Search results for " Scaffolds"

showing 10 items of 190 documents

Semiautomated quantification of the fibrous tissue response to complex three‐dimensional filamentous scaffolds using digital image analysis

2021

Fibrosis represents a relevant response to the implantation of biomaterials, which occurs not only at the tissue-material interface (fibrotic encapsulation) but also within the void fraction of complex three-dimensional (3D) biomaterial constructions (fibrotic ingrowth). Usual evaluation of the biocompatibility mostly depicts fibrosis at the interface of the biomaterial using semiquantitative scores. Here, the relations between encapsulation and infiltrating fibrotic growth are poorly represented. Virtual pathology and digital image analysis provide new strategies to assess fibrosis in a more differentiated way. In this study, we adopted a method previously used to quantify fibrosis in visc…

Diagnostic ImagingScaffoldddc:610Materials scienceBiocompatibilityTissue Scaffoldsbiocompatibility biomaterial fibrosis semiautomatic scoringMetals and AlloysBiomedical Engineering610 MedizinBiomaterialBiocompatible MaterialsFibrous tissueHost tissuemedicine.diseaseFibrosisBiomaterialsExperimental animalFibrosisDigital image analysisCeramics and CompositesmedicineAnimalsCollagenBiomedical engineering
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Micro-Architecture Based Structural Model for Elastomeric Electrospun Scaffolds.

2010

Elastomeric Electrospun Scaffolds Micro-Architecture Soft Tissue Engineering FEM analysi
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Engineering in-plane mechanics of electrospun polyurethane scaffolds for cardiovascular tissue applications

2021

Effective cardiovascular tissue surrogates require high control of scaffold structural and mechanical features to match native tissue properties, which are dependent on tissue-specific mechanics, function heterogenicity, and morphology. Bridging scaffold processing variables with native tissue properties is recognized as a priority for advancing biomechanical performance of biomedical materials and, when translated to the clinical practice, their efficacy. Accordingly, this study selected electrospinning on a rotating cylindrical target as an apparatus of broad application and mapped the relationship between key processing variables and scaffold mechanics and structure. This information was…

Electrospinningcardiovascular tissue mechanical propertieTissue EngineeringTissue ScaffoldsPolyestersPolyurethanesBiomedical Engineeringcardiovascular tissue surrogateBiocompatible Materialscardiovascular tissue morphology.wet processingCardiovascular SystemBiomaterialsMechanics of MaterialselectrodepositionJournal of the Mechanical Behavior of Biomedical Materials
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Effects of Rastering Velocity on Electrospun Polyeurthane Structure and Mechanical Properties

2010

Electrospun Polyeurthane Scaffolds Mechanical Properties Rastering Velocity Heart Valves
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Bioengineered vascular scaffolds: the state of the art

2014

To date, there is increasing clinical need for vascular substitutes due to accidents, malformations, and ischemic diseases. Over the years, many approaches have been developed to solve this problem, starting from autologous native vessels to artificial vascular grafts; unfortunately, none of these have provided the perfect vascular substitute. All have been burdened by various complications, including infection, thrombogenicity, calcification, foreign body reaction, lack of growth potential, late stenosis and occlusion from intimal hyperplasia, and pseudoaneurysm formation. In the last few years, vascular tissue engineering has emerged as one of the most promising approaches for producing …

EngineeringIntimal hyperplasiaBiomedical EngineeringMedicine (miscellaneous)ThrombogenicityNew materialsBioengineeringBiocompatible MaterialsVascular graftBiomaterialsTissue engineeringBlood vessel prosthesisBiomaterials; Tissue engineering; Vascular grafts; Vascular prosthesesmedicineHumansTissue engineeringTissue Scaffoldsbusiness.industrySettore ING-IND/34 - Bioingegneria IndustrialeGeneral Medicinemedicine.diseaseBiocompatible materialBiomaterialBlood Vessel ProsthesisStenosisSettore MED/18 - Chirurgia GeneraleVascular tissue engineeringVascular prosthesesbusinessBiomedical engineering
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Fabrication of elastomeric scaffolds with curvilinear fibrous structures for heart valve leaflet engineering

