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cartilage tissue engineering

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https://www.readbyqxmd.com/read/28447733/gene-expression-profile-in-human-induced-pluripotent-stem-cells-chondrogenic-differentiation-in%C3%A2-vitro-part-b
#1
Ewelina Augustyniak, Wiktoria Maria Suchorska, Tomasz Trzeciak, Magdalena Richter
The development of human induced pluripotent stem cells (hiPSCs) is considered a turning point in tissue engineering. However, more data are required to improve understanding of key aspects of the cell differentiation process, including how specific chondrogenic processes affect the gene expression profile of chondrocyte‑like cells and the relative value of cell differentiation markers. The main aims of the present study were as follows: To determine the gene expression profile of chondrogenic‑like cells derived from hiPSCs cultured in mediums conditioned with HC‑402‑05a cells or supplemented with transforming growth factor β3 (TGF‑β3), and to assess the relative utility of the most commonly‑used chondrogenic markers as indicators of cell differentiation...
March 16, 2017: Molecular Medicine Reports
https://www.readbyqxmd.com/read/28442664/induction-of-neural-crest-cells-from-human-dental-pulp-derived-induced-pluripotent-stem-cells
#2
Eisuke Kawano, Taku Toriumi, Shinya Iguchi, Daigo Suzuki, Shuichi Sato, Masaki Honda
We previously generated induced pluripotent stem (iPS) cells from human dental pulp cells of deciduous teeth. Neural crest cells (NCCs) play a vital role in the development of the oral and maxillofacial region. Therefore, NCCs represent a cell source for bone, cartilage, and tooth-related tissue engineering. In this study, we examined whether iPS cells are capable of differentiating into NCCs through modification of the human embryonic stem cell protocol. First, iPS cells were dissociated into single cells and then reaggregated in low-cell-adhesion plates with neural induction medium for 8 days in suspension culture to form neurospheres...
2017: Biomedical Research
https://www.readbyqxmd.com/read/28436377/analysis-of-therapeutic-effectiveness-of-selected-types-of-collagen-in-prevention-and-treatment-of-degenerative-joint-disease
#3
Wiesław Tomaszewski, Anna Paradowska
Loss of collagen is a natural development accompanying aging of the body. It may be additionally accelerated by various conditions, including osteoarthritis (OA). Within the last two decades numerous and diverse studies have been conducted worldwide with the aim of identifying substances containing collagen, producing therapeutic preparations of expected effectiveness in the prevention and therapy of OA that would be safe to use and developing methods of delivering the final product into the body. The authors reviewed and analysed the latest available literature by selecting papers presenting the findings of studies conducted in line with the principles of Evidence-Based Medicine (EBM)...
January 26, 2017: Ortopedia, Traumatologia, Rehabilitacja
https://www.readbyqxmd.com/read/28436002/characterization-of-the-chondrocyte-secretome-in-photoclickable-poly-ethylene-glycol-hydrogels
#4
Margaret C Schneider, Christopher A Barnes, Stephanie J Bryant
Poly(ethylene glycol) (PEG) hydrogels are highly tunable platforms that are promising cell delivery vehicles for chondrocytes and cartilage tissue engineering. In addition to characterizing the type of extracellular matrix (ECM) that forms, understanding the types of proteins that are secreted by encapsulated cells may be important. Thus, the objectives for this study were to characterize the secretome of chondrocytes encapsulated in PEG hydrogels and determine whether the secretome varies as a function of hydrogel stiffness and culture condition...
April 24, 2017: Biotechnology and Bioengineering
https://www.readbyqxmd.com/read/28415525/mechanical-thermal-and-morphological-characterisation-of-3d-porous-pennisetum-purpureum-pla-biocomposites-scaffold
#5
R Revati, M S Abdul Majid, M J M Ridzuan, M Normahira, N F Mohd Nasir, M N Rahman Y, A G Gibson
The mechanical, thermal, and morphological properties of a 3D porous Pennisetum purpureum (PP)/polylactic acid (PLA) based scaffold were investigated. In this study, a scaffold containing P. purpureum and PLA was produced using the solvent casting and particulate leaching method. P. purpureum fibre, also locally known as Napier grass, is composed of 46% cellulose, 34% hemicellulose, and 20% lignin. PLA composites with various P. purpureum contents (10%, 20%, and 30%) were prepared and subsequently characterised...
