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3D biocompatibility

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https://www.readbyqxmd.com/read/28332587/bioreactor-mechanically-guided-3d-mesenchymal-stem-cell-chondrogenesis-using-a-biocompatible-novel-thermo-reversible-methylcellulose-based-hydrogel
#1
A Cochis, S Grad, M J Stoddart, S Farè, L Altomare, B Azzimonti, M Alini, L Rimondini
Autologous chondrocyte implantation for cartilage repair represents a challenge because strongly limited by chondrocytes' poor expansion capacity in vitro. Mesenchymal stem cells (MSCs) can differentiate into chondrocytes, while mechanical loading has been proposed as alternative strategy to induce chondrogenesis excluding the use of exogenous factors. Moreover, MSC supporting material selection is fundamental to allow for an active interaction with cells. Here, we tested a novel thermo-reversible hydrogel composed of 8% w/v methylcellulose (MC) in a 0...
March 23, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28328200/fluorescence-resonance-energy-transfer-based-dna-tetrahedron-nano-tweezer-for-highly-reliable-detection-of-tumor-related-mrna-in-living-cells
#2
Lei He, Dan-Qing Lu, Hao Liang, Sitao Xie, Can Luo, Miaomiao Hu, Liujun Xu, Xiaobing Zhang, Weihong Tan
Accurate detection and imaging of tumor-related mRNA in living cells hold great promise for early cancer detection. However, currently, most probes designed to image intracellular mRNA confront intrinsic interferences arising from complex biological matrices and resulting in inevitable false-positive signals. To circumvent this problem, a new class of intracellular DNA nanoprobe, termed DNA tetrahedron nano-tweezer (DTNT), was developed to reliably image tumor-related mRNA in living cells based on the FRET (fluorescence resonance energy transfer) "off" to "on" signal readout mode...
March 22, 2017: ACS Nano
https://www.readbyqxmd.com/read/28325683/biomimetic-scaffolds-with-three-dimensional-undulated-microtopographies
#3
Jonelle Z Yu, Emrullah Korkmaz, Monica I Berg, Philip R LeDuc, O Burak Ozdoganlar
Many human and animal tissues naturally possess three-dimensional (3D) micro-scale geometries enabling certain physiological functions. Absence of these microgeometries in engineered tissues may undermine the effectiveness of corresponding tissue repair and regeneration. This paper introduces a novel approach to create tissue scaffolds with biomimetic 3D undulated microtopographies. The mechanical micromilling technology is used for precise and reproducible fabrication of poly(methyl methacrylate) (PMMA) master molds with 3D undulated microtopographies...
February 14, 2017: Biomaterials
https://www.readbyqxmd.com/read/28273799/a-review-of-structure-construction-of-silk-fibroin-biomaterials-from-single-structures-to-multi-level-structures
#4
REVIEW
Yu Qi, Hui Wang, Kai Wei, Ya Yang, Ru-Yue Zheng, Ick Soo Kim, Ke-Qin Zhang
The biological performance of artificial biomaterials is closely related to their structure characteristics. Cell adhesion, migration, proliferation, and differentiation are all strongly affected by the different scale structures of biomaterials. Silk fibroin (SF), extracted mainly from silkworms, has become a popular biomaterial due to its excellent biocompatibility, exceptional mechanical properties, tunable degradation, ease of processing, and sufficient supply. As a material with excellent processability, SF can be processed into various forms with different structures, including particulate, fiber, film, and three-dimensional (3D) porous scaffolds...
March 3, 2017: International Journal of Molecular Sciences
https://www.readbyqxmd.com/read/28272767/a-high-strength-self-healable-antibacterial-and-anti-inflammatory-supramolecular-polymer-hydrogel
#5
Hongbo Wang, Hui Zhu, Weigui Fu, Yinyu Zhang, Bing Xu, Fei Gao, Zhiqiang Cao, Wenguang Liu
There is a significant cost to mitigate the infection and inflammation associated with the implantable medical devices. The development of effective antibacterial and anti-inflammatory biomaterials with novel mechanism of action has become an urgent task. In this study, a supramolecular polymer hydrogel is synthesized by the copolymerization of N-acryloyl glycinamide and 1-vinyl-1,2,4-triazole in the absence of any chemical crosslinker. The hydrogel network is crosslinked through the hydrogen bond interactions between dual amide motifs in the side chain of N-acryloyl glycinamide...
