Search results for "tissue engineering"

showing 10 items of 370 documents

Aligned microcontact printing of biomolecules on microelectronic device surfaces

2001

Microcontact printing (/spl mu/CP) of extracellular matrix proteins is a fascinating approach to control cell positioning and outgrowth, which is essential in the development of applications ranging from cellular biosensors to tissue engineering. Microelectronic devices can be used to detect the activity from a large number of recording sites over the long term. However, signals from cells can only be recorded at small sensitive spots. Here, the authors present an innovative setup to perform aligned /spl mu/CP of extracellular matrix proteins on microelectronic devices in order to guide the growth of electrogenic cells specifically to these sensitive spots. The authors' system is based on t…

extra cellular matrixMaterials scienceTransistors ElectronicSurface PropertiesSiliconesBiomedical EngineeringmicroelectrodesNanotechnologyHippocampuslaw.inventionRats Sprague-DawleyTissue engineeringlawfield effect transistorsAnimalsMicroelectronicsDimethylpolysiloxanesCells CulturedNeuronschemistry.chemical_classificationbusiness.industryBiomoleculeOptical tableReproducibility of ResultsalignmentEquipment Designmicrocontact printing (mu CP)JExtracellular MatrixRatsMicroelectrodeextracellular recordingchemistry3D-BioMEMSMicrocontact printingmicroelectronic devicesField-effect transistorneuronal networksNeural Networks ComputerbusinessMicroelectrodesBiosensorIEEE Transactions on Biomedical Engineering
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Systems level approach reveals the correlation of endoderm differentiation of mouse embryonic stem cells with specific microstructural cues of fibrin…

2014

Stem cells receive numerous cues from their associated substrate that help to govern their behaviour. However, identification of influential substrate characteristics poses difficulties because of their complex nature. In this study, we developed an integrated experimental and systems level modelling approach to investigate and identify specific substrate features influencing differentiation of mouse embryonic stem cells (mESCs) on a model fibrous substrate, fibrin. We synthesized a range of fibrin gels by varying fibrinogen and thrombin concentrations, which led to a range of substrate stiffness and microstructure. mESCs were cultured on each of these gels, and characterization of the diff…

fibrin substrateCellular differentiationCell Culture TechniquesBiomedical EngineeringBiophysicsBioengineeringBiochemistryregression analysisFibrinBiomaterialsMiceTissue engineeringmedicineAnimalsCell Lineagemicrostructural topologyResearch ArticlesCells CulturedEmbryonic Stem CellsFibrinTissue EngineeringTissue ScaffoldsbiologyEndodermSubstrate (chemistry)systems level modellingCell Differentiationdifferentiationembryonic stem cellEmbryonic stem cellMolecular biologyCell biologymedicine.anatomical_structureCell culturebiology.proteinStem cellEndodermGelsBiotechnologyJournal of The Royal Society Interface
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Modular Small Diameter Vascular Grafts with Bioactive Functionalities.

2015

We report the fabrication of a novel type of artificial small diameter blood vessels, termed biomimetic tissue-engineered blood vessels (bTEBV), with a modular composition. They are composed of a hydrogel scaffold consisting of two negatively charged natural polymers, alginate and a modified chitosan, N,O-carboxymethyl chitosan (N,O-CMC). Into this biologically inert scaffold two biofunctionally active biopolymers are embedded, inorganic polyphosphate (polyP) and silica, as well as gelatin which exposes the cell recognition signal, Arg-Gly-Asp (RGD). These materials can be hardened by exposure to Ca(2+) through formation of Ca(2+) bridges between the polyanions, alginate, N,O-CMC, and polyP…

food.ingredientAlginateslcsh:MedicineBiocompatible Materialsmacromolecular substancesengineering.materialGelatinChitosanchemistry.chemical_compoundCalcium ChloridefoodTissue engineeringGlucuronic AcidBlood vessel prosthesisPolyphosphatesElastic ModulusTensile StrengthAbsorbable ImplantsMaterials TestingHuman Umbilical Vein Endothelial CellsHumanslcsh:ScienceBlood CoagulationCell Line Transformedchemistry.chemical_classificationChitosanMultidisciplinaryTissue EngineeringTissue ScaffoldsHexuronic Acidslcsh:Rtechnology industry and agricultureBiomaterialEndothelial CellsHydrogelsPolymerSilicon DioxideBlood Vessel ProsthesischemistrySelf-healing hydrogelsengineeringlcsh:QVascular GraftingBiopolymerOligopeptidesBiomedical engineeringResearch ArticlePloS one
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Engineering a morphogenetically active hydrogel for bioprinting of bioartificial tissue derived from human osteoblast-like SaOS-2 cells.

2014

Abstract Sodium alginate hydrogel, stabilized with gelatin, is a suitable, biologically inert matrix that can be used for encapsulating and 3D bioprinting of bone-related SaOS-2 cells. However, the cells, embedded in this matrix, remain in a non-proliferating state. Here we show that addition of an overlay onto the bioprinted alginate/gelatine/SaOS-2 cell scaffold, consisting of agarose and the calcium salt of polyphosphate [polyP·Ca 2+ -complex], resulted in a marked increase in cell proliferation . In the presence of 100 μ m polyP·Ca2+ -complex, the cells proliferate with a generation time of approximately 47–55 h. In addition, the hardness of the alginate/gelatin hydrogel substantially i…

food.ingredientMaterials scienceAlginatesBiophysicschemistry.chemical_elementBioengineeringBiocompatible MaterialsCalciumGelatinHydrogel Polyethylene Glycol Dimethacrylatelaw.inventionCell LineBiomaterialschemistry.chemical_compoundfoodTissue engineeringGlucuronic AcidlawHardnessPolyphosphatesElastic ModulusmedicineHumansSaos-2 cellsCell Proliferation3D bioprintingOsteoblastsTissue EngineeringTissue ScaffoldsPolyphosphateHexuronic AcidsBioprintingOsteoblastmedicine.anatomical_structurechemistryMechanics of MaterialsCeramics and CompositesBiophysicsAgaroseGelatinBiomedical engineeringBiomaterials
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Porous Gelatin Hydrogels:  2. In Vitro Cell Interaction Study

