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Tissue Engineering. Part A

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https://www.readbyqxmd.com/read/28338424/monocytes-seeded-on-engineered-hypertrophic-cartilage-do-not-enhance-endochondral-ossification-capacity
#1
Atanas Todorov, Celeste Scotti, Andrea Barbero, Arnaud Scherberich, Adam Papadimitropoulos, Ivan Martin
Engineered hypertrophic cartilage (HC) represents an attractive bone substitute material, capable to induce bone formation by endochondral ossification. Since bone formation by HC depends on factors released from the extracellular matrix, in this study, we hypothesized that HC seeding with monocytes committed to osteoclastogenesis could enhance its remodeling, improve chemotaxis of skeletal and vascular cells, and consequently enhance bone formation. This would be particularly relevant for devitalized HC, which currently exhibits only limited osteoinductivity...
March 24, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28338421/harnessing-the-osteogenicity-of-in-vitro-stem-cell-derived-mineralized-extracellular-matrix-as-3d-biotemplate-to-guide-bone-regeneration
#2
Yoke Chin Chai, Johanna Bolander, Ioannis Papantoniou, Jennifer Patterson, Jef Vleugels, Jan Schrooten, Frank P Luyten
Advanced biomaterials that are capable of guiding robust bone regeneration are highly demanded for translational therapy of bone defects or bone augmentation in clinics. One of the strategic approaches is to produce tissue engineering (TE) constructs that mediate bone regeneration by recapitulating the natural bone formation or healing process. In this study, we aimed at producing devitalized mineralized carriers with augmented bone forming capacity via a modified culture protocol (i.e., culture conditions with high calcium and/or phosphate concentrations) that first promotes cell growth and, subsequently, mineralized extracellular matrix (ECM) deposition by human periosteum-derived osteoprogenitor cells (hPDCs) on additive manufactured three-dimensional (3D) porous titanium (Ti)-based scaffolds...
March 24, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28338419/competitive-protein-binding-influences-heparin-based-modulation-of-spatial-growth-factor-delivery-for-bone-regeneration
#3
Marian H Hettiaratchi, Catherine Chou, Nicholas Servies, Johanna M Smeekens, Albert Cheng, Camden Esancy, Ronghu Wu, Todd C McDevitt, Robert E Guldberg, Laxminarayanan Krishnan
Tissue engineering strategies involving the in vivo delivery of recombinant growth factors are often limited by the inability of biomaterials to spatially control diffusion of the delivered protein within the site of interest. The poor spatiotemporal control provided by porous collagen sponges, which are used for the clinical delivery of bone morphogenetic protein-2 (BMP-2) for bone regeneration, has necessitated the use of supraphysiological protein doses, leading to inflammation and heterotopic ossification...
March 24, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28338417/a-3d-tissue-printing-approach-for-validation-of-diffusion-tensor-imaging-in-skeletal-muscle
#4
David B Berry, Shangting You, John Warner, Lawrence R Frank, Shaochen Chen, Samuel R Ward
The ability to noninvasively assess skeletal muscle microstructure, which predicts function and disease, would be of significant clinical value. One method that holds this promise is diffusion tensor magnetic resonance imaging (DT-MRI), which is sensitive to the microscopic diffusion of water within tissues and has become ubiquitous in neuroimaging as a way of assessing neuronal structure and damage. However, its application to the assessment of changes in muscle microstructure associated with injury, pathology, or age remains poorly defined, because it is difficult to precisely control muscle microstructural features in vivo...
March 24, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28338415/hyaluronic-acid-hydrogel-functionalized-with-self-assembled-micelles-of-amphiphilic-pegylated-kartogenin-for-the-treatment-of-osteoarthritis
#5
Mi-Lan Kang, Se-Young Jeong, Gun-Il Im
Synthetic hyaluronic acid (HA) containing a covalently integrated drug is capable of releasing therapeutic molecules and is an attractive candidate for the intra-articular treatment of osteoarthritis (OA). Herein, self-assembled PEGylated kartogenin (PEG/KGN) micelles consisting of hydrophilic polyethylene glycol (PEG) and hydrophobic KGN, which has been shown to induce chondrogenesis in human mesenchymal stem cells, were prepared by covalent crosslinking. HA hydrogels containing PEG/KGN micelles (HA/PEG/KGN) were prepared by covalently bonding PEG chains to HA...