March 8, 2017: Macromolecular Rapid Communications
https://www.readbyqxmd.com/read/28269205/gelatin-methacrylamide-hydrogel-with-graphene-nanoplatelets-for-neural-cell-laden-3d-bioprinting
#6
Wei Zhu, Brent T Harris, Lijie Grace Zhang
Nervous system is extremely complex which leads to rare regrowth of nerves once injury or disease occurs. Advanced 3D bioprinting strategy, which could simultaneously deposit biocompatible materials, cells and supporting components in a layer-by-layer manner, may be a promising solution to address neural damages. Here we presented a printable nano-bioink composed of gelatin methacrylamide (GelMA), neural stem cells, and bioactive graphene nanoplatelets to target nerve tissue regeneration in the assist of stereolithography based 3D bioprinting technique...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
https://www.readbyqxmd.com/read/28268334/a-pmma-microfluidic-dielectric-sensor-for-blood-coagulation-monitoring-at-the-point-of-care
#7
Debnath Maji, Michael A Suster, Erdem Kucukal, Umut A Gurkan, Evi X Stavrou, Pedram Mohseni
This paper describes the design and construct of a fully biocompatible, microfluidic, dielectric sensor targeted at monitoring human whole blood coagulation at the point-of-care (POC). The sensor assembly procedure involves using sputtered electrodes in a microfluidic channel with a physiologically relevant height of 50μm to create a three-dimensional (3D), parallel-plate, capacitive sensing area. The sensor is constructed with biocompatible materials of polymethyl methacrylate (PMMA) for the substrate and titanium nitride (TiN) for the sensing and floating electrodes...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
https://www.readbyqxmd.com/read/28268300/a-simple-method-for-micropatterning-nanofibrous-hydrogel-film
#8
K Higashi, N Miki
This paper propose a new fabrication process for micropatterning a nanofibrous thin film made of bacterial cellulose(BC). BC is a hydrogel produced by specific bacteria and composed of pure cellulosic nanoflbers exhibiting 3D network structure. Such nanofibrous structure is found to be appropriate for adhesion of anchorage-dependent cells. Furthermore, BC shows high biocompatibility and mechanical toughness. Thus, the microfabrication technique for BC broadens potentials for applications. In this study, we report a new method for micropatterning BC film with feature resolution comparable with photolithography technology...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
https://www.readbyqxmd.com/read/28261331/a-biocompatible-macromolecular-two-photon-initiator-based-on-hyaluronan
#9
Maximilian Tromayer, Peter Gruber, Marica Markovic, Arnulf Rosspeintner, Eric Vauthey, Heinz Redl, Aleksandr Ovsianikov, Robert Liska
The possibility of the direct encapsulation of living cells via two-photon induced photopolymerization enables the microfabrication of hydrogel scaffolds with high initial cell loadings and intimate matrix-cell contact. While highly efficient water-soluble two-photon initiators based on benzylidene ketone dyes have been developed, they exhibit considerable cyto- and phototoxicity. To address the problem of photoinitiator migration from the extracellular matrix into the cytosol, a two-photon initiator bound to a polymeric hyaluronan backbone (HAPI) was synthesized in this work...
January 14, 2017: Polymer Chemistry
https://www.readbyqxmd.com/read/28254327/addition-of-mgo-nanoparticles-and-plasma-surface-treatment-of-three-dimensional-printed-polycaprolactone-hydroxyapatite-scaffolds-for-improving-bone-regeneration
#10
Hee-Sang Roh, Chang-Min Lee, Young-Hyoun Hwang, Min-Suk Kook, Seong-Won Yang, Donghun Lee, Byung-Hoon Kim
Magnesium (Mg) plays an important role in the body in mediating cell-extracellular matrix interactions and controlling bone apatite structure and density. Hydroxyapatite (HAp) has been used for osteoconductive bone replacement because of its good compressive strength and biocompatibility. The object of this study is to investigate the effects of adding Magnesium oxide (MgO) nanoparticles to polycaprolactone (PCL)/HAp composites and treating PCL/HAp/MgO scaffolds with oxygen and nitrogen plasma. The 3D PCL/HAp/MgO scaffolds were fabricated using a 3D bioextruder...
