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Stem cell AND seed cells AND tissue engineering

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https://www.readbyqxmd.com/read/28629100/biomaterials-and-cells-for-cardiac-tissue-engineering-current-choices
#1
REVIEW
Rusha Chaudhuri, Madhumitha Ramachandran, Pearl Moharil, Megha Harumalani, Amit K Jaiswal
The major purpose of cardiac tissue engineering is to engineer cells on scaffolds and use it as a substitute to infarcted cardiac cells. With an ever-increasing risk of cardiac diseases there is an increasing need to have a stable and sustainable approach to cure such ailments. This review provides a comprehensive update on the cell sources and biomaterials essential for cardiac tissue engineering, ensuring their biocompatibility under a variety of conditions. Cells can be obtained from allogenic or autologous sources...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629021/novel-hipsc-based-tri-culture-for-pre-vascularization-of-calcium-phosphate-scaffold-to-enhance-bone-and-vessel-formation
#2
Chi Zhang, Kevin Hu, Xian Liu, Mark A Reynolds, Chongyun Bao, Ping Wang, Liang Zhao, Hockin H K Xu
Vascularization of tissue-engineered bone is a critical step in maintaining cell viability and advancing cell performance in vivo. In this study, a novel tri-culture system was developed to elicit pre-vascularization of calcium phosphate cement (CPC) scaffold in which human induced pluripotent stem cell-derived mesenchymal stem cells (hiPSMSCs) were seeded together with human umbilical vein endothelial cells (HUVECs) and pericytes. In a two-step methodology design, we first performed osteoinduction of the seeded hiPSMSCs on the CPC scaffold and then incorporated HUVECs and pericytes to the hiPSMSC-colonized CPC scaffold under a favorable culturing condition, with an objective to form a stable and functional capillary-like vascular network that sustained the engineered osseous tissue...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28627740/biofabrication-of-soft-tissue-templates-for-engineering-the-bone-ligament-interface
#3
Ella Harris, Yurong Liu, Grainne Cuniffe, David Morrissey, Simon Carroll, Kevin Mulhall, Daniel J Kelly
Regenerating damaged tissue interfaces remains a significant clinical challenge, requiring recapitulation of the structure, composition and function of the native enthesis. In the ligament-to-bone interface this region transitions from ligament to fibrocartilage, to calcified cartilage and then to bone. This gradation in tissue types facilitates the transfer of load between soft and hard structures while minimizing stress concentrations at the interface. Previous attempts to engineer the ligament-bone interface have utilized various scaffold materials with an array of various cell types and/or biological cues...
June 19, 2017: Biotechnology and Bioengineering
https://www.readbyqxmd.com/read/28611002/chondrogenesis-of-human-bone-marrow-mesenchymal-stem-cells-in-3-dimensional-photocrosslinked-hydrogel-constructs-effect-of-cell-seeding-density-and-material-stiffness
#4
Aaron X Sun, Hang Lin, Madalyn R Fritch, He Shen, Pete G Alexander, Michael DeHart, Rocky S Tuan
Three-dimensional hydrogel constructs incorporated with live stem cells that support chondrogenic differentiation and maintenance offer a promising regenerative route towards addressing the limited self-repair capabilities of articular cartilage. In particular, hydrogel scaffolds that augment chondrogenesis and recapitulate the native physical properties of cartilage, such as compressive strength, can potentially be applied in point-of-care procedures. We report here the synthesis of two new materials, [poly-l-lactic acid/polyethylene glycol/poly-l-lactic acid] (PLLA-PEG 1000) and [poly-d,l-lactic acid/polyethylene glycol/poly-d,l-lactic acid] (PDLLA-PEG 1000), that are biodegradable, biocompatible (>80% viability post fabrication), and possess high, physiologically relevant mechanical strength (∼1500 to 1800kPa)...
June 10, 2017: Acta Biomaterialia
https://www.readbyqxmd.com/read/28608414/use-of-lecithin-to-control-fibre-morphology-in-electrospun-poly-%C3%AE%C2%B5-caprolactone-scaffolds-for-improved-tissue-engineering-applications
#5
Benjamin D M Coverdale, Julie E Gough, William W Sampson, Judith A Hoyland
We elucidate the effects of incorporating surfactants into electrospun poly (ε-caprolactone) (PCL) scaffolds on network homogeneity, cellular adherence and osteogenic differentiation. Lecithin was added with a range of concentrations to PCL solutions, which were electrospun to yield functionalised scaffolds. Addition of lecithin yielded a dose-dependent reduction in scaffold hydrophobicity, whilst reducing fibre width and hence increasing specific surface area. These changes in scaffold morphology were associated with increased cellular attachment of Saos-2 osteoblasts 3-hours post-seeding...
