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cartilage tissue engineering

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https://www.readbyqxmd.com/read/28087486/enhanced-articular-cartilage-by-human-mesenchymal-stem-cells-in-enzymatically-mediated-transiently-rgds-functionalized-collagen-mimetic-hydrogels
#1
Paresh A Parmar, Jean-Philippe St-Pierre, Lesley W Chow, Christopher D Spicer, Violet Stoichevska, Yong Y Peng, Jerome A Werkmeister, John A M Ramshaw, Molly M Stevens
: Recapitulation of the articular cartilage microenvironment for regenerative medicine applications faces significant challenges due to the complex and dynamic biochemical and biomechanical nature of native tissue. Towards the goal of biomaterial designs that enable the temporal presentation of bioactive sequences, recombinant bacterial collagens such as Streptococcal collagen-like 2 (Scl2) proteins can be employed to incorporate multiple specific bioactive and biodegradable peptide motifs into a single construct...
January 10, 2017: Acta Biomaterialia
https://www.readbyqxmd.com/read/28079986/establishment-of-an-in-vitro-3-d-model-for-cartilage-damage-in-rheumatoid-arthritis-ra
#2
Yvonne Peck, Li Ting Leom, Pei Fen Patricia Low, Dong-An Wang
Rheumatoid arthritis (RA) is a chronic inflammatory disease that leads to progressive joint destruction. To further understand the process of rheumatoid cartilage damage, an in vitro model consisting of an interactive tri-culture of synovial fibroblasts (SFs), LPS-stimulated macrophages and a primary chondrocyte-based tissue engineered construct was established. The tissue engineered construct has a similar composition to human cartilage, which are rich in collagen type II and proteoglycans. Data generated from this model revealed that healthy chondrocytes were activated in the presence of SFs and macrophages...
January 12, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28073305/human-amniotic-mesenchymal-stromal-cells-as-favourable-source-for-cartilage-repair
#3
Emma Muinos-López, Tamara Hermida-Gómez, Isaac Fuentes-Boquete, Francisco Javier de Toro-Santos, Francisco J Blanco, Silvia María Díaz-Prado
INTRODUCTION: Localized trauma-derived breakdown of the hyaline articular cartilage may progress towards osteoarthritis, a degenerative condition characterized by total loss of articular cartilage and joint function. Tissue engineering technologies encompass several promising approaches with high therapeutic potential for the treatment of these focal defects. However, most of the research in tissue engineering is focused on potential materials and structural cues, while little attention is directed to the most appropriate source of cells endowing these materials...
January 10, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28062353/indentation-across-interfaces-between-stiff-and-compliant-tissues
#4
Oliver E Armitage, Michelle L Oyen
Bone-tendon, bone-ligament and bone-cartilage junctions are multi-tissue interfaces that connect materials that differ by two orders of magnitude in mechanical properties, via gradual variations in mineral content and matrix composition. These sites mediate load transfer between highly dissimilar materials and are consequently a primary site of injury during orthopedic failure. Given the large incidence rate and the lack of suitable surgical solutions for their regeneration or repair, characterization of their natural structure and subsequent replication through tissue engineering is important...
January 3, 2017: Acta Biomaterialia
https://www.readbyqxmd.com/read/28060331/biomechanical-characterization-of-human-soft-tissues-using-indentation-and-tensile-testing
#5
Michelle Griffin, Yaami Premakumar, Alexander Seifalian, Peter Edward Butler, Matthew Szarko
Regenerative medicine aims to engineer materials to replace or restore damaged or diseased organs. The mechanical properties of such materials should mimic the human tissues they are aiming to replace; to provide the required anatomical shape, the materials must be able to sustain the mechanical forces they will experience when implanted at the defect site. Although the mechanical properties of tissue-engineered scaffolds are of great importance, many human tissues that undergo restoration with engineered materials have not been fully biomechanically characterized...
December 13, 2016: Journal of Visualized Experiments: JoVE
https://www.readbyqxmd.com/read/28058277/raman-spectroscopy-reveals-new-insights-into-the-zonal-organization-of-native-and-tissue-engineered-articular-cartilage
#6
Mads S Bergholt, Jean-Philippe St-Pierre, Giovanni S Offeddu, Paresh A Parmar, Michael B Albro, Jennifer L Puetzer, Michelle L Oyen, Molly M Stevens
Tissue architecture is intimately linked with its functions, and loss of tissue organization is often associated with pathologies. The intricate depth-dependent extracellular matrix (ECM) arrangement in articular cartilage is critical to its biomechanical functions. In this study, we developed a Raman spectroscopic imaging approach to gain new insight into the depth-dependent arrangement of native and tissue-engineered articular cartilage using bovine tissues and cells. Our results revealed previously unreported tissue complexity into at least six zones above the tidemark based on a principal component analysis and k-means clustering analysis of the distribution and orientation of the main ECM components...
