Multilayered silk scaffolds for meniscus tissue engineering. - Wikidata - awgldk - TriplyDB

Multilayered silk scaffolds for meniscus tissue engineering.

Multilayered silk scaffolds for meniscus tissue engineering.

http://www.wikidata.org/entity/Q34348089

about

Cell-Based Strategies for Meniscus Tissue Engineering Advances and Prospects in Tissue-Engineered Meniscal Scaffolds for Meniscus Regeneration Synthetic meniscus replacement: a review Characterization of Silk Fibroin/Chitosan 3D Porous Scaffold and In Vitro Cytology Emerging technologies for assembly of microscale hydrogels.Quantifying cellular alignment on anisotropic biomaterial platforms.Meniscus tissue engineering using a novel combination of electrospun scaffolds and human meniscus cells embedded within an extracellular matrix hydrogel Advances in meniscal tissue engineering Engineering meniscus structure and function via multi-layered mesenchymal stem cell-seeded nanofibrous scaffolds High-strength silk protein scaffolds for bone repair Development and Characterization of Acellular Extracellular Matrix Scaffolds from Porcine Menisci for Use in Cartilage Tissue Engineering Tissue engineering for the meniscus: a review of the literature.Organized nanofibrous scaffolds that mimic the macroscopic and microscopic architecture of the knee meniscus.Porosity and cell preseeding influence electrospun scaffold maturation and meniscus integration in vitro.Characterization of mesenchymal stem cells and fibrochondrocytes in three-dimensional co-culture: analysis of cell shape, matrix production, and mechanical performance Silk scaffolds for musculoskeletal tissue engineering.Laminar silk scaffolds for aligned tissue fabrication.Engineering functional anisotropy in fibrocartilage neotissues.The use of scaffolds in musculoskeletal tissue engineering.Meniscus reconstruction: today's achievements and premises for the future.Current strategies in meniscal regeneration.Protein-based materials in load-bearing tissue-engineering applications.Scaffolds and tissue regeneration: An overview of the functional properties of selected organic tissues.An overview of recent patents on musculoskeletal interface tissue engineering.An Overview of Scaffold Design and Fabrication Technology for Engineered Knee Meniscus Application of cell and biomaterial-based tissue engineering methods in the treatment of cartilage, menisci and ligament injuries.Current advances in the development of natural meniscus scaffolds: innovative approaches to decellularization and recellularization.Advances in combining gene therapy with cell and tissue engineering-based approaches to enhance healing of the meniscus.Combinatorial scaffold morphologies for zonal articular cartilage engineering.Stem cell-based meniscus tissue engineering Structural Mimetic Silk Fiber-Reinforced Composite Scaffolds Using Multi-Angle Fibers.Intervertebral disk tissue engineering using biphasic silk composite scaffolds.A chondroitinase-ABC and TGF-β1 treatment regimen for enhancing the mechanical properties of tissue-engineered fibrocartilage.Building an anisotropic meniscus with zonal variations.Aligned silk-based 3-D architectures for contact guidance in tissue engineering Release of growth factors from a reinforced collagen GAG matrix supplemented with platelet rich plasma: Influence on cultured human meniscal cells.Tendon and ligament as novel cell sources for engineering the knee meniscus.Biomimetic Anisotropic Reinforcement Architectures by Electrically Assisted Nanocomposite 3D Printing.Proliferation of meniscal fibrochondrocytes cultured on a new polyurethane scaffold is stimulated by TGF-β.Fiber development and matrix production in tissue-engineered menisci using bovine mesenchymal stem cells and fibrochondrocytes.

P2860

Q26747620-B00C8F05-AB01-4A99-8C78-E9D5F22A518A Q26801111-54C039AF-C0F1-4408-A6CF-C289D0563D1F Q27027217-58323727-F5A7-4DE1-8F53-4D885249BB9F Q28548403-34FC2450-757D-4837-9F44-82844508E553 Q30449264-69B9C519-DC26-41B9-B4B0-CFDE21FEFC1F Q33944567-38DD92D3-68A1-41E0-80BC-A762DE154BFF Q35284923-C884F852-A9B1-4031-B244-359841524AAD Q35495328-67C807BE-3D18-4E1E-AF86-05DD0F48442E Q35639696-88668F96-AF0D-4580-A60A-3DE6BEE81493 Q35974284-2A94D029-62E0-4790-B35F-B7F4E6234B05 Q36006855-BF5418E7-D9ED-46BB-89B5-A1823DC3BDF6 Q36150881-E640BF82-759C-4F61-8FF9-FC5146E4C68E Q36428751-CED62226-A7EE-4FDE-B1CA-D1677413A7CE Q36525888-E05ABD39-A2BD-4EFC-9306-85B39C661120 Q36680465-F8F37F1C-BDC6-4C91-A845-72D50E63E47C Q37071687-B0C80DC3-1541-42BD-816B-EFA4B366C05E Q37086186-DA9333CB-704E-4447-BB1F-525ADA092568 Q37451688-4A56422D-5095-4408-9D4A-01EBA9691BDD Q37925534-825BCB6D-84FD-43D0-B7F1-E05950302AE9 Q38053108-F553F50B-2D42-42D2-B863-5DAF5C995448 Q38137038-42977400-2621-48A1-8CC7-59E7F1AEC966 Q38265209-F8624A0D-89F1-4473-A20D-B33771911B63 Q38543268-E14CF83F-F89D-4C99-9EFA-FE20BC95972D Q38636090-3A010010-67A2-4C59-80D5-6D029489A45C Q38643780-6A0002E9-AF4E-496B-8406-82C5A9E79544 Q38695137-7A78803E-87AB-4613-B450-F450C7A9BEBE Q38736894-355B8651-9825-4B0F-ADE7-C80EE8854D24 Q38803957-CC4752C4-BDA3-4CB9-882A-78AB2E2A7C0D Q38824181-18616848-1128-4592-B9E7-839F911522D6 Q38867270-39A85335-6772-43CA-AB78-E01B85997B3A Q38886535-461A4FC9-1B64-4D44-9E44-4B5A484FD610 Q41556073-C874FBF7-FF92-4005-9A8F-2D28736BD622 Q41814220-D6A769AF-DD38-495F-8012-EA6A14ABBEFC Q41892247-AE3597A2-BEE0-4A6B-B3C2-7FDD1E64C7BC Q41994106-8950A856-F031-4CF1-8573-45E7A761C46B Q43739739-E30C3391-D1BE-4A1C-B64C-A187BA7907BD Q45038913-3DC03EF9-121A-4082-9532-85A06A0AB4BA Q46371816-1123984A-0B20-440C-94C4-601F8FBCABBB Q46568838-AE080631-C315-4A9E-9A76-BE2295554D3D Q47116467-8A0B57EF-9F4A-4D83-AAFF-2A8448977175

