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cartilage tissue engineering

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https://www.readbyqxmd.com/read/28534942/gene-expression-analysis-of-growth-factor-receptors-in-human-chondrocytes-in-monolayer-and-3d-pellet-cultures
#1
Anika Witt, Achim Salamon, Diana Boy, Doris Hansmann, Andreas Büttner, Andreas Wree, Rainer Bader, Anika Jonitz-Heincke
The main goal of cartilage repair is to create functional tissue by enhancing the in vitro conditions to more physiological in vivo conditions. Chondrogenic growth factors play an important role in influencing cartilage homeostasis. Insulin‑like growth factor (IGF)‑1 and transforming growth factor (TGF)‑β1 affect the expression of collagen type II (Col2) and glycosaminoglycans (GAGs) and, therefore, the targeted use of growth factors could make chondrogenic redifferentiation more efficient. In the present study, human chondrocytes were postmortally isolated from healthy articular cartilage and cultivated as monolayer or 3D pellet cultures either under normoxia or hypoxia and stimulated with IGF‑1 and/or TGF‑β1 to compare the impact of the different growth factors...
May 18, 2017: International Journal of Molecular Medicine
https://www.readbyqxmd.com/read/28534758/engineering-tissues-to-heal-themselves-bioinks-and-tendon-scaffolds-show-promise-for-helping-the-body-recover-from-musculoskeletal-injury
#2
Sarah Campbell
Sufferers of osteoarthritis are all too aware of the daily pain and impairment of swollen joints, of having to give up sports-and jobs-due to cartilage defects. What they may be less aware of is that three-dimensional (3-D) bioprinting and bioink technologies are being developed to revolutionize the existing (and often imperfect) treatments available to them.
May 2017: IEEE Pulse
https://www.readbyqxmd.com/read/28532101/sonochemical-synthesis-of-fructose-1-6-bisphosphate-dicalcium-porous-microspheres-and-their-application-in-promotion-of-osteogenic-differentiation
#3
Chao Qi, Ding Zhou, Ying-Jie Zhu, Tuan-Wei Sun, Feng Chen, Chang-Qing Zhang
Human bone mesenchymal stem cells (hBMSCs) have the ability to differentiate into bone and cartilage for clinical bone regeneration. Biomaterials with an innate ability to stimulate osteogenic differentiation of hBMSCs into bone and cartilage are considered attractive candidates for the applications in bone tissue engineering and regeneration. In this paper, we synthesized fructose 1,6-bisphosphate dicalcium (Ca2FBP) porous microspheres by the sonochemical method, and investigated the ability of Ca2FBP for the promotion of the osteogenic differentiation of hBMSCs...
August 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28529106/engineered-cartilage-regeneration-from-adipose-tissue-derived-mesenchymal-stem-cells-a-morphomolecular-study-on-osteoblast-chondrocyte-and-apoptosis-evaluation
#4
Marta Anna Szychlinska, Paola Castrogiovanni, Houda Nsir, Michelino Di Rosa, Claudia Guglielmino, Rosalba Parenti, Giovanna Calabrese, Elisabetta Pricoco, Lucia Salvatorelli, Gaetano Magro, Rosa Imbesi, Ali Mobasheri, Giuseppe Musumeci
The poor self-repair capacity of cartilage tissue in degenerative conditions, such as osteoarthritis (OA), has prompted the development of a variety of therapeutic approaches, such as cellular therapies and tissue engineering based on the use of mesenchymal stem cells (MSCs). The aim of this study is to demonstrate, for the first time, that the chondrocytes differentiated from rat adipose tissue derived-MSCs (AMSCs), are able to constitute a morphologically and biochemically healthy hyaline cartilage after 6 weeks of culture on a Collagen Cell Carrier (CCC) scaffold...
May 18, 2017: Experimental Cell Research
https://www.readbyqxmd.com/read/28525313/a-tunable-three-dimensional-in-vitro-culture-model-of-growth-plate-cartilage-using-alginate-hydrogel-scaffolds
#5
Alek G Erickson, Taylor D Laughlin, Sarah M Romereim, Catherine N Sargus-Patino, Angela K Pannier, Andrew T Dudley
Defining the final size and geometry of engineered tissues through precise control of the scalar and vector components of tissue growth is a necessary benchmark for regenerative medicine, but it has proved to be a significant challenge for tissue engineers. The growth plate cartilage that promotes elongation of the long bones is a good model system for studying morphogenetic mechanisms because cartilage is composed of a single cell type, the chondrocyte; chondrocytes are readily maintained in culture; and growth trajectory is predominately in a single vector...