May 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28254291/bio-inspired-enhancement-of-friction-and-adhesion-at-the-polydimethylsiloxane-intestine-interface-and-biocompatibility-characterization
#11
Hongyu Zhang, Yi Wang, Steven Vasilescu, Zhibin Gu, Tao Sun
An active navigation of self-propelled miniaturized robot along the intestinal tract without injuring the soft tissue remains a challenge as yet. Particularly in this case an effective control of the interfacial friction and adhesion between the material used and the soft tissue is crucial. In the present study, we investigated the frictional and adhesive properties between polydimethylsiloxane (PDMS, microscopically patterned with micro-pillar arrays and non-patterned with a flat surface) and rabbit small intestinal tract using a universal material tester...
May 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28252516/decellularization-of-the-porcine-ear-generates-a-biocompatible-nonimmunogenic-extracellular-matrix-platform-for-face-subunit-bioengineering
#12
Jérôme Duisit, Giuseppe Orlando, Donovan Debluts, Louis Maistriaux, Daela Xhema, Yann-Alex J de Bisthoven, Cesare Galli, Andrea Peloso, Catherine Behets, Benoît Lengelé, Pierre Gianello
OBJECTIVE: The purpose of this study was to assess whether perfusion-decellularization technology could be applied to facial grafts. BACKGROUND: Facial allotransplantation remains an experimental procedure. Regenerative medicine techniques allow fabrication of transplantable organs from an individual's own cells, which are seeded into extracellular matrix (ECM) scaffolds from animal or human organs. Therefore, we hypothesized that ECM scaffolds also can be created from facial subunits...
March 1, 2017: Annals of Surgery
https://www.readbyqxmd.com/read/28247962/hydrogel-based-three-dimensional-cell-culture-for-organ-on-a-chip-applications
#13
REVIEW
Seung Hwan Lee, Kyu Young Shim, Bumsang Kim, Jong Hwan Sung
Recent studies have reported that three-dimensionally cultured cells have more physiologically relevant functions than two-dimensionally cultured cells. Cells are three-dimensionally surrounded by the extracellular matrix (ECM) in complex in vivo microenvironments and interact with the ECM and neighboring cells. Therefore, replicating the ECM environment is key to the successful cell culture models. Various natural and synthetic hydrogels have been used to mimic ECM environments based on their physical, chemical, and biological characteristics, such as biocompatibility, biodegradability, and biochemical functional groups...
March 1, 2017: Biotechnology Progress
https://www.readbyqxmd.com/read/28245809/mesenchymal-stem-cells-and-myoblast-differentiation-under-hgf-and-igf-1-stimulation-for-3d-skeletal-muscle-tissue-engineering
#14
R Witt, A Weigand, A M Boos, A Cai, D Dippold, A R Boccaccini, D W Schubert, M Hardt, C Lange, A Arkudas, R E Horch, J P Beier
BACKGROUND: Volumetric muscle loss caused by trauma or after tumour surgery exceeds the natural regeneration capacity of skeletal muscle. Hence, the future goal of tissue engineering (TE) is the replacement and repair of lost muscle tissue by newly generating skeletal muscle combining different cell sources, such as myoblasts and mesenchymal stem cells (MSCs), within a three-dimensional matrix. Latest research showed that seeding skeletal muscle cells on aligned constructs enhance the formation of myotubes as well as cell alignment and may provide a further step towards the clinical application of engineered skeletal muscle...
February 28, 2017: BMC Cell Biology
https://www.readbyqxmd.com/read/28243915/proliferative-and-differentiation-potential-of-multipotent-mesenchymal-stem-cells-cultured-on-biocompatible-polymer-scaffolds-with-various-physicochemical-characteristics
#15
A V Rodina, T Kh Tenchurin, V P Saprykin, A D Shepelev, V G Mamagulashvili, T E Grigor'ev, E Yu Moskaleva, S N Chvalun, S E Severin
Biocompatibility of film and fibrous scaffolds from polylactide-based polymers and the relationship between their architecture and the functional characteristics of mesenchymal stem cells were studied. Cell culturing on polylactide-based film and fibrous matrixes did not deteriorate cell morphology and their proliferation and differentiation capacities. The rate of cell proliferation and penetration in microporous 3D matrices with the same porosity parameters and pore size depended on their spatial organization...