P2860

Multilayered silk scaffolds for meniscus tissue engineering.

http://www.wikidata.org/entity/Q34348089

description

2010 nî lūn-bûn

@nan

2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

Multilayered silk scaffolds for meniscus tissue engineering.

@ast

Multilayered silk scaffolds for meniscus tissue engineering.

@en

Multilayered silk scaffolds for meniscus tissue engineering.

@nl

type

label

Multilayered silk scaffolds for meniscus tissue engineering.

@ast

Multilayered silk scaffolds for meniscus tissue engineering.

@en

Multilayered silk scaffolds for meniscus tissue engineering.

@nl

prefLabel

Multilayered silk scaffolds for meniscus tissue engineering.

@ast

Multilayered silk scaffolds for meniscus tissue engineering.

@en

Multilayered silk scaffolds for meniscus tissue engineering.

@nl

P1433

Q34348089-8353265D-4842-43A2-B7BB-E0635F9F154A

P1476

Q34348089-3A0CCEAF-2629-4697-8817-C07B6AC46226

P2093

Q34348089-6ED884D3-AF3C-4899-AFF0-2DC263194354

Q34348089-A5BA3B0C-2F45-4F65-B869-8D7E225888C2

Q34348089-CEC3A53B-60D8-4875-8EA2-A42E1BC230D1

P2860

Q34348089-0374A387-AC6C-4935-A8CE-D6D08C0533E6

Q34348089-1149F2DA-15AB-4345-8847-7CBC563C4BBA

Q34348089-16EABB00-BFED-4791-8B5D-58446493F1D4

Q34348089-17B96779-16F6-4668-9C77-4CB1C2BE494E

Q34348089-1AA0DF43-D3F6-4DF0-A6A5-444322BE38A0

Q34348089-361FB7F3-50BC-4B0D-9DDA-1E3234F39EC6

Q34348089-427E19DD-F86E-44B4-A7CC-3D8B0BED0990

Q34348089-44EECED2-8700-4DD1-8B67-3BF7680C1B57

Q34348089-46D267CD-1F91-4D1F-A831-4F4AEA3E7A46

Q34348089-4FFCD6EA-BDB5-47D5-876C-CD3341B51E77

P304

Q34348089-AC03B2BE-6474-4E89-8151-E8AFC34FC546

P31

Q34348089-0B5C94AE-74CF-41E8-AC8C-926AC646B2AD

P356

Q34348089-0E8FE49B-45AA-461E-A905-77CB66E6BF1B

P433

Q34348089-CC3A3A91-4F0F-43C6-AD6C-F4A9CD1BE075

P478

Q34348089-687A7256-8B12-4A90-AFDC-B6CA63DEA77F

P50

Q34348089-E3978FC6-D830-436E-A531-1045B97D7DB1

P577

Q34348089-D637E3E0-C7E9-4DC1-9B6B-8D78AA014835

P5875

Q34348089-961AC960-6022-4EDF-B7FA-2B732E359F44

P698

Q34348089-682D903D-86EB-487E-B2A8-C7C0A830DF1F

P921

Q34348089-4F1D0B56-488B-4509-988E-52031F679880

P932

Q34348089-FA06E5BC-1E20-40ED-91EE-06897EE3DFD9

P356

J.BIOMATERIALS.2010.08.115

P1433

P1476

Multilayered silk scaffolds for meniscus tissue engineering.

@en

P2093

Biman B Mandal

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

Eun S Gil

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

Sang-Hyug Park

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

P2860

Meniscal repair using bone marrow-derived mesenchymal stem cells: experimental study using green fluorescent protein transgenic rats.

Characterisation of human knee meniscus cell phenotype.

Chemical changes of human knee joint menisci in various stages of degeneration

Meniscal substitutes--animal experience.

Review: tissue engineering for regeneration of articular cartilage.

Ultrastructure of normal and torn menisci of the human knee joint.

Toward tissue engineering of the knee meniscus.

In vivo degradation of three-dimensional silk fibroin scaffolds.

Knee joint changes after meniscectomy.

Silk-based biomaterials.

P304

639-651

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

P31

scholarly article

P356

10.1016/J.BIOMATERIALS.2010.08.115

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

P433

2

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

P478

32

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

P50

David L. Kaplan

P577

2010-10-06T00:00:00Z

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

P5875

47356972

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

P698

20926132

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

P921

tissue engineering

P932

2991374

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