Search results for " scaffold"

showing 10 items of 279 documents

A53T-Alpha-Synuclein Overexpression Impairs Dopamine Signaling and Striatal Synaptic Plasticity in Old Mice

2010

BACKGROUND: Parkinson's disease (PD), the second most frequent neurodegenerative disorder at old age, can be caused by elevated expression or the A53T missense mutation of the presynaptic protein alpha-synuclein (SNCA). PD is characterized pathologically by the preferential vulnerability of the dopaminergic nigrostriatal projection neurons. METHODOLOGY/PRINCIPAL FINDINGS: Here, we used two mouse lines overexpressing human A53T-SNCA and studied striatal dysfunction in the absence of neurodegeneration to understand early disease mechanisms. To characterize the progression, we employed young adult as well as old mice. Analysis of striatal neurotransmitter content demonstrated that dopamine (DA…

AgingDopaminelcsh:MedicineMicechemistry.chemical_compoundHomer Scaffolding ProteinsReceptor Cannabinoid CB1lcsh:ScienceLong-term depressionNeurotransmitterChromatography High Pressure LiquidIn Situ Hybridization FluorescenceOligonucleotide Array Sequence AnalysisMice KnockoutNeuronal PlasticityMultidisciplinaryReverse Transcriptase Polymerase Chain ReactionDopaminergicNeurodegenerationGenetics and Genomics/Gene ExpressionElectrophysiologyalpha-SynucleinResearch ArticleRadioimmunoprecipitation Assaymedicine.medical_specialtyNeuronal Calcium-Sensor ProteinsHOMER1Substantia nigraNeurotransmissionBiologyNeurological DisordersInternal medicinemedicineAnimalsHumansddc:610Cyclic Nucleotide Phosphodiesterases Type 7Activating Transcription Factor 2lcsh:RNeuropeptidesmedicine.diseaseMolecular biologyCorpus StriatumMice Mutant StrainsEndocrinologyGenetics and Genomics/Disease ModelschemistrySynaptic plasticitylcsh:QCarrier ProteinsPLoS ONE
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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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Biomedical Applications of Polylactide (PLA) and Its Copolymers.

2018

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Anti-Infective AgentPolyestersMicrofluidicsPolyesterPharmaceutical ScienceBiocompatible Materials02 engineering and technology01 natural sciencesAnalytical ChemistryPolymerizationlcsh:QD241-441Nanoparticlelcsh:Organic chemistryAnti-Infective AgentsDrug DiscoveryCopolymerHumansPhysical and Theoretical ChemistryDrug CarrierBiocompatible MaterialDrug CarriersPolymer scienceTissue Scaffolds010405 organic chemistryChemistryOrganic Chemistry021001 nanoscience & nanotechnologyBone Diseases Infectious0104 chemical sciencesBone Diseases Infectioun/aEditorialMicrofluidicChemistry (miscellaneous)PeptideMolecular MedicineNanoparticles0210 nano-technologyPeptidesHumanMolecules (Basel, Switzerland)
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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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Improved Bone Regeneration Using Biodegradable Polybutylene Succinate Artificial Scaffold in a Rabbit Model

2022

The treatment of extensive bone loss represents a great challenge for orthopaedic and reconstructive surgery. Most of the time, those treatments consist of multiple-stage surgeries over a prolonged period, pose significant infectious risks and carry the possibility of rejection. In this study, we investigated if the use of a polybutylene succinate (PBS) micro-fibrillar scaffold may improve bone regeneration in these procedures. In an in vivo rabbit model, the healing of two calvarial bone defects was studied. One defect was left to heal spontaneously while the other was treated with a PBS scaffold. Computed tomography (CT) scans, histological and immunohistochemical analyses were performed …

Biomaterialsbone defectbone regenerationpolybutylene succinatemicrofibrillar scaffoldBiomedical Engineeringrabbitbone reconstructionpolybutylene succinate; microfibrillar scaffold; rabbit; bone reconstruction; bone regeneration; bone defect
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Dynamic Responsive Inguinal Scaffold Activates Myogenic Growth Factors Finalizing the Regeneration of the Herniated Groin

2022

Background: Postoperative chronic pain caused by fixation and/or fibrotic incorporation of hernia meshes are the main concerns in inguinal herniorrhaphy. As inguinal hernia is a degenerative disease, logically the treatment should aim at stopping degeneration and activating regeneration. Unfortunately, in conventional prosthetic herniorrhaphy no relationship exists between pathogenesis and treatment. To overcome these incongruences, a 3D dynamic responsive multilamellar scaffold has been developed for fixation-free inguinal hernia repair. Made of polypropylene like conventional flat meshes, the dynamic behavior of the scaffold allows for the regeneration of all typical inguinal components: …

Biomaterialstissue degeneration; regenerative scaffolds; tissue regeneration; muscle; muscle growth factors; neo-myogenesis; inguinal protrusion diseaseBiomedical Engineeringinguinal protrusion disease muscle muscle growth factors neo-myogenesis regenerative scaffolds tissue degeneration tissue regenerationJournal of Functional Biomaterials; Volume 13; Issue 4; Pages: 253
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3D bioprinting of tissue units with mesenchymal stem cells, retaining their proliferative and differentiating potential, in polyphosphate-containing …

