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Tissue engineering

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https://www.readbyqxmd.com/read/27926756/cutting-and-decellularization-of-multiple-corneal-stromal-lamellae-for-the-bioengineering-of-endothelial-grafts
#1
Zhiguo He, Fabien Forest, Aurélien Bernard, Anne-Sophie Gauthier, Romain Montard, Michel Peoc'h, Clotilde Jumelle, Emilie Courrier, Chantal Perrache, Philippe Gain, Gilles Thuret
Purpose: Engineered corneal endothelial grafts able to provide numerous functional endothelial cells for the restoration of corneal transparency would be a worthwhile way of replacing donor tissue, which is extremely scarce. The grafts are simply constructed: a biocompatible thin and transparent carrier colonized by a monolayer of cultured endothelial cells (ECs). Here we describe a process able to obtain appropriate carriers by recycling human corneas unsuitable for graft in their original state, but liable to provide multiple thin lamellae when cut with a femtosecond laser as used in refractive surgery...
December 1, 2016: Investigative Ophthalmology & Visual Science
https://www.readbyqxmd.com/read/27926545/immune-responses-to-bioengineered-organs
#2
Jordi Ochando, Dominique Charron, Pedro M Baptista, Basak E Uygun
PURPOSE OF REVIEW: Organ donation in the United States registered 9079 deceased organ donors in 2015. This high percentage of donations allowed organ transplantation in 29 851 recipients. Despite increasing numbers of transplants performed in comparison with previous years, the numbers of patients that are in need for a transplant increase every year at a higher rate. This reveals that the discrepancy between the demand and availability of organs remains fundamental problem in organ transplantation...
December 6, 2016: Current Opinion in Organ Transplantation
https://www.readbyqxmd.com/read/27925477/relevance-of-meniscal-cell-regional-phenotype-to-tissue-engineering
#3
Shawn P Grogan, Chantal Pauli, Martin K Lotz, Darryl D D'Lima
PURPOSE: Meniscus contains heterogeneous populations of cells that have not been fully characterized. Cell phenotype is often lost during culture; however, culture expansion is typically required for tissue engineering. We examined and compared cell surface molecule expression levels on human meniscus cells from the vascular and avascular regions and articular chondrocytes while documenting changes during culture-induced dedifferentiation. MATERIALS AND METHODS: Expression of 16 different surface molecules were examined by flow cytometry after monolayer culture for 24 h, 1 week, and 2 weeks...
December 7, 2016: Connective Tissue Research
https://www.readbyqxmd.com/read/27925474/fiber-development-and-matrix-production-in-tissue-engineered-menisci-using-bovine-mesenchymal-stem-cells-and-fibrochondrocytes
#4
Mary Clare McCorry, Lawrence J Bonassar
Mesenchymal stem cells (MSCs) have been investigated with promising results for meniscus healing and tissue engineering. While MSCs are known to contribute to ECM production, less is known about how MSCs produce and align large organized fibers for application to tissue engineering the meniscus. The goal of this study was to investigate the capability of MSCs to produce and organize extracellular matrix molecules compared to meniscal fibrochondrocytes (FCCs). Bovine FCCs and MSCs were encapsulated in an anatomically accurate collagen meniscus using mono-culture and co-culture of each cell type...
December 7, 2016: Connective Tissue Research
https://www.readbyqxmd.com/read/27925461/in-it-for-the-long-haul-the-cytocompatibility-of-aged-graphene-oxide-and-its-degradation-products
#5
Brian D Holt, Anne M Arnold, Stefanie A Sydlik
Synthetic biomaterials are poised to transform medicine; however, current synthetic options have yet to ideally recapitulate the desirable properties of native tissue. Thus, the development of new synthetic biomaterials remains an active challenge. Due to its excellent properties, including electrical conductivity, water dispersibility, and capacity for functionalization, graphene oxide (GO) holds potential for myriads of applications, including biological devices. While many studies have evaluated the compatibility of freshly prepared GO, understanding the compatibility of GO as it ages in an aqueous environment is crucial for its safe implementation in long-term biological applications...
