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https://www.readbyqxmd.com/read/28719734/tissue-engineering-of-a-composite-trachea-construct-using-autologous-rabbit-chondrocytes
#1
James E Dennis, Kristina G Bernardi, Thomas J Kean, Nelson E Liou, Tanya K Meyer
The repair of large tracheal segmental defects remains an unsolved problem. The goal of this study is to apply tissue engineering principles for the fabrication of large segmental trachea replacements. Engineered tracheal replacements composed of autologous cells ("neotracheas") were tested in a New Zealand White rabbit model. Neotracheas were formed in the rabbit neck by wrapping a silicone tube with consecutive layers of skin epithelium, platysma muscle and an engineered cartilage sheet, and allowing the construct to mature for 8-12 weeks...
July 18, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28719343/preparation-and-properties-of-polyvinyl-alcohol-pva-and-hydroxylapatite-ha-hydrogels-for-cartilage-tissue-engineering
#2
F Yuan, M Ma, L Lu, Z Pan, W Zhou, J Cai, S Luo, W Zeng, F Yin
A novel bioactive hydrogel for cartilage tissue based on polyvinyl alcohol (PVA) and hydroxylapatite (HA) were prepared, the effects of its component contents on the mechanical properties and microstructure of the hydrogel were investigated. The important properties of the scaffold composites, such as density, porosity, compressive modulus and microstructure were studied and analyzed through various measurements and methods. The biodegradability of hydrogel was evaluated by soaking the samples into artificial degradation solution at body temperature (36 - 37 oC) in vitro...
May 20, 2017: Cellular and Molecular Biology
https://www.readbyqxmd.com/read/28718680/development-of-emu-oil-loaded-pcl-collagen-bioactive-nanofibers-for-proliferation-and-stemness-preservation-of-human-adipose-derived-stem-cell-possible-application-in-regenerative-medicine
#3
Kazem Nejati-Koshki, Younes Pilehvar-Soltanahmadi, Effat Alizadeh, Abbas Ebrahimi-Kalan, Yousef Mortazavi, Nosratollah Zarghami
Adipose tissue-derived stem cells (ASCs) are promising candidate in stem cell therapies, and maintaining their stemness potential is vital to achieve effective treatment. Natural based scaffolds have been recently attracted increasing attention in nanomedicine and drug delivery. In the present study, a polymeric nanofibrous scaffold was developed based on the polycaprolactone/Collagen (PCL/Coll) containing Emu oil as a bioactive material to induce the proliferation of ASCs, while simultaneously preserve the stemness property of those cells...
July 18, 2017: Drug Development and Industrial Pharmacy
https://www.readbyqxmd.com/read/28718059/recent-advances-in-tissue-engineering-strategies-for-the-treatment-of-joint-damage
#4
REVIEW
Makeda K Stephenson, Ashley L Farris, Warren L Grayson
PURPOSE OF REVIEW: While the clinical potential of tissue engineering for treating joint damage has yet to be realized, research and commercialization efforts in the field are geared towards overcoming major obstacles to clinical translation, as well as towards achieving engineered grafts that recapitulate the unique structures, function, and physiology of the joint. In this review, we describe recent advances in technologies aimed at obtaining biomaterials, stem cells, and bioreactors that will enable the development of effective tissue-engineered treatments for repairing joint damage...
August 2017: Current Rheumatology Reports
https://www.readbyqxmd.com/read/28717506/injectable-scaffold-materials-differ-in-their-cell-instructive-effects-on-primary-human-myoblasts
#5
Eva Kildall Hejbøl, Jeeva Sellathurai, Prabha Damodaran Nair, Henrik Daa Schrøder
Scaffolds are materials used for delivery of cells for regeneration of tissues. They support three-dimensional organization and improve cell survival. For the repair of small skeletal muscles, injections of small volumes of cells are attractive, and injectable scaffolds for delivery of cells offer a minimally invasive technique. In this study, we examined in vitro the cell instructive effects of three types of injectable scaffolds, fibrin, alginate, and poly(lactic-co-glycolic acid)-based microparticles on primary human myoblasts...
