Search results for "tissue engineering."

showing 10 items of 361 documents

Editorial Comment on: In Vitro Investigations of Tissue-Engineered Multilayered Urothelium Established from Bladder Washings

2008

Pathologymedicine.medical_specialtyTissue engineeredTissue engineeringbusiness.industryUrologymedicineTherapeutic irrigationUrotheliumbusinessIn vitroEuropean Urology
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Microvessel-like structures from outgrowth endothelial cells from human peripheral blood in 2-dimensional and 3-dimensional co-cultures with osteobla…

2007

Tissue regeneration involves complex processes in the interaction between different cell types that control the process of neo-vascularization. In bone, osteoblasts and bone marrow stem cells provide cue elements for the proliferation of endothelial cells, differentiation of endothelial precursors, and the maturation of a vascular network. In this study, we investigated outgrowth endothelial cells (OECs), a potential source of autologous endothelial cells derived from human peripheral blood, in direct 2-dimensional (2-D) and 3-D co-culture systems with cells relevant for the regeneration of bone tissue, such as osteoblasts. In the co-cultures, OECs were evaluated in terms of their stability…

Pathologymedicine.medical_specialtyeducation.field_of_studyCell typeOsteoblastsTissue EngineeringChemistryRegeneration (biology)MicrocirculationPopulationGeneral EngineeringBone Marrow Stem CellEndothelial CellsBone tissueCoculture TechniquesCell biologyEndothelial stem cellVasculogenesismedicine.anatomical_structuremedicineLeukocytes MononuclearHumanseducationMicrovesselCells CulturedTissue engineering
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Cardiac tissue engineering: a reflection after a decade of hurry

2014

The heart is a perfect machine whose mass is mainly composed of cardiomyocytes, but also fibroblasts, endothelial, smooth muscle, nervous, and immune cells are represented. One thousand million cardiomyocytes are estimated to be lost after myocardial infarction, their loss being responsible for the impairment in heart contractile function (Laflamme and Murry, 2005). The potential success of cardiac cell therapy relies almost completely on the ability of the implanted cells to differentiate toward mature cardiomyocytes. These cells must be able to reinforce the pumping activity of the injured heart in the absence of life-threatening arrhythmias due to electrophysiological incompatibility. Th…

Pathologymedicine.medical_specialtyheart regenerationPhysiologycardiac progenitor cellsClinical uses of mesenchymal stem cellsproto-tissueslcsh:PhysiologyTissue engineeringPhysiology (medical)MedicineInduced pluripotent stem cellStem cell transplantation for articular cartilage repairlcsh:QP1-981business.industryRegeneration (biology)Mesenchymal stem cellOpinion Articletissue engineeringscaffoldsStem cellbusinessNeurosciencecardiac progenitor cells proto-tissues heart regeneration tissue engineering scaffolds biomaterialsbiomaterialsAdult stem cell
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Mesenchymal dental stem cells in regenerative dentistry

2012

In the last decade, tissue engineering is a field that has been suffering an enormous expansion in the regenerative medicine and dentistry. The use of cells as mesenchymal dental stem cells of easy access for dentist and oral surgeon, immunosuppressive properties, high proliferation and capacity to differentiate into odontoblasts, cementoblasts, osteoblasts and other cells implicated in the teeth, suppose a good perspective of future in the clinical dentistry. However, is necessary advance in the known of growth factors and signalling molecules implicated in tooth development and regeneration of different structures of teeth. Furthermore, these cells need a fabulous scaffold that facility t…

Periodontal ligament stem cellsDentistryOdontologíaStem cellsRegenerative MedicineRegenerative medicineRegenerative dentistrystomatognathic systemTissue engineeringDental pulp stem cellsBiomaterials and Bioengineering in DentistryHumansMedicineTissue engineeringGeneral DentistryDental folliclebusiness.industryRegeneration (biology)Mesenchymal stem cellReview-Article:CIENCIAS MÉDICAS [UNESCO]Ciencias de la saludCell biologystomatognathic diseasesOtorhinolaryngologyDental stem cellsDentistryUNESCO::CIENCIAS MÉDICASMesenchymal stem cellsSurgeryStem cellbusinessToothMedicina Oral Patología Oral y Cirugia Bucal
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Cell therapy of periodontium: from animal to human?

2013

Periodontitis is a chronic inflammatory disease affecting the soft and hard tissues supporting the teeth, which often leads to tooth loss. Its significant impact on the patient's general health and quality of life point to a need for more effective management of this condition. Existing treatments include scaling/root planning and surgical approaches but their overall effects are relatively modest and restricted in application. The goal of regenerative therapy of periodontal defects is to enhance endogenous progenitors and thus promote optimal wound healing. Considering that the host or tissue might be defective in the periodontitis context, it has been proposed that grafting exogenous stem…

Periodontitislcsh:QP1-981clinical trials as topicbusiness.industryPhysiologyRegeneration (biology)DentistryContext (language use)Periodontiummedicine.diseaseBioinformaticsRegenerative medicinelcsh:PhysiologyCell therapyMini Review Articlebone regenerationPhysiology (medical)tissue engineeringmedicineStem cellbusinessBone regenerationmesenchymal stromal cellsperiodontitisFrontiers in Physiology
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Solution structure of recombinant Pvfp-5β reveals insights into mussel adhesion