May 18, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28524733/cartilage-engineering-in-reconstructive-surgery-auricular-nasal-and-tracheal-engineering-from-a-surgical-perspective
#6
Paul Severin Wiggenhauser, Jan Thorsten Schantz, Nicole Rotter
This review provides an update on cartilage tissue engineering with particular focus on the head and neck. It is aimed at scientists and clinicians who are interested in tissue engineering and its clinical applicability. Principal tissue engineering strategies are summarized in the first part of this review. In the second part, current clinical approaches to auricular, nasal and tracheal reconstruction are discussed from a surgical perspective. By this approach, the requirements for clinical applicability are outlined and new insight into relevant aims of research is given to accelerate the transfer from bench to bedside...
May 19, 2017: Regenerative Medicine
https://www.readbyqxmd.com/read/28521989/synthesis-of-strontium-chondroitin-sulfate-and-the-evaluation-of-its-capability-to-attenuate-osteoarthritis
#7
F B Ma, N Liu, N Hu, C Y Wen, B Tang
Osteoarthritis (OA) is the most prevalent musculoskeletal disorder and the leading cause of joint disability in elderly patients. In this study, we fabricated strontium chondroitin sulfate (SrCS), a new polysaccharide-metal ion complex that is the combination of chondroitin sulfate and strontium, which are two widely adopted chemicals in OA clinical management. The structural, chemical compositions and morphology of as-fabricated SrCS were systematically investigated. Cell proliferation test, RT-PCR and preliminary animal studies were conducted to evaluate the clinical potential of SrCS on OA treatment...
August 15, 2017: Carbohydrate Polymers
https://www.readbyqxmd.com/read/28518068/3d-magnetic-stem-cell-aggregation-and-bioreactor-maturation-for-cartilage-regeneration
#8
Aurore Van de Walle, Claire Wilhelm, Nathalie Luciani
Cartilage engineering remains a challenge due to the difficulties in creating an in vitro functional implant similar to the native tissue. An approach recently explored for the development of autologous replacements involves the differentiation of stem cells into chondrocytes. To initiate this chondrogenesis, a degree of compaction of the stem cells is required; hence, we demonstrated the feasibility of magnetically condensing cells, both within thick scaffolds and scaffold-free, using miniaturized magnetic field sources as cell attractors...
April 27, 2017: Journal of Visualized Experiments: JoVE
https://www.readbyqxmd.com/read/28518000/comparison-of-simulated-microgravity-and-hydrostatic-pressure-for-chondrogenesis-of-hasc
#9
Liliana F Mellor, Andrew J Steward, Rachel C Nordberg, Michael A Taylor, Elizabeth G Loboa
BACKGROUND: Cartilage tissue engineering is a growing field due to the lack of regenerative capacity of native tissue. The use of bioreactors for cartilage tissue engineering is common, but the results are controversial. Some studies suggest that microgravity bioreactors are ideal for chondrogenesis, while others show that mimicking hydrostatic pressure is crucial for cartilage formation. A parallel study comparing the effects of loading and unloading on chondrogenesis has not been performed...
April 1, 2017: Aerospace Medicine and Human Performance
https://www.readbyqxmd.com/read/28515058/tissue-engineered-cartilage-constructed-by-a-biotin-conjugated-anti-cd44-avidin-binding-technique-for-the-repairing-of-cartilage-defects-in-the-weight-bearing-area-of-knee-joints-in-pigs
#10
H Lin, J Zhou, L Cao, H R Wang, J Dong, Z R Chen
OBJECTIVES: The lack of effective treatment for cartilage defects has prompted investigations using tissue engineering techniques for their regeneration and repair. The success of tissue-engineered repair of cartilage may depend on the rapid and efficient adhesion of transplanted cells to a scaffold. Our aim in this study was to repair full-thickness defects in articular cartilage in the weight-bearing area of a porcine model, and to investigate whether the CD44 monoclonal antibody biotin-avidin (CBA) binding technique could provide satisfactory tissue-engineered cartilage...