December 28, 2016: ACS Central Science
https://www.readbyqxmd.com/read/28056722/hyaluronic-acid-coating-enhances-biocompatibility-of-pga-unwoven-fiber-scaffold-and-cartilage-formation
#7
Xunxun Lin, Wenbo Wang, Wen Jie Zhang, Zhi-Yong Zhang, Guangdong Zhou, Yilin Cao, Wei Liu
Synthetic polymers such as polyglycolic acid (PGA) fibers are the traditional tissue engineering scaffolds that are widely used for engineering a variety of soft tissues. However, the major disadvantage of this polymer material is its released acidic degradation products that trigger inflammatory response and fibrotic process, which affects the biocompatibility and the quality of the engineered tissues. In this study, the effect of hyaluronic acid (HA) coating on improving PGA biocompatibility was explored...
January 5, 2017: Tissue Engineering. Part C, Methods
https://www.readbyqxmd.com/read/28038739/physicochemical-antioxidant-and-biocompatible-properties-of-chondroitin-sulphate-isolated-from-chicken-keel-bone-for-potential-biomedical-applications
#8
Aruna Rani, Rwivoo Baruah, Arun Goyal
Chicken keel bone cartilage was explored for cheaper and sustainable source for isolation of chondroitin sulphate (CS) for its future use in tissue engineering and pharmaceutical industry. HPSEC analysis displayed two peaks of 100kDa for CS-keel polysaccharide and 1kDa for protein. DLS analysis of CS-keel displayed polydispersity. CS-keel yield was 15% and 53±5% uronic acid content. The quantified percentages of UA-GalNAc4S and UA-GalNAc6S disaccharide in CS-keel were 58% and 42%, respectively. FT-IR identified CS-keel to be chondroitin 4-sulphate...
March 1, 2017: Carbohydrate Polymers
https://www.readbyqxmd.com/read/28028895/characterization-of-sox9-overexpressing-human-umbilical-cord-blood-derived-mesenchymal-stem-cells-based-engineered-cartilage-both-in-vitro-and-in-vivo
#9
Xiao-Li Li, Jun Zhang, Hua-Nan Luo, Xiaoyan Zhao, A-Ling Zhang, Zheng-Hui Wang
The source of seed cells is a critical factor for tissue engineering . The goal of this study was to evaluate the chondrogenesis of Sox9-overexpressing human umbilical cord mesenchymal stem cells (hUCMSCs) seeded onto bone matrix gelatin (BMG)/fibrin hybrid scaffolds both in vitro and in vivo. hUCMSCs were stably transfected with Sox9-expressing plasmid and grown on the three-dimensional BMG/fibrin hybrid scaffold for 8 weeks. Scanning electron microscopy and histochemistry were performed. The hUCMSC-loaded scaffolds were implanted into the subcutaneous layer of immunocompetent rats and chondrogenesis and host immune responses were monitored for 8 weeks...
December 28, 2016: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28028520/evaluation-of-structural-and-mechanical-properties-of-electrospun-nano-micro-hybrid-of-poly-hydroxybutyrate-chitosan-silk-scaffold-for-cartilage-tissue-engineering
#10
Saeed Karbasi, Farnoosh Fekrat, Daryoush Semnani, Shahnaz Razavi, Elham Naghash Zargar
BACKGROUND: One of the new methods of scaffold fabrication is a nano-micro hybrid structure in which the properties of the scaffold are improved by introducing nanometer and micrometer structures. This method could be suitable for scaffold designing if some features improve. MATERIALS AND METHODS: In this study, electrospun nanofibers of 9% weight solution of poly (3-hydroxybutyrate) (P3HB) and a 15% weight of chitosan by trifluoroacetic acid were coated on both the surface of a silk knitted substrate in the optimum condition to improve the mechanical properties of scaffolds for cartilage tissue engineering application...