June 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28414616/biphasic-finite-element-modeling-reconciles-mechanical-properties-of-tissue-engineered-cartilage-constructs-across-testing-platforms
#6
Gregory R Meloni, Matthew B Fisher, Brendan D Stoeckl, George R Dodge, Robert L Mauck
Cartilage tissue engineering is emerging as a promising treatment for osteoarthritis, and the field has progressed toward utilizing large animal models for proof of concept and preclinical studies. Mechanical testing of the regenerative tissue is an essential outcome for functional evaluation. However, testing modalities and constitutive frameworks used to evaluate in vitro grown samples differ substantially from those used to evaluate in vivo derived samples. To address this, we developed finite element (FE) models (using FEBio) of unconfined compression and indentation testing, modalities commonly used for such samples...
April 14, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28413859/meniscus-articular-cartilage-and-nucleus-pulposus-a-comparative-review-of-cartilage-like-tissues-in-anatomy-development-and-function
#7
REVIEW
Song Chen, Peiliang Fu, Haishan Wu, Ming Pei
The degradation of cartilage in the human body is impacted by aging, disease, genetic predisposition and continued insults resulting from daily activity. The burden of cartilage defects (osteoarthritis, rheumatoid arthritis, intervertebral disc damage, knee replacement surgeries, etc.) is daunting in light of substantial economic and social stresses. This review strives to broaden the scope of regenerative medicine and tissue engineering approaches used for cartilage repair by comparing and contrasting the anatomical and functional nature of the meniscus, articular cartilage (AC) and nucleus pulposus (NP)...
April 17, 2017: Cell and Tissue Research
https://www.readbyqxmd.com/read/28401793/developing-a-customized-perfusion-bioreactor-prototype-with-controlled-positional-variability-in-oxygen-partial-pressure-for-bone-and-cartilage-tissue-engineering
#8
Poh Soo Lee, Hagen Eckert, Ricarda Hess, Michael Gelinsky, Derrick Rancourt, Roman Krawetz, Gianaurelio Cuniberti, Dieter Scharnweber
Skeletal development is a multi-step process that involves the complex interplay of multiple cell types at different stages of development. Besides biochemical and physical cues, oxygen tension also plays a pivotal role in influencing cell fate during skeletal development. At physiological conditions, bone cells generally reside in relatively oxygenated environment whereas the chondrocytes reside in hypoxic environment. However, it is technically challenging to achieve such defined, yet diverse oxygen distribution on traditional in vitro cultivation platforms...
April 12, 2017: Tissue Engineering. Part C, Methods
https://www.readbyqxmd.com/read/28398127/near-infrared-spectroscopy-predicts-compositional-and-mechanical-properties-of-hyaluronic-acid-based-engineered-cartilage-constructs
#9
Farzad Yousefi, Minwook Kim, Syeda Yusra Nahri, Robert Leon Mauck, Nancy Pleshko
Hyaluronic acid (HA) has been widely used for cartilage tissue engineering applications. However, the optimal time point to harvest HA-based engineered constructs for cartilage repair is still under investigation. Here, we investigated the ability of a non-destructive modality, near infrared spectroscopic (NIR) analysis, to predict compositional and mechanical properties of HA-based engineered cartilage constructs. NIR spectral data were collected from control, unseeded constructs, and twice per week via fiber optic from constructs seeded with chondrocytes during their development over an 8 week period...
April 11, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28387995/recent-strategies-in-cartilage-repair-a-systemic-review-of-the-scaffold-development-and-tissue-engineering
#10
REVIEW
Vikrant Rai, Matthew F Dilisio, Nicholas E Dietz, Devendra K Agrawal
Osteoarthritis results in irreparable loss of articular cartilage. Due to its avascular nature and low mitotic activity, cartilage has little intrinsic capacity for repair. Cartilage loss leads to pain, physical disability, movement restriction, and morbidity. Various treatment strategies have been proposed for cartilage regeneration, but the optimum treatment is yet to be defined. Tissue engineering with engineered constructs aimed towards developing a suitable substrate may help in cartilage regeneration by providing the mechanical, biological and chemical support to the cells...