May 2017: Bone & Joint Research
https://www.readbyqxmd.com/read/28514935/mesenchymal-stem-cell-based-cartilage-regeneration-approach-and-cell-senescence-can-we-manipulate-cell-aging-and-function
#11
Marta Anna Szychlinska, Martin James Stoddart, Ugo D'Amora, Luigi Ambrosio, Mauro Alini, Giuseppe Musumeci
Aging is the most prominent risk factor triggering several degenerative diseases, such as Osteoarthritis (OA). Due to its poor self-healing capacity, once injured cartilage needs to be re-established. This process mighmight be approached bythrough resorting to cell-based therapies and/or tissue engineering. Human mesenchymal stem cells (hMSC) represent a promising approach due to their chondrogenic differentiation potential. Presently, in vitro chondrogenic differentiation of MSCs is limited by two main reasons: Aging aging of MSCs, which determines the loss of cell proliferative and differentiationed capacity and MSC-derived chondrocyte hypertrophic differentiation, which limits the use of these cells in cartilage tissue regeneration approach...
May 17, 2017: Tissue Engineering. Part B, Reviews
https://www.readbyqxmd.com/read/28512850/in-situ-handheld-3d-bioprinting-for-cartilage-regeneration
#12
Claudia Di Bella, Serena Duchi, Cathal D O'Connell, Romane Blanchard, Cheryl Augustine, Zhilian Yue, Fletcher Thompson, Christopher Richards, Stephen Beirne, Carmine Onofrillo, Sebastien H Bauquier, Stewart D Ryan, Peter Pivonka, Gordon G Wallace, Peter F Choong
Articular cartilage injuries experienced at an early age can lead to the development of osteoarthritis later in life. In situ 3D printing is an exciting and innovative bio-fabrication technology that enables the surgeon to deliver tissue- engineering techniques at the time and location of need. We have created a hand- held 3D printing device (Biopen) that allows the simultaneous co-axial extrusion of bioscaffold and cultured cells directly into the cartilage defect in vivo in a single session surgery. This pilot study assesses the ability of the Biopen to repair a full thickness chondral defect and the early outcomes in cartilage regeneration, and compares these results to other treatments in a large animal model...
May 17, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28496944/current-state-of-cartilage-tissue-engineering-using-nanofibrous-scaffolds-and-stem-cells
#13
REVIEW
Somaieh Kazemnejad, Manijeh Khanmohammadi, Nafiseh Baheiraei, Shaghayegh Arasteh
Cartilage is an avascular, aneural, and alymphatic connective tissue with a limited capacity caused by low mitotic activity of its resident cells, chondrocytes. Natural repair of full thickness cartilage defects usually leads to the formation of fibrocartilage with lower function and mechanical force compared with the original hyaline cartilage and further deterioration can occur. Tissue engineering and regenerative medicine is a promising strategy to repair bone and articular cartilage defects and rehabilitate joint functions by focusing on the optimal combination of cells, material scaffolds, and signaling molecules...
April 2017: Avicenna Journal of Medical Biotechnology
https://www.readbyqxmd.com/read/28494738/smart-and-controllable-raav-gene-delivery-carriers-in-progenitor-cells-for-human-musculoskeletal-regenerative-medicine-with-a-focus-on-the-articular-cartilage
#14
Ana Rey-Rico, Magali Cucchiarini
Cell therapy using mesenchymal stem cells (MSCs) is a powerful tool for the treatment of various diseases and injuries. Still, important limitations including the large amounts of cells required for application in vivo and the age-related decline in lifespan, proliferation, and potency may hinder the use of MSCs in patients. In this regard, gene therapy may offer strong approaches to optimize the use of MSCs for regenerative medicine. Diverse nonviral and viral gene vehicles have been manipulated to genetically modify MSCs, among which the highly effective and relatively safe recombinant adeno-associated viral (rAAV) vectors that emerged as the preferred gene delivery system to treat human disorders...
May 10, 2017: Current Gene Therapy
https://www.readbyqxmd.com/read/28494722/adult-stem-cells-and-hydrogels-for-cartilage-regeneration
#15
Lei Wang, Chenglong Huang, Qing Li, Lin Liu, Shihong Luo, Jingang Xiao
Cartilage tissue engineering is emerging as a therapeutic approach for the repair and regeneration of cartilage tissue defects resulting from trauma and disease. It is still essential to explore approaches that employ combinations of ideal seed cells, biomaterials, and growth factors to repair defect areas because cartilage lacks spontaneous regenerative capabilities and traditional treatments do not fully satisfy clinical requirements. The purpose of this review is to summarize key advances in this area with an emphasis on adult stem cells because these cells possess a self-renewal ability and the potential for multi-directional differentiation when cultured under appropriate conditions, such as chondrocyte differentiation to synthesize cartilage-specific matrix proteins...
