Search results for "tissue engineering."

showing 10 items of 361 documents

3D-printing-assisted fabrication of chitosan scaffolds from different sources and cross-linkers for dental tissue engineering

2021

The aim of the present study was to fabricate and characterise chitosan scaffolds from animal and fungal sources, with or without gelatine as a co-polymer, and cross-linked to 3-glycidyloxyproply trimethoxysilane (GPTMS) or genipin for application in dental root tissue engineering. Chitosan-based scaffolds were prepared by the emulsion freeze-drying technique. Scanning electron microscopy (SEM) and nano-focus computed tomography (nano-CT) were used to characterise scaffold microstructure. Chemical composition and cross-linking were evaluated by Fourier transform infrared-attenuated total reflectance spectroscopy. Compression tests were performed to evaluate scaffold mechanical properties. S…

AdultMaleScaffoldMaterials scienceRD1-811AdolescentCompressive StrengthScanning electron microscopeSimulated body fluid0206 medical engineeringBiocompatible MaterialsDiseases of the musculoskeletal system02 engineering and technologyApatiteChitosanYoung Adultchemistry.chemical_compoundTissue engineeringfungal chitosanDental pulp stem cellsMaterials TestingHumansIridoidsCells CulturedDental PulpChitosanTissue EngineeringTissue ScaffoldsStem Cellstechnology industry and agricultureSilanes020601 biomedical engineeringdental pulp stem cellsRC925-935chemistryvisual_artPrinting Three-Dimensionalvisual_art.visual_art_mediumGenipinSurgeryFemalePorosityBiomedical engineeringEuropean Cells and Materials
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Effect of EDTA root conditioning on the healing of intrabony defects treated with an enamel matrix protein derivative.

2006

Contains fulltext : 49580.pdf (Publisher’s version ) (Open Access) BACKGROUND: Regenerative periodontal therapy with an enamel matrix protein derivative (EMD) has been shown to promote regeneration in intrabony periodontal defects. However, in most clinical studies, root surface conditioning with EDTA was performed in conjunction with the application of EMD, and, therefore, it cannot be excluded that the results may also be attributable to the effect of the root conditioning procedure. The purpose of this study was to determine the effect of root conditioning on the healing of intrabony defects treated with EMD. METHODS: Twenty-four patients, each of whom exhibited one deep intrabony defect…

AdultMaleTissue engineering and reconstructive surgery [UMCN 4.3]Bone RegenerationRoot surfaceOral Surgical ProceduresBleeding on probingAlveolar Bone LossDentistryDerivativeDental Enamel ProteinsDouble-Blind MethodmedicineHumansProspective StudiesTooth RootEdetic AcidChelating AgentsEnamel paintbusiness.industryChemistryOpen flap debridementAttachment levelGingival indexvisual_artvisual_art.visual_art_mediumPeriodonticsConditioningFemalePeriodontal Indexmedicine.symptombusiness
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Neutrophil‐mediated enhancement of angiogenesis and osteogenesis in a novel triple cell co‐culture model with endothelial cells and osteoblasts

2017

Repair and regeneration of critical‐sized bone defects remain a major challenge in orthopaedic and craniomaxillofacial surgery. Until now, attempts to bioengineer bone tissue have been hindered by the inability to establish proper angiogenesis and osteogenesis in the tissue construct. In the present study, we established a novel triple cell co‐culture model consisting of osteoblasts, endothelial cells, and neutrophils and conducted a systematic investigation of the effects of neutrophils on angiogenesis and osteogenesis. Neutrophils significantly increased angiogenesis in the tissue construct, evidenced by the formation of microvessel‐like structures with an extensive lattice‐like, stable t…

AdultMaleVascular Endothelial Growth Factor A0301 basic medicineTime FactorsNeutrophilsAngiogenesis0206 medical engineeringCellBiomedical EngineeringBone MatrixNeovascularization PhysiologicMedicine (miscellaneous)02 engineering and technologyMatrix metalloproteinaseBone tissueBone morphogenetic protein 2BiomaterialsYoung Adult03 medical and health sciencesCalcification PhysiologicTissue engineeringOsteogenesisHuman Umbilical Vein Endothelial CellsmedicineHumansViability assayCell ShapeBone growthOsteoblastsChemistryTransendothelial and Transepithelial Migration:Chemical engineering [Engineering]Middle Aged020601 biomedical engineeringCoculture TechniquesCell biology030104 developmental biologymedicine.anatomical_structureGene Expression RegulationFemaleAngiogenesisBiomarkersBiomedical engineeringJournal of Tissue Engineering and Regenerative Medicine
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RGD-mimic polyamidoamine-montmorillonite composites with tunable stiffness as scaffolds for bone tissue-engineering applications