December 2016: Advanced Healthcare Materials
https://www.readbyqxmd.com/read/27925458/an-engineered-breast-cancer-model-on-a-chip-to-replicate-ecm-activation-in-vitro-during-tumor-progression
#6
Filomena Gioiella, Francesco Urciuolo, Giorgia Imparato, Virginia Brancato, Paolo A Netti
In this work, a new model of breast cancer is proposed featuring both epithelial and stromal tissues arranged on a microfluidic chip. The main task of the work is the in vitro replication of the stromal activation during tumor epithelial invasion. The activation of tumor stroma and its morphological/compositional changes play a key role in tumor progression. Despite emerging evidences, to date the activation of tumor stroma in vitro has not been achieved yet. The tumor-on-chip proposed in this work is built in order to replicate the features of its native counterpart: multicellularity (tumor epithelial cell and stromal cell); 3D engineered stroma compartment composed of cell-assembled extracellular matrix (ECM); reliable 3D tumor architecture...
December 2016: Advanced Healthcare Materials
https://www.readbyqxmd.com/read/27925440/enhancing-bioactive-properties-of-silk-fibroin-with-diatom-particles-for-bone-tissue-engineering-applications
#7
Thi Duy Hanh Le, Volha Liaudanskaya, Walter Bonani, Claudio Migliaresi, Antonella Motta
Many studies have highlighted the role of silicon in human bone formation and maintenance. Silicon, in fact, is considered to nucleate the precipitation of hydroxyapatite and to reduce the bone resorption. For this reason, we have combined silk fibroin with silicon releasing diatom particles, as potential material for bone tissue engineering applications. Sponges of fibroin loaded with different amounts and sizes of diatom particles were prepared by solvent casting-particulate leaching method, and their morphology, porosity and mechanical properties were evaluated...
December 7, 2016: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/27925237/ambiguity-in-the-presentation-of-decellularized-tissue-composition-the-need-for-standardized-approaches
#8
Arne A N Bruyneel, Carolyn A Carr
Decellularization offers great potential to the field of tissue engineering, as this method gives rise to scaffold material with the native organ architecture by removing all cellular material and leaving much of the extracellular matrix (ECM) intact. However, many parameters may affect decellularization efficacy and ECM retention and, therefore, decellularization protocols need to be optimized for specific needs. This requires robust methods for comparison of decellularized tissue composition. Various representation methods are used in literature to express tissue composition (DNA, glycosaminoglycans, collagen, other ECM proteins, and growth factors)...
December 7, 2016: Artificial Organs
https://www.readbyqxmd.com/read/27925229/plga-ptmc-cultured-bone-mesenchymal-stem-cell-scaffold-enhances-cartilage-regeneration-in-tissue-engineered-tracheal-transplantation
#9
Bingyang Yan, Zhipei Zhang, Xiaoping Wang, Yunfeng Ni, Yongshi Liu, Tao Liu, Wuping Wang, Hao Xing, Ying Sun, Jian Wang, Xiao-Fei Li
The treatment of long-segment tracheal defect requires the transplantation of effective tracheal substitute, and the tissue-engineered trachea (TET) has been proposed as an ideal tracheal substitute. The major cause of the failure of segmental tracheal defect reconstruction by TET is airway collapse caused by the chondromalacia of TET cartilage. The key to maintain the TET structure is the regeneration of chondrocytes in cartilage, which can secrete plenty of cartilage matrices. To address the problem of the chondromalacia of TET cartilage, this study proposed an improved strategy...
December 7, 2016: Artificial Organs
https://www.readbyqxmd.com/read/27924712/cytotoxicity-of-carbon-nanohorns-in-different-human-cells-of-the-respiratory-system
#10
Franziska Schramm, Martina Lange, Pia Hoppmann, Astrid Heutelbeck
One of the new synthetic carbon-based nanomaterials is carbon nanohorns (CNH). A potential risk for employees of production processes is an unintentional intake of these nanomaterials via inhalation. Once taken up, nanoparticles might interact with cells of different tissues as well as with intercellular substances. These interactions may have far-reaching consequences for human health. Currently, many gaps in available information on the CNH toxicological profile remain. The aim of this study was to determine the cytotoxicity of CNH particles on human epithelial cells of the respiratory system with special consideration given to different particle sizes...