March 24, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28335694/construction-of-three-dimensional-dermo-epidermal-skin-equivalents-using-cell-coating-technology-and-their-utilization-as-alternative-skin-for-permeation-studies-and-skin-irritation-tests
#6
Takami Akagi, Mayuka Nagura, Ayami Hiura, Hajime Kojima, Mitsuru Akashi
In vitro generated human skin equivalents are generating interest as promising tools in basic research, as alternatives to animal testing and for clinical applications in regenerative medicine. For prediction of skin irritation and corrosion, three-dimensional (3D) human skin equivalents consisting of differentiated human keratinocytes have been developed and some models have been internationally accepted. However, more delicate assessments using full-thickness skin models, such as skin sensitization tests cannot be performed because of the lack of a dermis containing fibroblasts or appendages...
March 23, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28330431/fabrication-and-characterization-of-biphasic-silk-fibroin-scaffolds-for-tendon-ligament-to-bone-tissue-engineering
#7
Sònia Font Tellado, Walter Bonani, Elizabeth Rosado Balmayor, Peter Föhr, Antonella Motta, Claudio Migliaresi, Martijn van Griensven
Tissue engineering is an attractive strategy for tendon/ligament-to-bone interface repair. The structure and extracellular matrix composition of the interface are complex and allow for a gradual mechanical stress transfer between tendons/ligaments and bone. Thus, scaffolds mimicking the structural features of the native interface may be able to better support functional tissue regeneration. In this study, we fabricated biphasic silk fibroin scaffolds designed to mimic the gradient in collagen molecule alignment present at the interface...
March 23, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28323545/creation-of-a-bioengineered-skin-flap-scaffold-with-a-perfusable-vascular-pedicle
#8
Bernhard J Jank, Jeremy Goverman, Jacques P Guyette, Jon M Charest, Mark A Randolph, Glenn R Gaudette, Joshua R Gershlak, Martin Purschke, Emilia Javorsky, Rosalynn M Nazarian, David A Leonard, Curtis L Cetrulo, William G Austen, Harald Christian Ott
Full thickness skin loss is a challenging problem due to limited reconstructive options, demanding 75 million surgical procedures annually in the United States. Autologous skin grafting is the gold standard treatment, but results in donor site morbidity and poor aesthetics. Numerous skin substitutes are available on the market to date, however, none truly function as full thickness skin due to their lack of a vascular network. The creation of an autologous full thickness skin analogue with a vascular pedicle would result in a paradigm shift in the management of wounds and in reconstruction of full thickness skin defects...
March 21, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28322621/bladder-regeneration-using-multiple-scaffolds-with-growth-factors-in-a-bladder
#9
Luc A J Roelofs, Paul K J D de Jonge, Egbert Oosterwijk, Dorien M Tiemessen, Barbara B Kortmann, Robert P E de Gier, Elly M M Versteeg, Willeke F Daamen, Toin H van Kuppevelt, Paul J Geutjes, Wout Feitz
INTRODUCTION: Tissue engineering may become an alternative to current bladder augmentation techniques. Large scaffolds are needed for clinically significant augmentation, but can result in fibrosis and graft shrinkage. The purpose of this study was to investigate the use of multiple scaffolds instead of one large scaffold, to enhance bladder tissue regeneration and bladder capacity. Secondly, acellular collagen, collagen-heparin, and collagen-heparin scaffolds with growth factors were used and the biological activity of the different scaffolds was compared in a large animal model...
March 21, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28316275/central-growth-factor-loaded-depots-in-bone-tissue-engineering-scaffolds-for-enhanced-cell-attraction
#10
Mandy Quade, Sven Knaack, Ashwini Rahul Akkineni, Anastasia Gabrielyan, Anja Lode, Angela Roesen-Wolff, Michael Gelinsky
Tissue engineering, i.e. the application of stem and progenitor cells in combination with an engineered extracellular matrix, is a promising strategy for bone regeneration. However, its success is limited by the lack of vascularization after implantation. The concept of in situ tissue engineering envisages the recruitment of cells necessary for tissue regeneration from the host environment foregoing ex vivo cell seeding of the scaffold. In this study, we developed a novel scaffold system for enhanced cell attraction which is based on biomimetic mineralized collagen scaffolds equipped with a central biopolymer depot loaded with chemotactic agents...