January 2017: Journal of Tissue Engineering
https://www.readbyqxmd.com/read/28717194/rapid-production-of-human-liver-scaffolds-for-functional-tissue-engineering-by-high-shear-stress-oscillation-decellularization
#6
Giuseppe Mazza, Walid Al-Akkad, Andrea Telese, Lisa Longato, Luca Urbani, Benjamin Robinson, Andrew Hall, Kenny Kong, Luca Frenguelli, Giusi Marrone, Oliver Willacy, Mohsen Shaeri, Alan Burns, Massimo Malago, Janet Gilbertson, Nigel Rendell, Kevin Moore, David Hughes, Ioan Notingher, Gavin Jell, Armando Del Rio Hernandez, Paolo De Coppi, Krista Rombouts, Massimo Pinzani
The development of human liver scaffolds retaining their 3-dimensional structure and extra-cellular matrix (ECM) composition is essential for the advancement of liver tissue engineering. We report the design and validation of a new methodology for the rapid and accurate production of human acellular liver tissue cubes (ALTCs) using normal liver tissue unsuitable for transplantation. The application of high shear stress is a key methodological determinant accelerating the process of tissue decellularization while maintaining ECM protein composition, 3D-architecture and physico-chemical properties of the native tissue...
July 17, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28717129/3d-printed-scaffolds-of-calcium-silicate-doped-%C3%AE-tcp-synergize-with-co-cultured-endothelial-and-stromal-cells-to-promote-vascularization-and-bone-formation
#7
Yuan Deng, Chuan Jiang, Cuidi Li, Tao Li, Mingzheng Peng, Jinwu Wang, Kerong Dai
Synthetic bone scaffolds have potential application in repairing large bone defects, however, inefficient vascularization after implantation remains the major issue of graft failure. Herein, porous β-tricalcium phosphate (β-TCP) scaffolds with calcium silicate (CS) were 3D printed, and pre-seeded with co-cultured human umbilical cord vein endothelial cells (HUVECs) and human bone marrow stromal cells (hBMSCs) to construct tissue engineering scaffolds with accelerated vascularization and better bone formation...
July 17, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28715113/calcium-deposition-in-photocrosslinked-poly-pro-hyp-gly-hydrogels-encapsulated-rat-bone-marrow-stromal-cells
#8
Farah Nurlidar, Keisuke Yamane, Mime Kobayashi, Kayo Terada, Tsuyoshi Ando, Masao Tanihara
Reproducing the features of the extracellular matrix is important for fabricating three-dimensional (3D) scaffolds for tissue regeneration. A collagen-like polypeptide, poly(Pro-Hyp-Gly), is a promising material for 3D scaffolds because of its excellent physical properties, biocompatibility, and biodegradability. In this paper, we present a novel photocrosslinked poly(Pro-Hyp-Gly) hydrogel as a 3D scaffold for simultaneous rat bone marrow stromal cell (rBMSC) encapsulation. The hydrogels were fabricated using visible-light photocrosslinking at various concentrations of methacrylated poly(Pro-Hyp-Gly) (20-50 mg/mL) and irradiation times (3 or 5 min)...
July 17, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28715029/anisotropic-microfibrous-scaffolds-enhance-the-organization-and-function-of-cardiomyocytes-derived-from-induced-pluripotent-stem-cells
#9
Maureen Wanjare, Luqia Hou, Karina H Nakayama, Joseph J Kim, Nicholas P Mezak, Oscar J Abilez, Evangeline Tzatzalos, Joseph C Wu, Ngan F Huang
Engineering of myocardial tissue constructs is a promising approach for treatment of coronary heart disease. To engineer myocardial tissues that better mimic the highly ordered physiological arrangement and function of native cardiomyocytes, we generated electrospun microfibrous polycaprolactone scaffolds with either randomly oriented (14 μm fiber diameter) or parallel-aligned (7 μm fiber diameter) microfiber arrangement and co-seeded the scaffolds with human induced pluripotent stem cell-derived cardiomyocytes (iCMs) and endothelial cells (iECs) for up to 12 days after iCM seeding...
July 17, 2017: Biomaterials Science
https://www.readbyqxmd.com/read/28714856/use-of-human-aortic-extracellular-matrix-as-a-scaffold-for-construction-of-patient-specific-tissue-engineered-vascular-patch
#10
Liping Gao, Mingjun Du, Jingjing Lv, Sebastian Schmull, Ritai Huang, Jun Li
Abstract Synthetic or biologic materials are usually used to repair vascular malformation in congenital heart defects; however, non-autologous materials show both mismatch compliance and antigenicity, as well as a lack of recellularization on its surface. Here, we constructed a tissue-engineered vascular patch (TEVP) using decellularized extracellular matrix (ECM) scaffold obtained from excised human aorta during surgery, which was seeded with patient-derived bone marrow CD34-positive (CD34+) progenitor cells...