2017

This paper reports on the development of montmorillonite (MMT)-reinforced hydrogels, based on a peptidomimetic polyamidoamine carrying guanidine pendants (AGMA1), as substrates for the osteo-induction of osteoblast precursor cells. AGMA1 hydrogels of various degrees of crosslinking responded favourably to MMT reinforcement, giving rise to composite hydrogels with shear storage modulus G', when fully swollen in water, up to 200 kPa, i.e. 20 times higher than the virgin hydrogels and of the same order or higher than other hydrogel-based composites proposed for orthopaedic applications. This significant improvement was ascribed to the effective interpenetration between the polymer matrix and t…

AgmatinepolyamidoaminesBiomedical EngineeringMedicine (miscellaneous)montmorilloniteBone and BonesCell LineBiomaterialsMicebone regenerationMaterials Testingmental disordersPolyaminesAnimalsBone regeneration; Composite; Montmorillonite; Osteo-inductive; Polyamidoamines; Biomedical Engineering; Medicine (miscellaneous); Biomaterialscompositeosteo-inductiveQMOsteoblastsTissue EngineeringTissue Scaffoldstechnology industry and agricultureHydrogelsBentoniteRBOligopeptides
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Perinatal stem cells patents and applications: Regenerative medicine, tissue repair, immune modulation

2013

Amniotic fluidAmniotic epitheliumSettore BIO/16 - Anatomia UmanaCellular therapyImmune modulationRegenerative medicineAmniotic membraneTissue engineeringPlacental stem cellPerinatal stem cellUmbilical cordMesenchymal stem cell
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Rapid vascularization of starchâ poly(caprolactone) in vivo by outgrowth endothelial cells in co-culture with primary osteoblasts

2011

The successful integration of in vitro-generated tissues is dependent on adequate vascularization in vivo. Human outgrowth endothelial cells (OECs) isolated from the mononuclear cell fraction of peripheral blood represent a potent population of circulating endothelial progenitors that could provide a cell source for rapid anastomosis and scaffold vascularization. Our previous work with these cells in co-culture with primary human osteoblasts has demonstrated their potential to form perfused vascular structures within a starch–poly(caprolactone) biomaterial in vivo. In the present study, we demonstrate the ability of OECs to form perfused vascular structures as early as 48 h following subcut…

AngiogenesisPolyestersPopulationBiomedical EngineeringNeovascularization PhysiologicMedicine (miscellaneous)02 engineering and technologyBiologyBiomaterialsNeovascularization03 medical and health sciencesTissue engineeringIn vivoIn vivomedicineHumansVimentinProgenitor celleducationCells CulturedCell Proliferation030304 developmental biologyPericyte0303 health scienceseducation.field_of_studyOsteoblastsScience & TechnologyOsteoblastEndothelial CellsOutgrowth endothelial cellStarchOsteoblast021001 nanoscience & nanotechnologyImmunohistochemistryCoculture Techniques3. Good healthCell biologyPlatelet Endothelial Cell Adhesion Molecule-1medicine.anatomical_structureBlood VesselsPericyteAngiogenesismedicine.symptomCo-culture0210 nano-technologyBiomedical engineering
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Heart valve tissue engineering: how far is the bedside from the bench?

2015

Heart disease, including valve pathologies, is the leading cause of death worldwide. Despite the progress made thanks to improving transplantation techniques, a perfect valve substitute has not yet been developed: once a diseased valve is replaced with current technologies, the newly implanted valve still needs to be changed some time in the future. This situation is particularly dramatic in the case of children and young adults, because of the necessity of valve growth during the patient's life. Our review focuses on the current status of heart valve (HV) therapy and the challenges that must be solved in the development of new approaches based on tissue engineering. Scientists and physicia…