May 11, 2017: Current Stem Cell Research & Therapy
https://www.readbyqxmd.com/read/28491279/-mesenchymal-stem-cells-fact-or-fiction-and-implications-in-their-therapeutic-use
#16
REVIEW
Pamela Robey
The concept of a post-natal "mesenchymal stem cell" ("MSC") originated from studies focused on bone marrow stromal cells (BMSCs), which are non-hematopoietic adherent cells, a subset of which are skeletal stem cells (SSCs), able to form cartilage, bone, hematopoiesis-supportive stroma, and marrow adipocytes based on rigorous clonal and differentiation assays. Subsequently, it was speculated that BMSCs could form other mesodermal derivatives and even cell types from other germ layers. Based on BMSC surface markers, representative of fibroblastic cells, and imprecise differentiation assays, it was further imagined that "MSCs" are ubiquitous and equipotent...
2017: F1000Research
https://www.readbyqxmd.com/read/28488318/platelet-rich-plasma-enhances-the-integration-of-bio-engineered-cartilage-with-native-tissue-in-an-in-vitro-model
#17
Corey Sermer, Rita Kandel, Jesse Anderson, Mark Hurtig, John Theodoropoulos
Current therapies for cartilage repair can be limited by an inability of the repair tissue to integrate with host tissue. Thus there is interest in developing approaches to enhance integration. We have previously shown that platelet-rich plasma (PRP) improves cartilage tissue formation. This raised the question as to whether PRP could promote cartilage integration. Chondrocytes were isolated from cartilage harvested from bovine joints, seeded on a porous bone substitute, and grown in vitro to form an osteochondral-like implant...
May 9, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28488244/decellularized-iliotibial-band-recolonized-with-allogenic-homotopic-fibroblasts-or-bone-marrow-derived-mesenchymal-stromal-cells
#18
Clemens Gögele, Silke Schwarz, Benjamin Ondruschka, Niels Hammer, Gundula Schulze-Tanzil
Decellularized scaffolds present promising biomimetic approaches in various fields of tissue engineering. Different tissues have been selected for decellularization, among them extracellular matrix (ECM)-rich tissues such as tendons, ligaments and cartilage. The dense ECM of ligaments is particularly challenging to achieve a completely non-immunogenic ECM void of any cells. Here, the methods for decellularization adapted to ligamentous tissue of the iliotibial band (ITB) are presented along with cell isolation and several recolonization techniques using allogenic ITB-derived fibroblasts or mesenchymal stromal cells (MSCs)...
May 10, 2017: Methods in Molecular Biology
https://www.readbyqxmd.com/read/28486778/efficacy-of-thermoresponsive-photocrosslinkable-hydrogels-derived-from-decellularized-tendon-and-cartilage-extracellular-matrix-for-cartilage-tissue-engineering
#19
Benjamin B Rothrauff, Luca Coluccino, Riccardo Gottardi, Luca Ceseracciu, Silvia Scaglione, Luca Goldoni, Rocky S Tuan
Tissue engineering using adult mesenchymal stem cells (MSCs), a promising approach for cartilage repair, is highly dependent on the nature of the matrix scaffold. Thermoresponsive, photocrosslinkable hydrogels were fabricated by functionalizing pepsin-soluble decellularized tendon and cartilage extracellular matrices (ECM) with methacrylate groups. Methacrylated gelatin hydrogels served as controls. When seeded with human bone marrow mesenchymal stem cells (MSCs) and cultured in chondrogenic medium, methacrylated ECM hydrogels experienced less cell-mediated contraction, as compared against non-methacrylated ECM hydrogels...
May 9, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28485490/label-free-relative-quantification-of-secreted-proteins-as-a-non-invasive-method-for-the-quality-control-of-chondrogenesis-in-bioengineered-substitutes-for-cartilage-repair
#20
Christel Henrionnet, Pierre Gillet, Didier Mainard, Jean-Baptiste Vincourt, Astrid Pinzano
Cartilage tissue engineering is making progress but the competing available strategies still leave room for improvement and consensual overviews regarding the best combinations of scaffolds and cell sources are limited by the capacity to compare them directly. In addition, because most strategies involve autologous cell transfer, once these will be optimized, the resulting implants require individual quality control prior to grafting in order to emphasize patient-to-patient differential responsiveness to engineering processes...
May 9, 2017: Journal of Tissue Engineering and Regenerative Medicine
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