2014

Native semi-lunar heart valves are composed of a dense fibrous network that generally follows a curvilinear path along the width of the leaflet. Recent models of engineered valve leaflets have predicted that such curvilinear fiber orientations would homogenize the strain field and reduce stress concentrations at the commissure. In the present work, a method was developed to reproduce this curvilinear fiber alignment in electrospun scaffolds by varying the geometry of the collecting mandrel. Elastomeric poly(ester urethane)urea was electrospun onto rotating conical mandrels of varying angles to produce fibrous scaffolds where the angle of fiber alignment varied linearly over scaffold length.…

Heart ValvemicrostructureBiomedical EngineeringBiocompatible MaterialsElastomerCeramics and CompositeArticleCardiac Valve AnnuloplastyTissue ScaffoldBiomimetic MaterialsMaterials TestingHumanselectrospinningBiocompatible MaterialPulmonary ValveTissue ScaffoldsTissue Engineeringtechnology industry and agricultureModels CardiovascularHeart ValvesBiomaterialBiomechanical PhenomenaElastomerspolyurethanecardiac valve2506Biomimetic MaterialHuman
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Pd nanoparticles formation inside porous polymeric scaffolds followed by in situ XANES/SAXS

2015

International audience; Simultaneous time-resolved SAXS and XANES techniques were employed to follow in situ the formation of Pd nanoparticles from palladium acetate precursor in two porous polymeric supports: polystyrene (PS) and poly(4-vinyl-pyridine) (P4VP). In this study we have investigated the effect of the use of different reducing agents (H-2 and CO) from the gas phase. These results, in conjunction with data obtained by diffuse reflectance IR (DRIFT) spectroscopy and TEM measurements, allowed us to unravel the different roles played by gaseous H-2 and CO in the formation of the Pd nanoparticles for both PS and P4VP hosting scaffolds

HistoryMaterials scienceAbsorption spectroscopyNanoparticlechemistry.chemical_elementreduction02 engineering and technologypolystyrene010402 general chemistry01 natural sciencesEducationP4VPchemistry.chemical_compoundPdPd nanoparticles formation inside porous polymeric scaffoldspaladumchemistry.chemical_classification[PHYS]Physics [physics]Small-angle X-ray scatteringnanoparticlein situSAXS XANES Pd paladum nanoparticle polystyrene P4VP DRIFT TEM reduction in situSAXSPolymer021001 nanoscience & nanotechnologyXANESXANES0104 chemical sciencesComputer Science ApplicationsCrystallographyDRIFTchemistryChemical engineeringTEMPolystyreneDiffuse reflection0210 nano-technologyPalladium
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Physico-chemical and mechanical characterization of in-situ forming xyloglucan gels incorporating a growth factor to promote cartilage reconstruction

2016

Abstract The development of growth factors is very promising in the field of tissue regeneration but specifically designed formulations have to be developed in order to enable such new biological entities (NBEs). In particular, the range of therapeutic concentrations is usually very low compared to other active proteins and the confinement in the target site can be of crucial importance. In-situ forming scaffolds are very promising solutions for minimally invasive intervention in cartilage reconstruction and targeting of NBEs. In this work injectable, in-situ forming gels of a temperature responsive partially degalactosylated xyloglucan (Deg-XG) incorporating the growth factor FGF-18 are fo…