2007

We report on the feasibility of applying porous gelatin hydrogels, prepared by a novel and controlled cryogenic treatment, as cell-interactive scaffolds for tissue engineering applications. Despite the large number of publications on gelatin as a biomaterial, a detailed study of screening a limited number of gelatin scaffolds for their interaction with a panel of human cells has, to the best of our knowledge, not yet been published. In the present work, we have evaluated two types of porous gelatin scaffolds that differ in their pore geometry and pore size. Type I hydrogels contained top-to-bottom transverse channels (i.e. cones) with a decreasing diameter from the top (330 microm) to the b…

food.ingredientPolymers and PlasticsCellsConfocalCell Culture TechniquesBioengineeringNanotechnologyGelatinBiomaterialsfoodTissue engineeringFreezingMaterials TestingCell AdhesionMaterials ChemistrymedicineHumansCell ProliferationMicroscopy ConfocalTissue EngineeringChemistryBiomaterialHydrogelsOsteoblastAdhesionmedicine.anatomical_structureVital stainSelf-healing hydrogelsBiophysicsGelatinPorosityBiomacromolecules
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Maltose-conjugated chitosans induce macroscopic gelation of pectin solutions at neutral pH

2014

Injectable polymer scaffolds are particularly attractive for guided tissue growth and drug/cell delivery with minimally invasive intervention. In the present work, "all-polymeric" gelling systems based on pectins and water-soluble maltose-conjugated chitosans (CM) have been developed. Maltose-conjugated chitosan has been synthesized at three different molar ratios, as evaluated by FITR analysis and fluorimetric titration. A thorough rheological characterization of the blends and their parent solutions has been performed. Macroscopic gelation has been achieved by mixing the high esterification degree pectins with CM at higher maltose grafted to chitosan contents. Gels form in a few minutes a…

food.ingredientPolymers and PlasticsPectinmacromolecular substancesConjugated systemChitosanchemistry.chemical_compoundfoodRheologyTissue engineeringPolymer chemistryMaterials ChemistryMaltose-conjugated chitosan Hydrogels Pectin Biocompatible materials RheologyBiocompatible materialsMaltoseMaltose-conjugated chitosanChitosanTissue ScaffoldsOrganic Chemistrytechnology industry and agricultureHydrogelsMaltoseHydrogen-Ion ConcentrationPectinSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)SolutionschemistryChemical engineeringSelf-healing hydrogelsPectinsTitrationSettore CHIM/07 - Fondamenti Chimici Delle TecnologieRheologyGels
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An Overview of Functionalized Graphene Nanomaterials for Advanced Applications

2021

Interest in the development of graphene-based materials for advanced applications is growing, because of the unique features of such nanomaterials and, above all, of their outstanding versatility, which enables several functionalization pathways that lead to materials with extremely tunable properties and architectures. This review is focused on the careful examination of relationships between synthetic approaches currently used to derivatize graphene, main properties achieved, and target applications proposed. Use of functionalized graphene nanomaterials in six engineering areas (materials with enhanced mechanical and thermal performance, energy, sensors, biomedical, water treatment, and c…

graphene quantum dotsComputer scienceGrapheneGeneral Chemical EngineeringgrapheneFunctionalized grapheneNanotechnologyReviewDrug releasefuel cellssensorsCatalysisNanomaterialslaw.inventionChemistrylawDrug releaseFuel cellsgraphene oxideTissue engineeringWater treatmentGeneral Materials ScienceQD1-999energyNanomaterials
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HYALURONIC ACID-graft-ELASTIN BASED SCAFFOLDS FOR POTENTIAL TISSUE ENGINEERING APPLICATIONS

2012

hyaluronic acid elastin scaffolds tissue engineeringSettore CHIM/09 - Farmaceutico Tecnologico Applicativo
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Polysaccharide hydrogels for regenerative medicine applications

2022

injectionpolysaccharidetissue engineering3D printinghydrogelscaffold
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PLLA Scaffold via TIPS for Bone Tissue Engineering

2016

Tissue engineering offers a promising new approach to repair bone fractures, fractures that do not heal, and fractures due to bone tumors. In this work, two different approaches were tested in order to obtain Poly-L- Lactic Acid (PLLA) porous scaffolds via Thermally Induced Phase Separation (TIPS) for bone tissue engineering application. First, the possibility to produce a composite material, by incorporating Hydroxyapatite (HA) particles in a Poly-L-lactic acid (PLLA) matrix was investigated. Two PLLA/HA weight ratios (70/30 and 50/50) were tested. The results showed that the presence of HA does not influence the phase separation process, i.e. the composite scaffolds microstructure is simi…

lcsh:Computer engineering. Computer hardwareTissue EngineeringPhase separationlcsh:TP155-156lcsh:TK7885-7895Gradientlcsh:Chemical engineeringPLLAHydroxyapatite
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