Search results for "Heart development"

showing 5 items of 5 documents

Chronic inflammation: A key role in degeneration of bicuspid aortic valve.

2019

Abstract Introduction Bicuspid aortic valve (BAV) is the most common congenital valvular heart defect resulting from abnormal aortic cusp formation during heart development, where two of the three normal and equal sized cusps fuse into a single large cusp resulting in a two cusps aortic valve. Over the past years, much interest has been given in understanding the pathogenesis of BAV and its complications. In this review, we focused on the role of inflammation, involved in the degeneration of BAV and the development of its complications. Role of inflammation From a pathophysiological point of view, BAV may rapidly progress into aortic stenosis (AS) and is related to aortopathy. Several histo…

0301 basic medicineAortic valveHeart Defects Congenitalmedicine.medical_specialtyBicuspid aortic valveCongenital valvular heart defectHeart Valve DiseasesInflammation030204 cardiovascular system & hematologyPathogenesis03 medical and health sciences0302 clinical medicineBicuspid aortic valveBicuspid Aortic Valve DiseaseInternal medicinemedicineHumanscardiovascular diseasesEndothelial dysfunctionMolecular BiologyInflammationHeart developmentNeovascularization Pathologicbusiness.industryCalcinosisChronic inflammationAortic Valve Stenosismedicine.diseaseStenosis030104 developmental biologymedicine.anatomical_structureAortic ValveChronic Diseasecardiovascular systemCardiologyAortic valve calcificationmedicine.symptombusinessCardiology and Cardiovascular MedicineJournal of molecular and cellular cardiology
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Primary culture of avian embryonic heart forming region cells to study the regulation of vertebrate early heart morphogenesis by vitamin A

2014

Background: Important knowledge about the role of vitamin A in vertebrate heart development has been obtained using the vitamin A-deficient avian in ovo model which enables the in vivo examination of very early stages of vertebrate heart morphogenesis. These studies have revealed the critical role of the vitamin A-active form, retinoic acid (RA) in the regulation of several developmental genes, including the important growth regulatory factor, transforming growth factor-beta2 (TGFβ2), involved in early events of heart morphogenesis. However, this in ovo model is not readily available for elucidating details of molecular mechanisms determining RA activity, thus limiting further examination o…

Early cardiovascular developmentVascular Endothelial Growth Factor AHeart morphogenesisRetinoic acidMorphogenesisEnzyme-Linked Immunosorbent AssayTretinoinChick EmbryoBiologyAvian ProteinsTissue Culture Techniqueschemistry.chemical_compoundTransforming Growth Factor beta2Gene expressionin vitro cultureRetinoic acidMorphogenesisAnimalsVitamin ACells CulturedGeneticsHomeodomain ProteinsEmbryonic heartHeart developmentGATA4Reverse Transcriptase Polymerase Chain ReactionTGFβ2MyocardiumGene Expression Regulation DevelopmentalHeartVitaminsChicken heart forming region cellsFibronectinsGATA4 Transcription Factor:NATURAL SCIENCES::Biology [Research Subject Categories]chemistryVertebratesDevelopmental biologyChickensDevelopmental BiologyResearch ArticleTranscription FactorsBMC Developmental Biology
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MicroRNA and Cardiac Stem Cell Therapy

2012

Cardiac Progenitor Cells (CPCs) are multipotent cells of the myocardium. They are located inside niches of the heart muscle, can be isolated, characterized and used for cardiac regeneration in stem cell therapy. Actually, CPCs may be isolated by tissue digestion with or without cell sorting, but it is difficult to achieve the maximum level of differentiation when these cells are implanted into a damaged myocardium. The knowledge recently acquired on small molecules of non-coding RNAs, microRNA (miRNA), may improve the use of these cells in stem cell therapy. In fact, these small molecules may be attached to devices or adminstered as they are or in combination with nanoparticles in order to …

Pathologymedicine.medical_specialtyHeart developmentmicroRNASettore BIO/16 - Anatomia UmanaRegeneration (biology)medicine.medical_treatmentCardiac muscleEpigeneticReprogrammingStem-cell therapyCell sortingBiologyCell biologyEndothelial stem cellCardiac stem cellmedicine.anatomical_structuremedicineStem cellCardiology and Cardiovascular MedicineReprogrammingHeart regeneration
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Tetralogy of Fallot as a Model to Study Cardiac Progenitor Cell Migration and Differentiation During Heart Development

2009

Tetralogy of Fallot (ToF) has long been considered a congenital disorder that occurs due to environmental alterations during gestation. Recently, several mutated genes have been discovered that are thought to be responsible for the malformations observed in ToF. These genetic mutations, which are microdeletions, are sporadic and are frequently also present in trisomy 21 patients. The ToF malformations can be lethal, but for the last 50 years, surgical repairs that place an artificial patch to repair the four features of ToF have improved the survival of patients with ToF. However, 0.5% to 6% of patients who survive after surgical repair of ToF die of sudden cardiac death caused by ventricul…

medicine.medical_specialtyOrganogenesisBiologyVentricular tachycardiaSudden cardiac deathHomeobox protein Nkx-2.5Cell MovementInternal medicinemedicineAnimalsHumansCell LineageCell ProliferationTetralogy of FallotHomeodomain ProteinsSurgical repairHeart developmentMyocardiumStem CellsGene Expression Regulation DevelopmentalCell DifferentiationToF Cardiac Stem Cellsmedicine.diseaseGATA4 Transcription Factormedicine.anatomical_structureVentricleMutationHomeobox Protein Nkx-2.5Tetralogy of FallotCardiologyCardiology and Cardiovascular MedicineTranscription FactorsCongenital disorderTrends in Cardiovascular Medicine
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Role of microRNAs in fetal heart development and in isolated cardiac progenitor cells

2012

microRNAfetal heart developmentSettore BIO/16 - Anatomia Umanacardiac progenitor cells
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