In situInjectionFibroblast Growth FactorChemical Phenomenamedicine.medical_treatment02 engineering and technologyFibroblast growth factor01 natural sciencesViscositychemistry.chemical_compoundTissue ScaffoldSettore BIO/10 - BiochimicaComposite materialGlucansGelTissue ScaffoldsIn-situ forming gelsViscosityGrowth factor021001 nanoscience & nanotechnologyGlucanXyloglucanmedicine.anatomical_structureSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiMechanics of MaterialsXylansMaterials Science (all)0210 nano-technologyMaterials scienceMechanical PhenomenaInjectable scaffoldsBioengineeringCondensed Matter Physic010402 general chemistryInjectable scaffoldInjectionsBiomaterialsShear modulusXylanChondrocytesmedicineAnimalsMechanics of MaterialXyloglucanCartilage reconstructionCell ProliferationMechanical PhenomenaAnimalCartilageGrowth factorMechanical EngineeringIn-situ forming gelChondrocyte0104 chemical sciencesFibroblast Growth FactorsMolecular WeightCartilagechemistryBiophysicsCattleSettore CHIM/07 - Fondamenti Chimici Delle TecnologieTemperature-responsiveGels
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Development of an lbuprofen-Releasing Biodegradable PLA/PGA Electrospun Scaffold for Tissue Regeneration

2009

Our aim was to develop a biodegradable fibrous dressing to act as a tissue guide for in situ wound repair while releasing Ibuprofen to reduce inflammation in wounds and reduce pain for patients on dressing changes. Dissolving the acid form of Ibuprofen (from 1% to 10% by weight) in the same solvent as 75% polylactide, 25% polyglycolide (PLGA) polymers gave uniformly loaded electrospun fibers which gave rapid release of drug within the first 8 h and then slower release over several days. Scaffolds with 10% Ibuprofen degraded within 6 days. The Ibuprofen released from these scaffolds significantly reduced the response of fibroblasts to major pro-inflammatory stimulators. Fibroblast attachment…

KeratinocytesScaffoldPolyglycolidePolyesterswound healingBioengineeringBiocompatible MaterialsIbuprofenbiodegradationApplied Microbiology and Biotechnologychemistry.chemical_compoundTissue engineeringmedicineCell AdhesionHumansdrug releaseCells CulturedCell ProliferationTissue EngineeringTissue ScaffoldsChemistryorganic chemicalsRegeneration (biology)Anti-Inflammatory Agents Non-SteroidalFibroblastsIbuprofenPLGAinflammationSettore CHIM/09 - Farmaceutico Tecnologico ApplicativoDelayed-Action PreparationsLiberationWound healingPolyglycolic AcidBiotechnologyBiomedical engineeringmedicine.drug
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In vitro and in vivo characterization of porcine acellular dermal matrix for gingival augmentation procedures

2013

Recently, porcine acellular dermal matrix (PADM) has been proposed as a possible alternative to autogenous grafts in periodontal plastic surgery. The aim of the present study was to investigate the in vitro responses of four different oral cell lines cultured on a novel PADM. Furthermore, tissue reaction to PADM was evaluated histologically after subcutaneous implantation in mice.Human gingival fibroblasts (HGF), human osteoblast-like cells, human umbilical vein endothelial cells and human oral keratinocytes (HOK) were cultured and transferred on to the PADM. A tissue culture polystyrene surface served as the control. The viability of all tested cell lines on PADM was measured by using the …

Keratinocytesmedicine.medical_specialtyTime FactorsCell SurvivalCell TransplantationSwineCell Culture TechniquesGingivaMice NudeTetrazolium SaltsAdenylate kinaseUmbilical veinCell LineAndrologyMiceSubcutaneous TissueIn vivoHuman Umbilical Vein Endothelial CellsmedicineAnimalsHumansCytotoxic T cellAcellular DermisColoring AgentsGingivoplastyOsteoblastsTissue EngineeringTissue ScaffoldsAugmentation procedureChemistryAdenylate KinaseSoft tissueFibroblastsIn vitroSurgeryThiazolesCell cultureGuided Tissue Regeneration PeriodontalPeriodonticsColorimetryFemaleIndicators and ReagentsJournal of Periodontal Research
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