March 19, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28314377/the-effects-of-scaffold-remnants-in-decellularized-tissue-engineered-cardiovascular-constructs-on-the-recruitment-of-blood-cells
#11
Bart Sanders, Anita Driessen-Mol, Carlijn Bouten, Frank Baaijens
Decellularized tissue engineered heart valves (DTEHVs) showed remarkable results in translational animal models, leading to recellularization within hours after implantation. This is crucial to enable tissue remodeling. To investigate if the presence of scaffold remnants prior to implantation is responsible for the fast recellularization of DTEHVs, an in vitro mesofluidic system was used. Human granulocyte and agranulocyte fractions were isolated, stained, brought back in suspension, and implemented in the system...
March 17, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28285569/gelatin-scaffolds-containing-partially-sulfated-cellulose-promote-mesenchymal-stem-cell-chondrogenesis
#12
Gloria Portocarrero Huang, Roseline Menezes, Richard Vincent, Willis Hammond, Louis Rizio, George Collins, Treena Livingston Arinzeh
Articular cartilage has a limited capacity to heal after damage from injury or degenerative disease. Tissue engineering constructs that more closely mimic the native cartilage microenvironment can be utilized to promote repair. Glycosaminoglycans (GAGs), a major component of the cartilage extracellular matrix, have the ability to sequester growth factors due to their level and spatial distribution of sulfate groups. This study evaluated the use of a GAG mimetic, cellulose sulfate, as a scaffolding material for cartilage tissue engineering...
March 12, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28287922/co-seeding-human-endothelial-cells-with-human-induced-pluripotent-stem-cell-derived-mesenchymal-stem-cells-on-calcium-phosphate-scaffold-enhances-osteogenesis-and-vascularization-in-rats
#13
Xian Liu, Wenchuan Chen, Chi Zhang, Wahwah Thein-Han, Kevin Hu, Mark A Reynolds, Chongyun Bao, Ping Wang, Liang Zhao, Hockin H K Xu
A major challenge in repairing large bone defects with tissue-engineered constructs is the poor vascularization in the defect. The lack of vascular networks leads to insufficient oxygen and nutrients supply, which compromises the survival of seeded cells. To achieve favorable regenerative effects, prevascularization of tissue-engineered constructs by co-culturing of endothelial cells and bone cells is a promising strategy. The aim of this study was to investigate the effects of human-induced pluripotent stem cell-derived mesenchymal stem cells (hiPSC-MSCs) co-cultured with human umbilical vein endothelial cells (HUVECs) for prevascularization of calcium phosphate cement (CPC) scaffold on bone regeneration in vivo for the first time...
March 10, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28178887/magnesium-presence-prevents-removal-of-antigenic-nuclear-associated-proteins-from-bovine-pericardium-for-heart-valve-engineering
#14
Ailsa J Dalgliesh, Zhizhao Liu, Leigh G Griffiths
Current heart valve prostheses are associated with significant complications, including aggressive immune response, limited valve life expectancy, and inability to grow in juvenile patients. Animal derived "tissue" valves undergo glutaraldehyde fixation to mask tissue antigenicity; however, chronic immunological responses and associated calcification still commonly occur. A heart valve formed from an unfixed bovine pericardium (BP) extracellular matrix (ECM) scaffold, in which antigenic burden has been eliminated or significantly reduced, has potential to overcome deficiencies of current bioprostheses...
March 10, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28152670/micro-topographies-promote-late-chondrogenic-differentiation-markers-in-the-atdc5-cell-line
#15
Bach Q Le, Aliaksei Vasilevich, Steven Vermeulen, Frits Hulshof, Dimitrios F Stamatialis, Clemens A van Blitterswijk, Jan de Boer
Chemical and mechanical cues are well-established influencers of in vitro chondrogenic differentiation of ATDC5 cells. Here, we investigate the role of topographical cues in this differentiation process, a study not been explored before. Previously, using a library of surface micro-topographies we found some distinct patterns that induced alkaline phosphatase (ALP) production in human mesenchymal stromal cells. ALP is also a marker for hypertrophy, the end stage of chondrogenic differentiation preceding bone formation...