2021

Abstract The three-dimensional (3D)-printing processes reach increasing recognition as important fabrication techniques to meet the growing demands in tissue engineering. However, it is imperative to fabricate 3D tissue units, which contain cells that have the property to be regeneratively active. In most bio-inks, a metabolic energy-providing component is missing. Here a formulation of a bio-ink is described, which is enriched with polyphosphate (polyP), a metabolic energy providing physiological polymer. The bio-ink composed of a scaffold (N,O-carboxymethyl chitosan), a hydrogel (alginate) and a cell adhesion matrix (gelatin) as well as polyP substantially increases the viability and the …

Biomedical EngineeringBioengineeringMatrix (biology)Biochemistrylaw.inventionBiomaterialsSOX2Tissue engineeringPolyphosphateslawCell adhesion3D bioprintingTissue EngineeringTissue ScaffoldsChemistryMesenchymal stem cellBioprintingMesenchymal Stem CellsGeneral MedicineCell biologybody regionsRUNX2Printing Three-DimensionalAlkaline phosphataseInkcirculatory and respiratory physiologyBiotechnologyBiofabrication
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Teachers' instructional scaffolding in an innovative information and communication technology-based history learning environment

2002

Abstract The nature of the role assumed by the teacher is crucial in the promotion of successful learning and collaboration in Information and Communication Technologybased (ICT-based) environments. The aim of this study was to examine how teachers with different conceptions of their teacher roles use different types of instructional scaffolding while working in an innovative learning environment. Our further aim was finding out how instructional scaffolding is related to learning activities of different kinds. The study was carried out at two secondary schools with a shared network-based learning environment. The results showed that teachers with different conceptions of the teacher's role…

Blended learningInstructional scaffoldingLearning environmentPedagogyActive learningComputingMilieux_COMPUTERSANDEDUCATIONEducational technologyPsychologyExperiential learningLearning sciencesInstructional simulationEducationTeacher Development
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Immunohistochemical Evaluation of Periodontal Regeneration Using a Porous Collagen Scaffold.

2021

(1) Aim: To immunohistochemically evaluate the effect of a volume-stable collagen scaffold (VCMX) on periodontal regeneration. (2) Methods: In eight beagle dogs, acute two-wall intrabony defects were treated with open flap debridement either with VCMX (test) or without (control). After 12 weeks, eight defects out of four animals were processed for paraffin histology and immunohistochemistry. (3) Results: All defects (four test + four control) revealed periodontal regeneration with cementum and bone formation. VCMX remnants were integrated in bone, periodontal ligament (PDL), and cementum. No differences in immunohistochemical labeling patterns were observed between test and control sites. N…

Bone sialoproteinPathologyBone RegenerationBiology (General)610 Medicine & healthSpectroscopyDental CementumbiologyTissue ScaffoldsChemistrybiomaterialGeneral MedicineEpithelial cell rests of MalassezComputer Science ApplicationsChemistrymedicine.anatomical_structureimmunohistochemistryKeratinsCollagenPorosityBlood vesselmedicine.medical_specialtyPeriodontal DebridementQH301-705.5Periodontal Ligament610 Medicine & healthvolume-stable collagen matrixCatalysisCollagen Type IArticleInorganic ChemistryhistologyDogsstomatognathic systemProliferating Cell Nuclear Antigenperiodontal regenerationmedicinePeriodontal fiberAnimalsIntegrin-Binding SialoproteinCementumPhysical and Theoretical Chemistryintrabony defectMolecular BiologyQD1-999Regeneration (biology)Organic ChemistryOpen flap debridementcollagen scaffoldHistologybiology.proteinGuided Tissue Regeneration PeriodontalCell Adhesion MoleculesInternational journal of molecular sciences
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The effect of human osteoblasts on proliferation and neo-vessel formation of human umbilical vein endothelial cells in a long-term 3D co-culture on p…

2008

Angiogenesis is a key element in early wound healing and is considered important for tissue regeneration and for directing inflammatory cells to the wound site. The improvement of vascularization by implementation of endothelial cells or angiogenic growth factors may represent a key solution for engineering bone constructs of large size. In this study, we describe a long-term culture environment that supports the survival, proliferation, and in vitro vasculogenesis of human umbilical vein endothelial cells (HUVEC). This condition can be achieved in a co-culture model of HUVEC and primary human osteoblasts (hOB) employing polyurethane scaffolds and platelet-rich plasma in a static microenvir…

CD31Umbilical VeinsTime FactorsMaterials scienceAngiogenesisCellular differentiationPolyurethanesBiophysicsFluorescent Antibody TechniqueNeovascularization PhysiologicBioengineeringUmbilical veinBiomaterialsVasculogenesismedicineHumansCells CulturedCell ProliferationMicroscopy ConfocalOsteoblastsTissue ScaffoldsReverse Transcriptase Polymerase Chain ReactionEndothelial CellsOsteoblastCoculture TechniquesCell biologyEndothelial stem cellPhenotypemedicine.anatomical_structureGene Expression RegulationMechanics of MaterialsImmunologycardiovascular systemCeramics and CompositesWound healingBiomarkersBiomaterials
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