April 7, 2017: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28386058/cartilage-tissue-engineering-by-the-3d-bioprinting-of-ips-cells-in-a-nanocellulose-alginate-bioink
#11
Duong Nguyen, Daniel A Hägg, Alma Forsman, Josefine Ekholm, Puwapong Nimkingratana, Camilla Brantsing, Theodoros Kalogeropoulos, Samantha Zaunz, Sebastian Concaro, Mats Brittberg, Anders Lindahl, Paul Gatenholm, Annika Enejder, Stina Simonsson
Cartilage lesions can progress into secondary osteoarthritis and cause severe clinical problems in numerous patients. As a prospective treatment of such lesions, human-derived induced pluripotent stem cells (iPSCs) were shown to be 3D bioprinted into cartilage mimics using a nanofibrillated cellulose (NFC) composite bioink when co-printed with irradiated human chondrocytes. Two bioinks were investigated: NFC with alginate (NFC/A) or hyaluronic acid (NFC/HA). Low proliferation and phenotypic changes away from pluripotency were seen in the case of NFC/HA...
April 6, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28385649/prospects-of-sirna-applications-in-regenerative-medicine
#12
REVIEW
Fatemeh Mottaghitalab, Ali Rastegari, Mehdi Farokhi, Rassoul Dinarvand, Hossein Hosseinkhani, Keng-Liang Ou, Daniel W Pack, Chuanbin Mao, Meshkat Dinarvand, Yousef Fatahi, Fatemeh Atyabi
Small interfering RNA (siRNA) has established its reputation in the field of tissue engineering owing to its ability to silence the proteins that inhibit tissue regeneration. siRNA is capable of regulating cellular behavior during tissue regeneration processes. The concept of using siRNA technology in regenerative medicine derived from its ability to inhibit the expression of target genes involved in defective tissues and the possibility to induce the expression of tissue-inductive factors that improve the tissue regeneration process...
April 4, 2017: International Journal of Pharmaceutics
https://www.readbyqxmd.com/read/28385238/self-crosslinking-and-injectable-hyaluronic-acid-rgd-functionalized-pectin-hydrogel-for-cartilage-tissue-engineering
#13
Feng Chen, Yunzhou Ni, Bing Liu, Tongtong Zhou, Chunyang Yu, Yue Su, Xinyuan Zhu, Xiaowei Yu, Yongfeng Zhou
In the present study, we developed a biomimetic injectable hydrogel system based on hyaluronic acid-adipic dihydrazide and the oligopeptide G4RGDS-grafted oxidized pectin, in which their hydrazide and aldehyde-derivatives enable covalent hydrazone crosslinking of polysaccharides. The hydrazone crosslinking strategy is simple, while circumventing toxicity, making this injectable system feasible, minimally invasive and easily translatable for regenerative purposes. By varying their weight ratios, the physicochemical properties of the mechanically stable hydrogel system were easily adjustable...
June 15, 2017: Carbohydrate Polymers
https://www.readbyqxmd.com/read/28385124/mimicking-cartilage-tissue-zonal-organization-by-engineering-tissue-scale-gradient-hydrogels-as-3d-cell-niche
#14
Danqing Zhu, Xinming Tong, Pavin Trinh, Fan Yang
Zonal organization plays an important role in cartilage structure and function, whereas most tissue-engineering strategies developed to date have only allowed the regeneration of cartilage with homogeneous biochemical and mechanical cues. To better restore tissue structure and function, there is a strong need to engineer materials with biomimetic gradient niche cues that recapitulate native tissue organization. To address this critical unmet need, here we report a method for rapid formation of tissue-scale gradient hydrogels as a 3D cell niche with tunable biochemical and physical properties...
April 6, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28384053/thermosensitive-poly-n-vinylcaprolactam-injectable-hydrogels-for-cartilage-tissue-engineering
#15
Renata L Sala, Mi Y Kwon, Minwook Kim, Sarah E Gullbrand, Elizabeth A Henning, Robert L Mauck, Emerson R Camargo, Jason A Burdick
Injectable hydrogels have gained prominence in the field of tissue engineering for minimally invasive delivery of cells for tissue repair and in the filling of irregular defects. However, many injectable hydrogels exhibit long gelation times or are not stable for long periods after injection. To address these concerns, we used thermosensitive poly(N-vinylcaprolactam) (PNVCL) hydrogels due to their cytocompatibility and fast response to temperature stimuli. Changes in the PNVCL molecular weight and concentration enabled the development of hydrogels with tunable mechanical properties and fast gelation times (<60 s when the temperature was raised from room temperature to physiologic temperature)...