2016: Journal of Toxicology and Environmental Health. Part A
https://www.readbyqxmd.com/read/27924607/fabrication-and-characterization-of-decellularized-periodontal-ligament-cell-sheet-constructs
#11
Amro Farag, Cédryck Vaquette, Dietmar W Hutmacher, P Mark Bartold, Saso Ivanovski
Decellularized tissue-engineered constructs have the potential to promote regeneration by providing a biomimetic extracellular matrix that directs tissue-specific regeneration when implanted in situ. Recently, the use of cell sheets has shown promising results in promoting periodontal regeneration. Here, we describe the fabrication of decellularized periodontal cell sheets with intact extracellular matrix structural and biological properties. Melt electro spun polycaprolactone (PCL) scaffolds are used as a carrier for the inherently fragile cell sheets, to provide support during the processes of decellularization...
2017: Methods in Molecular Biology
https://www.readbyqxmd.com/read/27923480/versatile-and-inexpensive-hall-effect-force-sensor-for-mechanical-characterization-of-soft-biological-materials
#12
Daniel E Backman, Bauer L LeSavage, Joyce Y Wong
Mismatch of hierarchical structure and mechanical properties between tissue-engineered implants and native tissue may result in signal cues that negatively impact repair and remodeling. With bottom-up tissue engineering approaches, designing tissue components with proper microscale mechanical properties is crucial to achieve necessary macroscale properties in the final implant. However, characterizing microscale mechanical properties is challenging, and current methods do not provide the versatility and sensitivity required to measure these fragile, soft biological materials...
November 28, 2016: Journal of Biomechanics
https://www.readbyqxmd.com/read/27923328/modeling-stroma-induced-drug-resistance-in-a-tissue-engineered-tumor-model-of-ewing-sarcoma
#13
Marco Santoro, Brian A Menegaz, Salah-Eddine Lamhamedi-Cherradi, Eric R Molina, Danielle Wu, Waldemar Priebe, Joseph A Ludwig, Antonios G Mikos
Three-dimensional (3D) tumor models are gaining traction in the research community given their capacity to mimic aspects of the tumor microenvironment absent in monolayer systems. In particular, the ability to spatiotemporally control cell placement within ex vivo 3D systems has enabled the study of tumor-stroma interactions. Furthermore, by regulating biomechanical stimuli, one can reveal how biophysical cues affect stromal cell phenotype and how their phenotype impacts tumor drug sensitivity. Both tumor architecture and shear force have profound effects on Ewing sarcoma (ES) cell behavior and are known to elicit ligand-mediated activation of the insulin-like growth factor-1 receptor (IGF-1R), thereby mediating resistance of ES cells to IGF-1R inhibitors...
December 6, 2016: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/27922848/lung-regeneration-steps-toward-clinical-implementation-and-use
#14
Elizabeth A Calle, Katherine L Leiby, MichaSam B Raredon, Laura E Niklason
PURPOSE OF REVIEW: Whole lung tissue engineering is a relatively new area of investigation. In a short time, however, the field has advanced quickly beyond proof of concept studies in rodents and now stands on the cusp of wide-spread scale up to large animal studies. Therefore, this technology is ever closer to being directly clinically relevant. RECENT FINDINGS: The main themes in the literature include refinement of the fundamental components of whole lung engineering and increasing effort to direct induced pluripotent stem cells and lung progenitor cells toward use in lung regeneration...
December 5, 2016: Current Opinion in Anaesthesiology
https://www.readbyqxmd.com/read/27921382/core-shell-silk-hydrogels-with-spatially-tuned-conformations-as-drug-delivery-system
#15
Le-Ping Yan, Joaquim M Oliveira, Ana L Oliveira, Rui L Reis
Hydrogels of spatially controlled physicochemical properties are appealing platforms for tissue engineering and drug delivery. In this study, core-shell silk fibroin (SF) hydrogels of spatially controlled conformation were developed. The core-shell structure in the hydrogels was formed by means of soaking the preformed (enzymatically crosslinked) random coil SF hydrogels in methanol. When increasing the methanol treatment time from 1 to 10 min, the thickness of the shell layer can be tuned from about 200 to about 850 μm as measured in wet status...