2022

Solution structure of byssal plaque protein Pvfp-5 beta secreted by the Asian green mussel Perna viridis gives molecular insight into mussel adhesion on wet surfaces.Some marine organisms can resist to aqueous tidal environments and adhere tightly on wet surface. This behavior has raised increasing attention for potential applications in medicine, biomaterials, and tissue engineering. In mussels, adhesive forces to the rock are the resultant of proteinic fibrous formations called byssus. We present the solution structure of Pvfp-5 beta, one of the three byssal plaque proteins secreted by the Asian green mussel Perna viridis, and the component responsible for initiating interactions with the…

PernaEpidermal Growth FactorTissue EngineeringArtificial IntelligenceAdhesivesAnimalsMedicine (miscellaneous)Biocompatible MaterialsGeneral Agricultural and Biological SciencesGeneral Biochemistry Genetics and Molecular BiologyCommunications Biology
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Establishment of a pulmonary epithelial barrier on biodegradable poly-L-lactic-acid membranes

2019

Development of biocompatible and functional scaffolds for tissue engineering is a major challenge, especially for development of polarised epithelia that are critical structures in tissue homeostasis. Different in vitro models of the lung epithelial barrier have been characterized using non-degradable polyethylene terephthalate membranes which limits their uses for tissue engineering. Although poly-L-lactic acid (PLLA) membranes are biodegradable, those prepared via conventional Diffusion Induced Phase Separation (DIPS) lack open-porous geometry and show limited permeability compromising their use for epithelial barrier studies. Here we used PLLA membranes prepared via a modification of the…

PhysiologyCell MembranesCell Culture TechniquesBiocompatible Materials02 engineering and technologyEpitheliumTissue engineeringAnimal CellsAbsorbable ImplantsMaterials TestingElectric ImpedanceMedicine and Health SciencesLungTissue homeostasisBarrier functionStaining0303 health sciencesMultidisciplinaryTissue ScaffoldsTight junctionPolyethylene TerephthalatesChemistryQRCell Staining021001 nanoscience & nanotechnologyMembrane StainingElectrophysiologyMembranePhysical SciencesMedicineCytokinesBiological CulturesCellular Structures and OrganellesJunctional ComplexesCellular TypesAnatomy0210 nano-technologyResearch ArticleCell PhysiologySciencePolyestersMaterials ScienceMaterial PropertiesResearch and Analysis MethodsMembrane PotentialPermeabilityCell LineTight Junctions03 medical and health sciencesCell AdhesionHumans030304 developmental biologyBiochemistry Genetics and Molecular Biology (all)Tissue EngineeringBiology and Life SciencesEpithelial CellsMembranes ArtificialCell BiologyCell CulturesBiological TissueAgricultural and Biological Sciences (all)Specimen Preparation and TreatmentCell culturePermeability (electromagnetism)BiophysicsCytokine secretionPLOS ONE
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Composites poly-lactic acid - hydroxyapatite scaffolds prepared via Thermally Induced Phase Separation

2013

Poly Lactic Acid Tissue Engineering Phase Separation
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Preparation of Poly(l-lactic acid) Scaffolds by Thermally Induced Phase Separation: Role of Thermal History

2018

Abstract Poly-L-Lactic Acid (PLLA) scaffolds for tissue engineering were prepared via thermally induced phase separation of a ternary system PLLA/dioxane/tetrahydrofurane. An extension to solution of a previously developed method for solidification from the melt was adopted, the technique being based on a Continuous Cooling Transformation (CCT) approach, consisting in recording the thermal history of rapidly cooled samples and analysing the resulting morphology. Different foams were produced by changing the thermal history, the dioxane to THF ratio (50/50, 70/30, 90/10 v/v) and the polymer concentration (2, 2.5, 4 ° wt) in the starting ternary solution. Pore size, porosity, melting and crys…

Poly l lactic acidPore sizeMorphology (linguistics)Materials sciencePolymers and PlasticsBiocompatibilitySpinodal decompositionGeneral Chemical Engineering02 engineering and technology010402 general chemistryMEMBRANES01 natural sciencesSPINODAL DECOMPOSITIONIndustrial and Manufacturing EngineeringBIOCOMPATIBILITYPOROUS SCAFFOLDSTISSUE REGENERATIONTissue engineeringMaterials ChemistryPOLYMERIC SCAFFOLDSTernary numeral systemPORE-SIZECELL TRANSPLANTATION021001 nanoscience & nanotechnology0104 chemical sciencesMembraneChemical engineeringMORPHOLOGY0210 nano-technologyBEHAVIOR
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Preparation and characterization of PCL/GO-g-PEG biocomposite nanofiber scaffolds

2016

Biocomposite nanofiber scaffolds of polycaprolactone (PCL) with different graphene oxide surface grafted with poly(ethylene glycol) (GO-g-PEG) concentrations were prepared by electrospinning. Morphological, mechanical as well as wettability characterization were carried out. Results showed that the average diameter of PLA/GO-g-PEG electrospun nanofibers increased by increasing the filler content. GO-g-PEG enhanced the electrospun PCL hydrophilicity as well as the Young modulus, in particular at low GO-g-PEG concentrations.

PolycaprolactonePolyethylene glycolElectrospinningTissue engineeringGraphene oxide
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