2016: Advanced Biomedical Research
https://www.readbyqxmd.com/read/28028517/preparation-and-characterization-of-poly-hydroxy-butyrate-chitosan-blend-scaffolds-for-tissue-engineering-applications
#11
Saeed Karbasi, Saied Nouri Khorasani, Somayeh Ebrahimi, Shahla Khalili, Farnoosh Fekrat, Davoud Sadeghi
BACKGROUND: Poly (hydroxy butyrate) (PHB) is a biodegradable and biocompatible polymer with good mechanical properties. This polymer could be a promising material for scaffolds if some features improve. MATERIALS AND METHODS: In the present work, new PHB/chitosan blend scaffolds were prepared as a three-dimensional substrate in cartilage tissue engineering. Chitosan in different weight percent was added to PHB and solved in trifluoroacetic acid. Statistical Taguchi method was employed in the design of experiments...
2016: Advanced Biomedical Research
https://www.readbyqxmd.com/read/28024231/fabrication-of-injectable-high-strength-hydrogel-based-on-4-arm-star-peg-for-cartilage-tissue-engineering
#12
Jianqi Wang, Fengjie Zhang, Wing Pui Tsang, Chao Wan, Chi Wu
Hydrogels prepared from poly(ethylene glycol) (PEG) are widely applied in tissue engineering, especially those derived from a combination of functional multi-arm star PEG and linear crosslinker, with an expectation to form a structurally ideal network. However, the poor mechanical strength still renders their further applications. Here we examined the relationship between the dynamics of the pre-gel solution and the mechanical property of the resultant hydrogel in a system consisting of 4-arm star PEG functionalized with vinyl sulfone and short dithiol crosslinker...
December 20, 2016: Biomaterials
https://www.readbyqxmd.com/read/28017598/biodegradable-poly-%C3%AE%C2%B5-caprolactone-microcarriers-for-efficient-production-of-human-mesenchymal-stromal-cells-and-secreted-cytokines-in-batch-and-fed-batch-bioreactors
#13
Alan Tin-Lun Lam, Jian Li, Jessica Pei-Wen Toh, Eileen Jia-Hui Sim, Allen Kuan-Liang Chen, Jerry Kok-Yen Chan, Mahesh Choolani, Shaul Reuveny, William R Birch, Steve Kah-Weng Oh
Large numbers of human mesenchymal stromal cells (MSCs) used for a variety of applications in tissue engineering and cell therapy can be generated by scalable expansion in a bioreactor using microcarriers (MCs) systems. However, the enzymatic digestion process needed to detach cells from the growth surface can affect cell viability and potentially the potency and differentiation efficiency. Thus, the main aim of our study was to develop biocompatible and biodegradable MCs that can support high MSC yields while maintaining their differentiation capability and potency...
December 22, 2016: Cytotherapy
https://www.readbyqxmd.com/read/28007307/human-based-biological-and-biomimetic-autologous-therapies-for-musculoskeletal-tissue-regeneration
#14
REVIEW
Sabino Padilla, Mikel Sánchez, Gorka Orive, Eduardo Anitua
Repairing and regenerating damaged musculoskeletal tissues is one of the greatest challenges in regenerative medicine. Blood contains the essential ingredients to biologically engineer drug delivery devices that provide spatiotemporal control over the availability of a wide range of autologous agents, including small molecules, cytokines, and growth factors. This opinion article summarizes our current knowledge of blood-derived biological drug delivery therapies. The potential mechanisms that control protein release are discussed, along with the biological rationale and effects of their use in different relevant musculoskeletal tissues, including articular cartilage, bone, tendon, muscle, and nerve tissue injuries...
December 19, 2016: Trends in Biotechnology
https://www.readbyqxmd.com/read/28005380/hyaluronic-acid-hydroxyapatite-colloidal-gels-combined-with-micronized-native-ecm-as-potential-bone-defect-fillers
#15
S Connor Dennis, Jonathan Whitlow, Michael S Detamore, Sarah L Kieweg, Cory J Berkland
One of the grand challenges in translational regenerative medicine is the surgical placement of biomaterials. For bone regeneration in particular, malleable and injectable colloidal gelsare frequently designed to exhibit self-assembling and shear-response behavior which facilitates biomaterial placement in tissue defects. The current study demonstrated that by combining native extracellular matrix (ECM) microparticles, i.e., demineralized bone matrix (DBM) and decellularized cartilage (DCC), with hyaluronic acid (HA) and hydroxyapatite (HAP) nanoparticles, a viscoelastic colloidal gel consisting exclusively of natural materials was achieved...
