Xiaolian Niu
Taiyuan University of Technology
Composite numberRegenerative medicineUltimate tensile strengthSimulated body fluidElectrospinningChemistryExtracellular matrixMaterials scienceCell encapsulationBiocompatibilityChitosanCartilageTransplantationBone regenerationMembraneChemical engineeringTissue engineeringCalciumScaffoldNanofiber
7Publications
3H-index
11Citations
Publications 7
Newest
#1Xiaolian Niu (TUT: Taiyuan University of Technology)H-Index: 3
#2Longfei Wang (TUT: Taiyuan University of Technology)H-Index: 1
Last. Di Huang (TUT: Taiyuan University of Technology)H-Index: 23
view all 12 authors...
Abstract Periodontal defect poses a significant challenge in orthopedics. Guided Bone Regeneration (GBR) membrane is considered as one of the most successful methods applied to reconstruct alveolar bone and then to achieve periodontal defect repair/regeneration. In this paper, a novel polyamide-6/chitosan@nano-hydroxyapatite/polyamide-6 (PA6/CS@n-HA/PA6) bilayered tissue guided membranes by combining a solvent casting and an electrospinning technique was designed. The developed PA6/CS@n-HA/PA6 c...
2 CitationsSource
#1Mengjie Xu (TUT: Taiyuan University of Technology)H-Index: 3
#2Miao Qin (TUT: Taiyuan University of Technology)H-Index: 2
Last. Huanan Wang (DUT: Dalian University of Technology)H-Index: 21
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Abstract Conventional stem cell delivery typically utilize administration of directly injection of allogenic cells or domesticated autogenic cells. It may lead to immune clearance of these cells by the host immune systems. Alginate microgels have been demonstrated to improve the survival of encapsulated cells and overcome rapid immune clearance after transplantation. Moreover, alginate microgels can serve as three-dimensional extracellular matrix to support cell growth and protect allogenic cell...
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#1Huixiu Ding (TUT: Taiyuan University of Technology)H-Index: 1
#2Yizhu Cheng (TUT: Taiyuan University of Technology)
Last. Yinchun Hu (TUT: Taiyuan University of Technology)H-Index: 6
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Tissue damage related to bone and cartilage is a common clinical disease. Cartilage tissue has no blood vessels and nerves. The limited cell migration ability results in low endogenous healing abil...
1 CitationsSource
#1Xiaolian Niu (TUT: Taiyuan University of Technology)H-Index: 3
#2Miao Qin (TUT: Taiyuan University of Technology)H-Index: 2
Last. Di Huang (TUT: Taiyuan University of Technology)H-Index: 23
view all 10 authors...
Polyamide-6 (PA6) is a synthetic polymer that bears resemblance to collagen in its backbone and has excellent stability in human body fluid. Chitosan (CS) with the similar structure to that of the polysaccharides existing in the extracellular matrix, has a more suitable biodegradation rate for the formation of new-bone. Eelectrospun fiber have nanoscale structure, high porosity and large specific surface area, can simulate the structure and biological function of the natural extracellular matrix...
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#1Miao Qin (TUT: Taiyuan University of Technology)H-Index: 2
#2Mengjie Xu (TUT: Taiyuan University of Technology)H-Index: 3
Last. Di Huang (TUT: Taiyuan University of Technology)H-Index: 23
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With the rapid improvements in nanomaterials and imaging technology, great progresses have been made in diagnosis and treatment of diseases during the past decades. Fe3O4 magnetic nanoparticles (MNPs) with good biocompatibility and superparamagnetic property are usually used as contrast agent for diagnosis of diseases in magnetic resonance imaging (MRI). Currently, the combination of multiple imaging technologies has been considered as new tendency in diagnosis and treatment of diseases, which c...
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#1Xiaolian Niu (TUT: Taiyuan University of Technology)H-Index: 3
#2Liqin Zhao (TUT: Taiyuan University of Technology)H-Index: 4
Last. Weiyi Chen (TUT: Taiyuan University of Technology)H-Index: 11
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This study aimed at designing a novel electrospun scaffolding material that structurally and chemically resembles native extracellular matrix (ECM) for bone tissue engineering. Calcium chloride-com...
1 CitationsSource
#1Xiaolian Niu (TUT: Taiyuan University of Technology)H-Index: 3
#2Yan Wei (TUT: Taiyuan University of Technology)H-Index: 6
Last. Di Huang (TUT: Taiyuan University of Technology)H-Index: 23
view all 9 authors...
Abstract In order to improve the mechanical properties and antibacterial properties of skin tissue engineering scaffolds, a microspheres-reinforced composite construct with controlled release property was designed. The silver-loaded chitosan (CS) microspheres (Ag@CMs) were prepared by emulsified crosslinking method. Ag@CMs were introduced into CS acetic acid solution and then Ag@CMs embedded porous CS scaffolds were fabricated by lyophilization method. The results show that Ag@CMs are uniformly ...
5 CitationsSource