June 12, 2017: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28605808/rat-limbal-niche-cells-prevent-epithelial-stem-progenitor-cells-from-differentiation-and-proliferation-by-inhibiting-notch-signaling-pathway-in-vitro
#6
Jing Li, Szu-Yu Chen, Xin-Yue Zhao, Ming-Chang Zhang, Hua-Tao Xie
Purpose: Limbal niche cells (LNCs) play a pivotal role in regulating limbal epithelial stem/progenitor cells (LESCs). This study aimed to investigate whether Notch signaling is involved in LNCs' regulation of LESCs. Methods: Rat limbus was digested by dispase and collagenase, respectively. Limbal niche cells were isolated by serial passage of collagenase-digested cells on coated Matrigel in a modified embryonic stem cell medium (MESCM). Dispase-isolated cells, with or without LNCs, were seeded on three-dimensional (3D) Matrigel...
June 1, 2017: Investigative Ophthalmology & Visual Science
https://www.readbyqxmd.com/read/28586547/pcl-ha-microscaffolds-for-in-vitro-modular-bone-tissue-engineering
#7
Alessandra Totaro, Aurelio Salerno, Giorgia Imparato, Concepción Domingo, Francesco Urciuolo, Paolo Antonio Netti
The evolution of microscaffolds and bone-bioactive surfaces is a pivotal point in modular bone tissue engineering. In this study, the design and fabrication of porous polycaprolactone (PCL) microscaffolds functionalized with hydroxyapatite (HA) nanoparticles by means of a bio-safe and versatile thermally-induced phase separation process is reported. The ability of the as-prepared nanocomposite microscaffolds to support the adhesion, growth and osteogenic differentiation of human mesenchymal stem cells (hMSCs) in standard and osteogenic media and using dynamic seeding/culture conditions was investigated...
June 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28576024/layer-by-layer-assembled-polyelectrolytes-on-honeycomb-like-porous-poly-%C3%AE%C2%B5-caprolactone-films-modulate-the-spatial-distribution-of-mesenchymal-stem-cells
#8
Yanli Liu, Jiazhu Xu, Yan Zhou, Zhaoyang Ye, Wen-Song Tan
Cellular behaviors can be affected by both surface chemistry and topography of biomaterials substrates. The object of the present study was to investigate how pore structure and bioactive molecules regulate the adhesion and proliferation of rabbit bone marrow-derived mesenchymal stem cells (rMSCs) in synergy. Poly(ε-caprolactone) (PCL) films with a honeycomb-like porous structure were fabricated via a breath-figure method, and then further coated with bioactive molecules including four combinations of polyelectrolytes (GEL/CS, GEL/HA, CHI/CS and CHI/HA) via a layer-by-layer self-assembly (LBL) process...
September 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28575957/neural-differentiation-of-human-induced-pluripotent-stem-cells-on-polycaprolactone-gelatin-bi-electrospun-nanofibers
#9
Ali KarbalaeiMahdi, Mohsen Shahrousvand, Hamid Reza Javadi, Marzieh Ghollasi, Faezeh Norouz, Mehdi Kamali, Ali Salimi
In the present study, for the first time, polycaprolactone (PCL) and gelatin (GEL) were used for neural differentiation of human induced pluripotent stem cells (hiPSCs) in the form of bi-electrospun nanofibers. The electrospun fibers were evaluated by FTIR and tensile analysis. MTT assay was used to evaluate the toxicity on the scaffolds. The hiPSCs were seeded on the fibers and after 14days in neural differentiation medium. To confirm the differentiation, real-time PCR and immunocytochemistry (ICC) analyses were performed...
September 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28573977/bioactive-glass-ceramic-with-two-crystalline-phases-bios-2p-for-bone-tissue-engineering
#10
Emanuela Ferraz, Gileade Freitas, Murilo Crovace, Oscar Peitl, Edgar Zanotto, Paulo Tambasco de Oliveira, Marcio Mateus Beloti, Adalberto Rosa
We aimed to evaluate the in vitro osteogenic and osteoinductive potentials of BioS-2P and its ability to promote in vivo bone repair. To investigate osteogenic potential, UMR-106 osteoblastic cells were cultured on BioS-2P and Bioglass 45S5 discs in osteogenic medium. The osteoinductive potential was evaluated using mesenchymal stem cells (MSCs) cultured on BioS-2P, Bioglass 45S5 and polystyrene in non-osteogenic medium. Rat bone calvarial defects were implanted with BioS-2P scaffolds alone or seeded with MSCs...