December 22, 2016: Langmuir: the ACS Journal of Surfaces and Colloids
https://www.readbyqxmd.com/read/28002904/the-meniscus-vascularization-the-direct-correlation-with-tissue-composition-for-tissue-engineering-purposes
#16
A Di Giancamillo, L Mangiavini, I Tessaro, A Marmotti, R Scurati, G M Peretti
Meniscal lesions still represent an unsolved problem in clinical practice. Like the articular cartilage, meniscus has a scarce healing potential. Thus, when this tissue is damaged, the joint biomechanics is completely altered, leading to the development and progression of premature osteoarthritis. Therefore, in the last years, several tissue-engineering strategies have been developed to regenerate the meniscus with debated results. The comprehension of complex processes underlying meniscus maturation and structure is essential for a correct approach for the generation of a biomimetic meniscal substitute...
October 2016: Journal of Biological Regulators and Homeostatic Agents
https://www.readbyqxmd.com/read/27998214/fabrication-of-a-highly-aligned-neural-scaffold-via-a-table-top-stereolithography-3d-printing-and-electrospinning
#17
Se-Jun Lee, Margaret Nowicki, Brent Harris, Lijie Grace Zhang
3D bioprinting is a rapidly emerging technique in the field of tissue engineering to fabricate extremely intricate and complex biomimetic scaffolds in the range of micrometers. Such customized 3D printed constructs can be used for the regeneration of complex tissues such as cartilage, vessels and nerves. However, the 3D printing techniques often offer limited control over the resolution and compromised mechanical properties due to short selection of printable inks. To address these limitation, we combined stereolithography and electrospinning techniques to fabricate a novel 3D biomimetic neural scaffold with a tunable porous structure and embedded aligned fibers...
December 21, 2016: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/27995334/strategies-on-process-engineering-of-chondrocyte-culture-for-cartilage-tissue-regeneration
#18
Sarada Prasanna Mallick, Amit Rastogi, Satyavrat Tripathi, Pradeep Srivastava
The current work is an attempt to study the strategies for cartilage tissue regeneration using porous scaffold in wavy walled airlift bioreactor (ALBR). Novel chitosan, poly (L-lactide) and hyaluronic acid based composite scaffold were prepared. The scaffolds were cross-linked with 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide, N-hydroxysuccinimide and chondroitin sulfate to obtain interconnected 3D microstructure showing excellent biocompatibility, higher cellular differentiation and increased stability. The surface morphology and porosity of the scaffolds were analyzed using scanning electron microscopy (SEM) and mercury intrusion porosimeter and optimized for chondrocyte regeneration...
December 19, 2016: Bioprocess and Biosystems Engineering
https://www.readbyqxmd.com/read/27987834/injectable-hydrogels-prepared-from-partially-oxidized-hyaluronate-and-glycol-chitosan-for-chondrocyte-encapsulation
#19
Do Yoon Kim, Honghyun Park, Sang Woo Kim, Jae Won Lee, Kuen Yong Lee
Hyaluronate has attracted great attention in tissue engineering as a scaffolding material. However, hyaluronate typically requires chemical cross-linking molecules to form hydrogels, which may induce undesirable side effects in the body. In this study, hyaluronate was partially oxidized with sodium periodate to generate aldehyde groups in the backbone, and simply mixed with glycol chitosan to form gels via Schiff base formation. The effects of the degree of oxidization, polymer concentration, and polymer composition on the mechanical properties of oxidized hyaluronate/glycol chitosan hydrogels were investigated in vitro...
February 10, 2017: Carbohydrate Polymers
https://www.readbyqxmd.com/read/27987759/covalent-and-injectable-chitosan-chondroitin-sulfate-hydrogels-embedded-with-chitosan-microspheres-for-drug-delivery-and-tissue-engineering
#20
Ming Fan, Ye Ma, Huaping Tan, Yang Jia, Siyue Zou, Shuxuan Guo, Meng Zhao, Hao Huang, Zhonghua Ling, Yong Chen, Xiaohong Hu
Injectable hydrogels and microspheres derived from natural polysaccharides have been extensively investigated as drug delivery systems and cell scaffolds. In this study, we report a preparation of covalent hydrogels basing polysaccharides via the Schiff' base reaction. Water soluble carboxymethyl chitosan (CMC) and oxidized chondroitin sulfate (OCS) were prepared for cross-linking of hydrogels. The mechanism of cross-linking is attributed to the Schiff' base reaction between amino and aldehyde groups of polysaccharides...
February 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
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