July 17, 2017: Biomedical Materials
https://www.readbyqxmd.com/read/28714574/a-humanised-tissue-engineered-bone-model-allows-species-specific-breast-cancer-related-bone-metastasis-in-vivo
#11
V M C Quent, A V Taubenberger, J C Reichert, L C Martine, J A Clements, D W Hutmacher, D Loessner
Bone metastases frequently occur in the advanced stages of breast cancer. At this stage, the disease is deemed incurable. To date, the mechanisms of breast cancer-related metastasis to bone are poorly understood. This may be attributed to the lack of appropriate animal models to investigate the complex cancer cell-bone interactions. In this study, two established tissue-engineered bone constructs (TEBCs) were applied to a breast cancer-related metastasis model. A cylindrical medical-grade polycaprolactone-tricalcium phosphate scaffold produced by fused deposition modelling (scaffold 1) was compared with a tubular calcium phosphate-coated polycaprolactone scaffold fabricated by solution electrospinning (scaffold 2) for their potential to generate ectopic humanised bone in NOD/SCID mice...
July 17, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28714408/biomaterials-and-supercritical-fluid-technologies-which-perspectives-to-fabricate-artificial-extracellular-matrix
#12
Della Porta Giovanna, E Reverchon, N Maffulli
The foundation of tissue engineering for either therapeutic or diagnostic applications is the ability to exploit living cells. Tissue engineering utilizes living cells as engineering materials implanted, seeded or bio-plotted into an artificial structure capable of supporting three-dimensional tissue formation. These structures, typically called scaffolds, are critical, both ex vivo and in vivo, to influence their own microenvironments. Scaffolds can serve the following purposes: allow cell attachment and migration, deliver and retain cells and biochemical factors, enable diffusion of vital cell nutrients or expressed products, exert certain mechanical and biological influences to modify the behaviour of the cell phase...
July 13, 2017: Current Pharmaceutical Design
https://www.readbyqxmd.com/read/28714236/effectiveness-of-tissue-engineered-three-dimensional-bioactive-graft-on-bone-healing-and-regeneration-an-in-vivo-study-with-significant-clinical-value
#13
Mostafa Shahrezaie, Ali Moshiri, Babak Shekarchi, Ahmad Oryan, Nicola Maffulli, Javad Parvizi
Several strategies have been used to promote bone repair; with many failing due to the lack of osteoinduction. We describe our approach for promoting bone healing that attempts to overcome prior shortcomings. First, we compared the role of different concentrations of Gelatin (Gel), nanostructured-hydroxyapatite (nHA), Simvastatin (Sim) and nHA-Sim particles on healing of small femoral bone defects in rabbits. The effective concentration of each of them was studied, and then a three-dimensional porous scaffold was designed using Gel, nHA and Sim which was then cross-linked with Genipin...
July 17, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28714140/prevascularization-of-natural-nanofibrous-extracellular-matrix-for-engineering-completely-biological-3d-prevascularized-tissues-for-diverse-applications
#14
Lijun Zhang, Zichen Qian, Mitchell Tahtinen, Shaohai Qi, Feng Zhao
Self-sustainability after implantation is one of the critical obstacles facing large engineered tissues. A preformed functional vascular network provides an effective solution for solving the mass transportation problem. With the support of mural cells, endothelial cells (ECs) can form microvessels within engineered tissues. As an important mural cell, human mesenchymal stem cells (hMSCs) not only stabilize the engineered microvessel network, but also preserve their multi-potency when grown under optimal culture conditions...
July 17, 2017: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/28713850/collagen-and-heparan-sulfate-coatings-differentially-alter-cell-proliferation-and-attachment-in-vitro-and-in-vivo
#15
Christopher M Walthers, Chase J Lyall, Alireza K Nazemi, Puneet V Rana, James C Y Dunn
Tissue engineering is an innovative field of research applied to treat intestinal diseases. Engineered smooth muscle requires dense smooth muscle tissue and robust vascularization to support contraction. The purpose of this study was to use heparan sulfate (HS) and collagen coatings to increase the attachment of smooth muscle cells (SMCs) to scaffolds and improve their survival after implantation. SMCs grown on biologically coated scaffolds were evaluated for maturity and cell numbers after 2, 4 and 6 weeks in vitro and both 2 and 6 weeks in vivo...