December 5, 2016: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/27920940/3d-printing-in-neurosurgery-a-systematic-review
#16
REVIEW
Michael Randazzo, Jared M Pisapia, Nickpreet Singh, Jayesh P Thawani
BACKGROUND: The recent expansion of three-dimensional (3D) printing technology into the field of neurosurgery has prompted a widespread investigation of its utility. In this article, we review the current body of literature describing rapid prototyping techniques with applications to the practice of neurosurgery. METHODS: An extensive and systematic search of the Compendex, Scopus, and PubMed medical databases was conducted using keywords relating to 3D printing and neurosurgery...
2016: Surgical Neurology International
https://www.readbyqxmd.com/read/27920525/fabrication-and-characterization-of-drug-loaded-nano-hydroxyapatite-polyamide-66-scaffolds-modified-with-carbon-nanotubes-and-silk-fibroin
#17
Meng-Zhu Yao, Ming-Yi Huang-Fu, Hui-Na Liu, Xia-Rong Wang, Xiaoxia Sheng, Jian-Qing Gao
Nano-hydroxyapatite/polyamide 66 (nHA/PA66) porous scaffolds were fabricated by a phase inversion method. Carbon nanotubes (CNTs) and silk fibroin (SF) were used to modify the surface of the nHA/PA66 scaffolds by freeze-drying and cross-linking. Dexamethasone was absorbed to the CNTs to promote the osteogenic differentiation of bone mesenchymal stem cells (BMSCs). The cell viability of BMSCs was investigated by changing the concentration of the CNT dispersion, and the most biocompatible scaffold was selected...
2016: International Journal of Nanomedicine
https://www.readbyqxmd.com/read/27919839/heparin-hyaluronic-acid-hydrogel-for-efficient-cellular-activities-of-3d-encapsulated-adipose-derived-stem-cells
#18
Kihak Gwon, Eunsol Kim, Giyoong Tae
We have developed stem cell-responsive, heparin-hyaluronic acid (Hep-HA) hydrogel, crosslinked by thiolated heparin (Hep-SH) and methacrylated hyaluronic acid (HA-MA) via visible light mediated, thiol-ene reaction. Physical properties of the hydrogel (gelation time, storage modulus, and swelling ratio) were tunable by adjusting light intensity, initiator/polymer concentration, and precursor pH. Culture of human adipose derived mesenchymal stem cells (ADSCs) using this hydrogel was characterized and compared with the control hydrogels including Hep-PEG hydrogel, PEG-HA hydrogel...
December 2, 2016: Acta Biomaterialia
https://www.readbyqxmd.com/read/27919783/the-potential-of-induced-pluripotent-stem-cells-as-a-tool-to-study-skeletal-dysplasias-and-cartilage-related-pathologic-conditions
#19
REVIEW
Huan Liu, Lei Yang, Fang Fang Yu, Sen Wang, Cuiyan Wu, Chengjuan Qu, Xiong Guo, Mikko J Lammi
The development of induced pluripotent stem cells (iPSCs) technology has opened up new horizons for development of new research tools especially for skeletal dysplasias, which often lack human disease models. Regenerative medicine and tissue engineering could be the next areas to benefit from refinement of iPSC methods to repair focal cartilage defects, while applications for osteoarthritis (OA) and drug screening have evolved rather slowly. Although the advances in iPSC research of skeletal dysplasias and repair of focal cartilage lesions are not directly relevant to OA, they can be considered to pave the way to future prospects and solutions to OA research, too...
December 2, 2016: Osteoarthritis and Cartilage
https://www.readbyqxmd.com/read/27919214/hydrogel-based-drug-delivery-systems-a-review-with-special-emphasis-on-challenges-associated-with-decontamination-of-hydrogels-and-biomaterials
#20
Irene Satiko Kikuchi, Raquel Galante, Kamal Dua, Daniela Dal Molim Ghisleni, Terezinha de Jesus Andreoli Pinto, Venkata Ramana Malipeddi, Rajendra Awasthi
Many researches involving the development of new techniques and biomaterials to formulate a suitable drug delivery systems and tissue engineering have been conducted. The majority of published literature from these researches emphasizes the production and materials characterization. However there is very limited information regarding their sterilization methods. The present review article has summarized various different literatures that encompasses the difficulties encountered with sterilization methods in the preparations of hydrogels for biological applications...
December 5, 2016: Current Drug Delivery
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