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Title
Mechano-Hypoxia Conditioning of Engineered Human Meniscus
Authors
Keywords
-
Journal
Frontiers in Bioengineering and Biotechnology
Volume 9, Issue -, Pages -
Publisher
Frontiers Media SA
Online
2021-09-04
DOI
10.3389/fbioe.2021.739438
References
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Related references
Note: Only part of the references are listed.- Engineered human meniscus’ matrix-forming phenotype is unaffected by low strain dynamic compression under hypoxic conditions
- (2021) Alexander R. A. Szojka et al. PLoS One
- Time course of 3D fibrocartilage formation by expanded human meniscus fibrochondrocytes in hypoxia
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- Bone Marrow Mesenchymal Stem Cells-Derived Tissues are Mechanically Superior to Meniscus Cells'
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- Driving Hierarchical Collagen Fiber Formation for Functional Tendon, Ligament, and Meniscus Replacement
- (2020) Jennifer L. Puetzer et al. BIOMATERIALS
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- Engineering large cartilage tissues using dynamic bioreactor culture at defined oxygen conditions
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- Hypoxia and TGF-β3 Synergistically Mediate Inner Meniscus-Like Matrix Formation by Fibrochondrocytes
- (2018) Alexander R.A. Szojka et al. TISSUE ENGINEERING PART A
- Global chondrocyte gene expression after a single anabolic loading period: Time evolution and re-inducibility of mechano-responses
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- Plasticity of Human Meniscus Fibrochondrocytes: A Study on Effects of Mitotic Divisions and Oxygen Tension
- (2017) Yan Liang et al. Scientific Reports
- Physiologically Distributed Loading Patterns Drive the Formation of Zonally Organized Collagen Structures in Tissue-Engineered Meniscus
- (2016) Jennifer L. Puetzer et al. TISSUE ENGINEERING PART A
- Optimal Seeding Densities forIn VitroChondrogenesis of Two- and Three-Dimensional-Isolated and -Expanded Bone Marrow-Derived Mesenchymal Stromal Stem Cells Within a Porous Collagen Scaffold
- (2016) Troy D. Bornes et al. TISSUE ENGINEERING PART C-METHODS
- Swelling significantly affects the material properties of the menisci in compression
- (2015) Stephen H.J. Andrews et al. JOURNAL OF BIOMECHANICS
- Dynamic hydrostatic pressure enhances differentially the chondrogenesis of meniscal cells from the inner and outer zone
- (2015) J. Zellner et al. JOURNAL OF BIOMECHANICS
- Mechanobiology of the meniscus
- (2015) Amy L. McNulty et al. JOURNAL OF BIOMECHANICS
- Biomechanics and mechanobiology in functional tissue engineering
- (2014) Farshid Guilak et al. JOURNAL OF BIOMECHANICS
- Medial meniscal displacement and strain in three dimensions under compressive loads: MR assessment
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- Low oxygen tension increased fibronectin fragment induced catabolic activities - response prevented with biomechanical signals
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- Mechanical stretch increases Smad3-dependent CCN2 expression in inner meniscus cells
- (2012) Takayuki Furumatsu et al. JOURNAL OF ORTHOPAEDIC RESEARCH
- Oxygen Tension Is a Determinant of the Matrix-Forming Phenotype of Cultured Human Meniscal Fibrochondrocytes
- (2012) Adetola B. Adesida et al. PLoS One
- The Effect of the Duration of Mechanical Stimulation and Post-Stimulation Culture on the Structure and Properties of Dynamically Compressed Tissue-Engineered Menisci
- (2012) Jennifer L. Puetzer et al. TISSUE ENGINEERING PART A
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- (2011) Guak-Kim Tan et al. BIOMATERIALS
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- Mechanical stretch enhances COL2A1 expression on chromatin by inducing SOX9 nuclear translocalization in inner meniscus cells
- (2011) Tomoko Kanazawa et al. JOURNAL OF ORTHOPAEDIC RESEARCH
- Tension-Compression Loading with Chemical Stimulation Results in Additive Increases to Functional Properties of Anatomic Meniscal Constructs
- (2011) Daniel J. Huey et al. PLoS One
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- (2011) Alice J. S. Fox et al. Sports Health-A Multidisciplinary Approach
- Low oxygen tension is a more potent promoter of chondrogenic differentiation than dynamic compression
- (2010) Eric G. Meyer et al. JOURNAL OF BIOMECHANICS
- Dynamic compressive loading of image-guided tissue engineered meniscal constructs
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- (2009) Johannah Sanchez-Adams et al. Cellular and Molecular Bioengineering
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- (2009) Najmuddin J. Gunja et al. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A
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- (2008) Najmuddin J. Gunja et al. BIOMATERIALS
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