April 6, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28375818/chondrocyte-attachment-proliferation-and-differentiation-on-three-dimensional-polycaprolactone-fumarate-scaffolds
#16
Eric R Wagner, Joshua Parry, Mahrokh Dadsetan, Dalibel Bravo, Scott M Riester, Andre J van Wijnen, Michael J Yaszemski, Sanjeev Kakar
Current treatment options for cartilage injuries are limited. The goals of this study are to create a biodegradable polymer scaffold with the capabilities of sustaining chondrocyte growth and proliferation, enable cell-to-cell communication and tissue regeneration through large pores, and assess the biological augmentation of the scaffold capabilities using platelet lysate (PL). We synthesized biodegradable polycaprolactone fumarate (PCLF) scaffolds to allow cell-cell communication through large interconnected pores...
March 31, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28374682/biofabricated-soft-network-composites-for-cartilage-tissue-engineering
#17
Onur Bas, Elena De-Juan-Pardo, Christoph Meinert, Davide D'Angella, Jeremy Baldwin, Laura Bray, R Wellard, Stefan Kollmannsberger, Ernst Rank, Carsten Werner, Travis Klein, Isabelle Catelas, Dietmar Werner Hutmacher
Articular cartilage from a material science point of view is a soft network composite that plays a critical role in load-bearing joints during dynamic loading. Its composite structure, consisting of a collagen fiber network and a hydrated proteoglycan matrix, gives rise to the complex mechanical properties of the tissue including viscoelasticity and stress relaxation. Melt Electrospinning Writing (MEW) allows the design and fabrication of medical grade polycaprolactone (mPCL) fibrous networks for the reinforcement of soft hydrogel matrices for cartilage tissue engineering...
April 4, 2017: Biofabrication
https://www.readbyqxmd.com/read/28372299/new-tools-for-non-invasive-exploration-of-collagen-network-in-cartilaginous-tissue-engineered-substitute
#18
Christel Henrionnet, Dominique Dumas, Sébastien Hupont, Jean François Stoltz, Didier Mainard, Pierre Gillet, Astrid Pinzano
In tissue engineering approaches, the quality of substitutes is a key element to determine its ability to treat cartilage defects. However, in clinical practice, the evaluation of tissue-engineered cartilage substitute quality is not possible due to the invasiveness of the standard procedure, which is to date histology. The aim of this work was to validate a new innovative system performed from two-photon excitation laser adapted to an optical macroscope to evaluate at macroscopic scale the collagen network in cartilage tissue-engineered substitutes in confrontation with gold standard histologic techniques or immunohistochemistry to visualize type II collagen...
2017: Bio-medical Materials and Engineering
https://www.readbyqxmd.com/read/28372296/new-cell-engineering-approaches-for-cartilage-regenerative-medicine
#19
Magali Cucchiarini
Articular cartilage injuries have an inadequate aptitude to reproduce the original structure and functions of this highly specialized tissue. As most of the currently available options also do not lead to the restoration of the original hyaline cartilage, novel treatments are critically needed to address this global problems in the clinics. Gene therapy combined with tissue engineering approaches offers effective tools capable of enhancing cartilage repair experimentally, especially those based on the controlled delivery of the highly effective, clinically adapted recombinant adeno-associated viral (rAAV) vectors...
2017: Bio-medical Materials and Engineering
https://www.readbyqxmd.com/read/28372295/comparison-of-msc-properties-in-two-different-hydrogels-impact-of-mechanical-properties
#20
Hao Yu, Ghislaine Cauchois, Nicolas Louvet, Yun Chen, Rachid Rahouadj, Céline Huselstein
Once articular cartilage is damaged, it has poor ability to heal. At present, alginate-based hydrogels have 3D-dimensional physical structures with great potential for applications in carilage tissue engineering. For osteochondral defect, it will be necessary to use stratified scaffold to mimic zonal organization of cartilage. This study aims to compare the characteristics of alginate (Alg)/hyaluronic acid (HA) hydrogels which will mimic cartilage with alginate (Alg)/hydroxyapatite (Hap) hydrogels which will mimic subchondral bone...
2017: Bio-medical Materials and Engineering
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