Aortic valveHeart diseaseSwine030204 cardiovascular system & hematology0302 clinical medicineHeart valve tissue engineeringHyaluronic AcidChildProsthetic valve0303 health sciencesMARROW-DERIVED CELLSTissue ScaffoldsFetal BloodHeart Valves3. Good healthmedicine.anatomical_structureHeart Valve ProsthesisCardiologyMolecular MedicineCollagenmedicine.medical_specialtyPULMONARY VALVEBONE-MARROWInduced Pluripotent Stem CellsVENTRICULAR OUTFLOW TRACTMESENCHYMAL STEM-CELLS03 medical and health sciencesTissue scaffoldsInternal medicineEXTRACELLULAR-MATRIXmedicineAnimalsHumansHeart valveIntensive care medicineENDOTHELIAL PROGENITOR CELLSMolecular Biology030304 developmental biologyBioprosthesisAORTIC-VALVEFibrinSheepTissue Engineeringbusiness.industryEndothelial Cellsmedicine.diseaseTransplantationPulmonary valveUMBILICAL-CORD BLOOD1182 Biochemistry cell and molecular biologybusinessHUMAN AMNIOTIC-FLUIDExpert Reviews in Molecular Medicine
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Demixing time and temperature influence on porosity and interconnection of PLLA scaffolds prepared via TIPS

2009

Scaffolds suitable for tissue engineering applications were prepared by Thermally Induced Phase Separation (TIPS) starting from a ternary solution PLLA/ dioxane/water. The experimental protocol consisted of three consecutive steps, a first quench from the homogeneous solution to an appropriate demixing temperature (within the binodal region), a liquid-liquid demixing stage for a given time and a final quench from the demixing temperature to a low temperature (within the spinodal region). A large variety of morphologies, in terms of average pore size and interconnection were obtained upon modifying the demixing time and temperature, owing to the interplay of nucleation and growth processes d…

BinodalSpinodalChromatographyMaterials scienceChemical substancePolymers and PlasticsOrganic ChemistryNucleationCondensed Matter PhysicsChemical engineeringMetastabilityMaterials ChemistryTernary operationPorosityScience technology and societyTissue engineering TIPS Phase separation PLA
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New gellan gum-graft-poly(D,L-lactide-co-glycolide) copolymers as promising bioinks: Synthesis and characterization

2020

This research focused on the aim of tackling the urgent demand of printable biomaterials, hence we synthetized and characterized three gellan gum-graft-poly(d,l-lactide-co-glycolide) copolymers (GGm-PLGA a, b and c) which differed in the graft substitution degree. We investigated the effect of the polyester chain grafted onto hydrophilic backbone of gellan gum in terms of physicochemical properties and the ability of the system to print 3D cell laden constructs. In particular, we evaluated thermo-rheological, ionotropic crosslinking, shear thinning, swelling and stability properties of these copolymers and their derived biomaterials and findings related to the degree of functionalization. M…

Biocompatible Materials02 engineering and technologyBiochemistry03 medical and health scienceschemistry.chemical_compoundMicePolylactic Acid-Polyglycolic Acid CopolymerGraft copolymersStructural BiologyMaterials TestingmedicineCopolymerAnimalsMolecular Biology030304 developmental biologyMechanical Phenomena0303 health sciencesShear thinningTissue EngineeringChemistryPolysaccharides BacterialBioprintingGeneral Medicine3T3 Cells021001 nanoscience & nanotechnologyGellan gumPolyesterChemical engineeringSurface modificationPoly d l lactideInkPoly (DL-lactide-co-glycolide) (PLGA)Swellingmedicine.symptom0210 nano-technologyRheologyGellan gum (GG)
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Neural Crest-Derived Chondrocytes Isolation for Tissue Engineering in Regenerative Medicine

2020

Chondrocyte transplantation has been successfully tested and proposed as a clinical procedure aiming to repair articular cartilage defects. However, the isolation of chondrocytes and the optimization of the enzymatic digestion process, as well as their successful in vitro expansion, remain the main challenges in cartilage tissue engineering. In order to address these issues, we investigated the performance of recombinant collagenases in tissue dissociation assays with the aim of isolating chondrocytes from bovine nasal cartilage in order to establish the optimal enzyme blend to ensure the best outcomes of the overall procedure. We show, for the first time, that collagenase H activity alone …

BiologyRegenerative MedicineRegenerative medicineArticleChondrocyte03 medical and health sciencesChondrocytes0302 clinical medicineTissue engineeringmedicineAnimalsHumanscell transplantationlcsh:QH301-705.5030304 developmental biology0303 health sciencesnasal chondrocytesTissue Engineeringgene expression profilesCartilageNeural crestCell DifferentiationGeneral Medicinetissue dissociationIn vitro3. Good healthCell biologyTransplantationmedicine.anatomical_structurelcsh:Biology (General)Neural CrestcollagenasesCollagenaseCattle030217 neurology & neurosurgerymedicine.drugCells
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