June 2, 2017: Biomedical Materials
https://www.readbyqxmd.com/read/28567273/bone-and-cartilage-differentiation-of-a-single-stem-cell-population-driven-by-material-interface
#11
Hannah Donnelly, Carol-Anne Smith, Paula E Sweeten, Nikolaj Gadegaard, Rm Dominic Meek, Matteo D'Este, Alvaro Mata, David Eglin, Matthew J Dalby
Adult stem cells, such as mesenchymal stem cells, are a multipotent cell source able to differentiate towards multiple cell types. While used widely in tissue engineering and biomaterials research, they present inherent donor variability and functionalities. In addition, their potential to form multiple tissues is rarely exploited. Here, we combine an osteogenic nanotopography and a chondrogenic hyaluronan hydrogel with the hypothesis that we can make a complex tissue from a single multipotent cell source with the exemplar of creating a three-dimensional bone-cartilage boundary environment...
January 2017: Journal of Tissue Engineering
https://www.readbyqxmd.com/read/28565764/evaluation-of-the-maintenance-of-stemness-viability-and-differentiation-potential-of-gingiva-derived-stem-cell-spheroids
#12
Sung-Il Lee, Youngkyung Ko, Jun-Beom Park
Gingiva-derived stem cells have been applied for tissue-engineering purposes and may be considered a favorable source of mesenchymal stem cells as harvesting stem cells from the mandible or maxilla may be performed with ease under local anesthesia. The present study was performed to fabricate stem-cell spheroids using concave microwells and to evaluate the maintenance of stemness, viability, and differentiation potential. Gingiva-derived stem cells were isolated, and the stem cells of 4×10(5) (group A) or 8×10(5) (group B) cells were seeded into polydimethylsiloxane-based, concave micromolds with 600 µm diameters...
May 2017: Experimental and Therapeutic Medicine
https://www.readbyqxmd.com/read/28556557/conjunctiva-derived-mesenchymal-stem-cell-cjmscs-as-a-potential-platform-for-differentiation-into-corneal-epithelial-cells-on-bioengineered-electrospun-scaffolds
#13
Fatemeh Soleimanifar, Yousef Mortazavi, Samad Nadri, Masoud Soleimani
With the aid of tissue engineering, the capability of nanofibrous scaffolds was examined for corneal epithelial differentiation of Conjunctiva mesenchymal stem cells (CJMSCs) as a new source. This study tried to provide a synthetic corneal sheet which could be applied in corneal regeneration. The hybrid arrangement of fine Silk fibers with the diameter of 93.65 nm and the polyurethane (PU) fibers with an average diameter of 575.5 makes a mat with sufficient mechanical properties and interconnected pores that could accelerate nutrient diffusion...
May 27, 2017: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28556547/a-systematic-review-on-cell-seeded-tissue-engineering-of-penile-corpora
#14
REVIEW
Dorien E C M de Vocht, Vincent de Kemp, J D Iljas, J L H Ruud Bosch, Laetitia M O de Kort, Petra de Graaf
INTRODUCTION: Tissue engineering of corporal tissue is a new development in otherwise untreatable erectile dysfunction and in urethral reconstructions to treat hypospadias or severe urethral stricture disease. Multiple complications can arise with the current treatments, whereas engineered tissue, if well vascularized and existing of autologous cells, may lead to better results. The aim of this review was to provide an overview of literature on cell seeded based tissue engineering of corporal penile tissue...
May 26, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28553359/bone-regeneration-induced-by-bone-porcine-block-with-bone-marrow-stromal-stem-cells-in-a-minipig-model-of-mandibular-critical-size-defect
#15
Antonio Scarano, Vito Crincoli, Adriana Di Benedetto, Valerio Cozzolino, Felice Lorusso, Michele Podaliri Vulpiani, Maria Grano, Zamira Kalemaj, Giorgio Mori, Felice Roberto Grassi
Introduction. Adding stem cells to biodegradable scaffolds to enhance bone regeneration is a valuable option. Different kinds of stem cells with osteoblastic activity were tested, such as bone marrow stromal stem cells (BMSSCs). Aim. To assess a correct protocol for osteogenic stem cell differentiation, so BMSSCs were seeded on a bone porcine block (BPB). Materials and Methods. Bone marrow from six minipigs was extracted from tibiae and humeri and treated to isolate BMSSCs. After seeding on BPB, critical-size defects were created on each mandible of the minipigs and implanted with BPB and BPB/BMSSCs...