March 10, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28107800/neuroregeneration-of-induced-pluripotent-stem-cells-in-polyacrylamide-chitosan-inverted-colloidal-crystal-scaffolds-with-poly-lactide-co-glycolide-nanoparticles-and-transactivator-of-transcription-von-hippel-lindau-peptide
#16
Yung-Chih Kuo, Chun-Wei Chen
Polyacrylamide (PAAM) and chitosan were fabricated by inverted colloidal crystal (ICC) method for scaffolds comprising regular pores. The hybrid PAAM-chitosan ICC scaffolds were grafted with poly(lactide-co-glycolide) (PLGA) nanoparticles (NPs) for a rougher pore surface and grafted with transactivator of transcription von Hippel-Lindau (TATVHL) peptide for a better differentiation of induced pluripotent stem (iPS) cells toward neural lineage. By scanning electron microscopy, we found that iPS cells cultured in PAAM-chitosan ICC scaffolds with PLGA NPs at 1...
March 9, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28166692/critical-sized-bone-defects-in-mandible-of-canine-model
#17
Sepanta Hosseinpour, Farshid Bastami
No abstract text is available yet for this article.
March 8, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28193145/constrained-cage-culture-improves-engineered-cartilage-functional-properties-by-enhancing-collagen-network-stability
#18
Robert J Nims, Alexander D Cigan, Krista M Durney, Brian K Jones, John D O'Neill, Wing-Sum A Law, Gordana Vunjak-Novakovic, Clark Tung-Hui Hung, Gerard A Ateshian
When cultured with sufficient nutrient supply, engineered cartilage synthesizes proteoglycans rapidly, producing an osmotic swelling pressure that destabilizes immature collagen and prevents the development of a robust collagen framework, a hallmark of native cartilage. We hypothesized that mechanically constraining the proteoglycan-induced tissue swelling would enhance construct functional properties through the development of a more stable collagen framework. To test this hypothesis, we developed a novel "cage" growth system to mechanically prevent tissue constructs from swelling while ensuring adequate nutrient supply to the growing construct...
February 14, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28071988/braided-and-stacked-electrospun-nanofibrous-scaffolds-for-tendon-and-ligament-tissue-engineering
#19
Benjamin B Rothrauff, Brian B Lauro, Guang Yang, Richard E Debski, Volker Musahl, Rocky S Tuan
Tendon and ligament injuries are a persistent orthopedic challenge given their poor innate healing capacity. Nonwoven electrospun nanofibrous scaffolds composed of polyesters have been used to mimic the mechanics and topographical cues of native tendons and ligaments. However, nonwoven nanofibers have several limitations that prevent broader clinical application, including poor cell infiltration, as well as tensile and suture-retention strengths that are inferior to native tissues. In this study, multilayered scaffolds of aligned electrospun nanofibers of two designs-stacked or braided-were fabricated...
February 10, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28169594/keratin-hydrogel-enhances-in-vivo-skeletal-muscle-function-in-a-rat-model-of-volumetric-muscle-loss
#20
Juliana A Passipieri, Hannah B Baker, Mevan Siriwardane, Mary Ellenburg, Manasi Vadhavkar, Justin M Saul, Seth Tomblyn, Luke Burnett, George Joseph Christ
Volumetric Muscle Loss (VML) injuries exceed the considerable intrinsic regenerative capacity of skeletal muscle resulting in permanent functional and cosmetic deficits. VML and VML-like injuries occur in military and civilian populations, due to trauma and surgery as well as a host of congenital and acquired diseases/syndromes. Current therapeutic options are limited, and new approaches are needed for more complete functional regeneration of muscle. A potential solution is human hair derived keratin (KN) biomaterials that may have significant potential for regenerative therapy...
February 7, 2017: Tissue Engineering. Part A
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