jaerim Kim

http://www.w3.org/2001/XMLSchema#string

Jeong Hun Kim

http://www.w3.org/2001/XMLSchema#string

Minhwan Chung

http://www.w3.org/2001/XMLSchema#string

Noo Li Jeon

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Sudong Kim

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P2860

Hallmarks of Cancer: The Next Generation

Modes of resistance to anti-angiogenic therapy

Pericytes are required for blood-brain barrier integrity during embryogenesis

Inflammation and cancer

Benefits of targeting both pericytes and endothelial cells in the tumor vasculature with kinase inhibitors

Lack of pericytes leads to endothelial hyperplasia and abnormal vascular morphogenesis

Pericytes regulate vascular basement membrane remodeling and govern neutrophil extravasation during inflammation

IL-1 is required for tumor invasiveness and angiogenesis

Normalization of tumor vasculature: an emerging concept in antiangiogenic therapy

Mechanisms of angiogenesis

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