2017: Stem Cells International
https://www.readbyqxmd.com/read/28548713/co-culture-systems-based-strategies-for-articular-cartilage-tissue-engineering
#16
REVIEW
Yu Zhang, Shuyun Liu, Weimin Guo, Mingjie Wang, Chunxiang Hao, Shuang Gao, Xueliang Zhang, Li Xu, Mingxue Chen, Li Penghao, Peng Jiang, Shibi Lu, Quanyi Guo
Cartilage engineering facilitates repair and regeneration of damaged cartilage using engineered tissue that restores the functional properties of the impaired joint. The seed cells used most frequently in tissue engineering, are chondrocytes and mesenchymal stem cells. Seed cells activity plays a key role in the regeneration of functional cartilage tissue. However, seed cells undergo undesirable changes after in vitro processing procedures, such as degeneration of cartilage cells and induced hypertrophy of mesenchymal stem cells, which hinder cartilage tissue engineering...
May 26, 2017: Journal of Cellular Physiology
https://www.readbyqxmd.com/read/28544815/fabrication-of-viable-and-functional-pre-vascularized-modular-bone-tissues-by-coculturing-mscs-and-huvecs-on-microcarriers-in-spinner-flasks
#17
Songjie Zhang, Min Zhou, Zhaoyang Ye, Yan Zhou, Wen-Song Tan
BACKGROUND AND AIM: Slow vascularization often impedes the viability and function of engineered bone replacements. Prevascularization is a promising way to solve this problem. In this study, a new process was developed by integrating microcarrier culture and coculture to fabricate pre-vascularized bone microtissues with mesenchymal stem cells (MSCs) and human umbilical vein endotheli-al cells (HUVECs). METHODOLOGY: Initially, coculture medium and cell ratio between MSCs and HUVECs were optimized in tissue culture plates concerning cell proliferation, osteogenesis and angiogenesis...
May 24, 2017: Biotechnology Journal
https://www.readbyqxmd.com/read/28544662/tracheal-replacement-therapy-with-a-stem-cell-seeded-graft-lessons-from-compassionate-use-application-of-a-gmp-compliant-tissue-engineered-medicine
#18
Martin J Elliott, Colin R Butler, Aikaterini Varanou-Jenkins, Leanne Partington, Carla Carvalho, Edward Samuel, Claire Crowley, Peggy Lange, Nicholas J Hamilton, Robert E Hynds, Tahera Ansari, Paul Sibbons, Anja Fierens, Claire McLaren, Derek Roebuck, Colin Wallis, Nagarajan Muthialu, Richard Hewitt, David Crabbe, Sam M Janes, Paolo De Coppi, Mark W Lowdell, Martin A Birchall
Tracheal replacement for the treatment of end-stage airway disease remains an elusive goal. The use of tissue-engineered tracheae in compassionate use cases suggests that such an approach is a viable option. Here, a stem cell-seeded, decellularized tissue-engineered tracheal graft was used on a compassionate basis for a girl with critical tracheal stenosis after conventional reconstructive techniques failed. The graft represents the first cell-seeded tracheal graft manufactured to full good manufacturing practice (GMP) standards...
June 2017: Stem Cells Translational Medicine
https://www.readbyqxmd.com/read/28536786/future-prospects-for-human-tissue-engineered-urethra-transplantation-decellularization-and-recellularization-based-urethra-regeneration
#19
Abdol-Mohammad Kajbafzadeh, Reza Abbasioun, Shabnam Sabetkish, Nastaran Sabetkish, Parvin Rahmani, Kamyar Tavakkolitabassi, Hamid Arshadi
To evaluate the histological characteristics of decellularized human urethra after transplantation into the rat omentum and compare in vivo cell seeding with perfusion-based and cell sheet urethral regeneration. Eight adult human male urethras accompanied with the surrounding corpus spongiosum were obtained. The tissues were decellularized with detergent-based method. The efficacy of decellularization and extracellular matrix preservation was evaluated by several techniques. Decellularized scaffolds were transplanted into the omentum of 12 male rats and located into the scrotum...
May 23, 2017: Annals of Biomedical Engineering
https://www.readbyqxmd.com/read/28532021/nanosecond-laser-ablation-enhances-cellular-infiltration-in-a-hybrid-tissue-scaffold
#20
S Jahnavi, N Arthi, S Pallavi, C Selvaraju, G S Bhuvaneshwar, T V Kumary, R S Verma
Hybrid tissue engineered (HTE) scaffolds constituting polymeric nanofibers and biological tissues have attractive bio-mechanical properties. However, they suffer from small pore size due to dense overlapping nanofibers resulting in poor cellular infiltration. In this study, using nanosecond (ns) laser, we fabricated micro-scale features on Polycaprolactone (PCL)-Chitosan (CH) nanofiber layered bovine pericardium based Bio-Hybrid scaffold to achieve enhanced cellular adhesion and infiltration. The laser energy parameters such as fluence of 25J/cm(2), 0...
August 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
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