February 2017: Bulletin of Experimental Biology and Medicine
https://www.readbyqxmd.com/read/28238969/biocompatibility-properties-of-polyamide-6-pcl-blends-composite-textile-scaffold-using-ea-hy926-human-endothelial-cells
#16
Abdalla Abdal-Hay, Khalil Abdelrazek Khalil, Fawzi F Al-Jassir, Amira Gamal-Eldeen
Enhancing the cytocompatibility profiles including cell attachment, growth and viability of designed synthetic scaffolds have a pivotal role in tissue engineering applications. Polymer blending is one of the most effective methods for providing new desirable biomaterials for tissue scaffolds. This article reports a novel polyamide 6/ poly(Ɛ-caprolactone) (PA6/PCL) blends solution by varying the concentrations ratios of PA6 and PCL which was fabricated to create composite fibrous tissue scaffolds. Highly porous blends fibrous scaffold has been fabricated and their suitability as cell-support for EA...
February 27, 2017: Biomedical Materials
https://www.readbyqxmd.com/read/28230707/low-cost-3d-printing-orbital-implant-templates-in-secondary-orbital-reconstructions
#17
Alison B Callahan, Ashley A Campbell, Carisa Petris, Michael Kazim
PURPOSE: Despite its increasing use in craniofacial reconstructions, three-dimensional (3D) printing of customized orbital implants has not been widely adopted. Limitations include the cost of 3D printers able to print in a biocompatible material suitable for implantation in the orbit and the breadth of available implant materials. The authors report the technique of low-cost 3D printing of orbital implant templates used in complex, often secondary, orbital reconstructions. METHODS: A retrospective case series of 5 orbital reconstructions utilizing a technique of 3D printed orbital implant templates is presented...
February 22, 2017: Ophthalmic Plastic and Reconstructive Surgery
https://www.readbyqxmd.com/read/28230598/analysis-of-the-adherence-of-dental-pulp-stem-cells-on-two-dimensional-and-three-dimensional-silk-fibroin-based-biomaterials-applications-in-regenerative-dentistry
#18
María Pilar Pecci-Lloret, Mar Vera-Sánchez, Salvador Aznar-Cervantes, David García-Bernal, Ricardo Oñate Sánchez, Miguel Ramón Pecci-Lloret, José María Moraleda, José Luis Cenis, Francisco Javier Rodríguez-Lozano
Among various biomaterials used as scaffolds in tissue engineering, silk fibroin is a highly attractive material. A scaffold should be biocompatible and nontoxic, with optimal physical features and mechanical properties. For this reason, tissue-engineering approaches in regenerative medicine have focused on investigating the biocompatibility of possible biomaterials by analyzing cell-scaffold interaction properties. The aim of the present study was to examine the biocompatibility of silk fibroin as a film (two-dimensional [2D]) and a scaffold (three-dimensional [3D]) after being cellularized with human dental pulp stem cells (hDPSCs)...
February 22, 2017: Journal of Craniofacial Surgery
https://www.readbyqxmd.com/read/28230188/3d-time-lapse-imaging-and-quantification-of-mitochondrial-dynamics
#19
Miguel Sison, Sabyasachi Chakrabortty, Jérôme Extermann, Amir Nahas, Paul James Marchand, Antonio Lopez, Tanja Weil, Theo Lasser
We present a 3D time-lapse imaging method for monitoring mitochondrial dynamics in living HeLa cells based on photothermal optical coherence microscopy and using novel surface functionalization of gold nanoparticles. The biocompatible protein-based biopolymer coating contains multiple functional groups which impart better cellular uptake and mitochondria targeting efficiency. The high stability of the gold nanoparticles allows continuous imaging over an extended time up to 3000 seconds without significant cell damage...
February 23, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28227435/gelatin-methacrylamide-hydrogel-with-graphene-nanoplatelets-for-neural-cell-laden-3d-bioprinting
#20
Wei Zhu, Brent T Harris, Lijie Grace Zhang, Wei Zhu, Brent T Harris, Lijie Grace Zhang, Wei Zhu, Brent T Harris, Lijie Grace Zhang
Nervous system is extremely complex which leads to rare regrowth of nerves once injury or disease occurs. Advanced 3D bioprinting strategy, which could simultaneously deposit biocompatible materials, cells and supporting components in a layer-by-layer manner, may be a promising solution to address neural damages. Here we presented a printable nano-bioink composed of gelatin methacrylamide (GelMA), neural stem cells, and bioactive graphene nanoplatelets to target nerve tissue regeneration in the assist of stereolithography based 3D bioprinting technique...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
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