September 2016: Technology
https://www.readbyqxmd.com/read/28713709/high-quality-of-infant-chondrocytes-in-comparison-with-adult-chondrocytes-for-cartilage-tissue-engineering
#16
Fatemeh Mortazavi, Hajar Shafaei, Jafar Soleimani Rad, Leila Rushangar, Azadeh Montaceri, Masoud Jamshidi
BACKGROUND: Tissue engineering is used for the treatment of many diseases, and the ideal cell source for cartilage tissue engineering is chondrocytes. The main limitation of chondrocyte is the low number of cells in cartilage tissue engineering. This study investigated a suitable cell source with high proliferation rate to obtain a large number of chondrocytes. METHODS: Adult cartilage tissue samples were obtained from adult patients undergoing surgical procedure, and infant cartilage tissue samples were obtained from polydactyly surgical waste...
May 2017: World Journal of Plastic Surgery
https://www.readbyqxmd.com/read/28713016/a-conducive-bioceramic-polymer-composite-biomaterial-for-diabetic-wound-healing
#17
Fang Lv, Jie Wang, Peng Xu, Yiming Han, Hongshi Ma, He Xu, Shijie Chen, Jiang Chang, Qinfei Ke, Mingyao Liu, Zhengfang Yi, Chengtie Wu
Diabetic wound is a common complication of diabetes. Biomaterials offer great promise in inducing tissue regeneration for chronic wound healing. Herein, we reported a conducive Poly (caprolactone) (PCL)/gelatin nanofibrous composite scaffold containing silicate-based bioceramic particles (Nagelschmidtite, NAGEL, Ca7P2Si2O16) for diabetic wound healing. NAGEL bioceramic particles were well distributed in the inner of PCL/gelatin nanofibers via co-electrospinning process and the Si ions maintained a sustained release from the composite scaffolds during the degradation process...
July 13, 2017: Acta Biomaterialia
https://www.readbyqxmd.com/read/28712923/key-players-in-the-immune-response-to-biomaterial-scaffolds-for-regenerative-medicine
#18
Liam Chung, David R Maestas, Franck Housseau, Jennifer H Elisseeff
The compatibility of biomaterials is critical to their structural and biological function in medical applications. The immune system is the first responder to tissue trauma and to a biomaterial implant. The innate immune effector cells, most notably the macrophage, play a significant role in the defense against foreign bodies and formation of a fibrous capsule around synthetic implants. Alternatively, macrophages participate in the pro-regenerative capacity of tissue-derived biological scaffolds. Research is now elucidating the role of the adaptive immune system, and T cells in particular, in directing macrophage response to synthetic and biological materials...
July 13, 2017: Advanced Drug Delivery Reviews
https://www.readbyqxmd.com/read/28711912/identification-of-two-novel-biomarkers-of-rectal-carcinoma-progression-and-prognosis-via-co-expression-network-analysis
#19
Min Sun, Taojiao Sun, Zhongshi He, Bin Xiong
mRNA expression profiles provide important insights on a diversity of biological processes involved in rectal carcinoma (RC). Our aim was to comprehensively map complex interactions between the mRNA expression patterns and the clinical traits of RC. We employed the integrated analysis of five microarray datasets and The Cancer Genome Atlas rectal adenocarcinoma database to identify 2118 consensual differentially expressed genes (DEGs) in RC and adjacent normal tissue samples, and then applied weighted gene co-expression network analysis to parse DEGs and eight clinical traits in 66 eligible RC samples...
June 27, 2017: Oncotarget
https://www.readbyqxmd.com/read/28711618/fabrication-of-bi-layer-scaffold-of-keratin-nanofiber-and-gelatin-methacrylate-hydrogel-implications-for-skin-graft
#20
Jong Wook Kim, Min Jin Kim, Chang Seok Ki, Hyun Jeong Kim, Young Hwan Park
Bi-layer scaffold composed of human hair keratin/chitosan nanofiber mat and gelatin methacrylate (GelMA) hydrogel was fabricated by using electrospinning and photopolymerization techniques. To prepare the nanofiber layer, the blend solution of human hair keratin and chitosan (mixture ratio: 5/5) was electrospun using formic acid as a solvent in the presence of poly(ethylene glycol), followed by cross-linking with glutaraldehyde. The tensile strength of the human hair keratin/chitosan nanofiber mat was much higher than that of pure human hair keratin nanofiber mat...
July 12, 2017: International Journal of Biological Macromolecules
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