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Anke M Smits
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Anke M Smits
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Author's A straightforward guide to the basic science behind cardiovascular cell-based therapies.
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670
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Author's Bone-marrow-derived cells contribute to glomerular endothelial repair in experimental glomerulonephritis
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670
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Author's Cardiac Progenitor Cell-Derived Extracellular Vesicles Reduce Infarct Size and Associate with Increased Cardiovascular Cell Proliferation
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670
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Author's Cell migration in the cardiovascular system: a force to be reckoned with?
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670
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Author's Epicardium-Derived Heart Repair.
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670
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Author's Exosomes from Cardiomyocyte Progenitor Cells and Mesenchymal Stem Cells Stimulate Angiogenesis Via EMMPRIN.
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670
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Author's Foetal and adult cardiomyocyte progenitor cells have different developmental potential
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670
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Author's Glycosylated Cell Surface Markers for the Isolation of Human Cardiac Progenitors.
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670
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Author's Highlights of AHA Scientific Sessions 2018: a report from the Scientists of Tomorrow
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670
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Author's Highlights of ESC Congress 2019: a report from the ESC Scientists of Tomorrow
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670
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Author's Human cardiomyocyte progenitor cell transplantation preserves long-term function of the infarcted mouse myocardium
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670
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Author's Human cardiomyocyte progenitor cells differentiate into functional mature cardiomyocytes: an in vitro model for studying human cardiac physiology and pathophysiology.
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670
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Author's Human Cardiomyocyte Progenitor Cells in Co-culture with Rat Cardiomyocytes Form a Pro-arrhythmic Substrate: Evidence for Two Different Arrhythmogenic Mechanisms
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670
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Author's Human fetal and adult epicardial-derived cells: a novel model to study their activation.
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670
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Author's Impaired recruitment of HHT-1 mononuclear cells to the ischaemic heart is due to an altered CXCR4/CD26 balance
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670
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Author's In vivo and in vitro Approaches Reveal Novel Insight Into the Ability of Epicardium-Derived Cells to Create Their Own Extracellular Environment
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670
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Author's Inhibiting DPP4 in a mouse model of HHT1 results in a shift towards regenerative macrophages and reduces fibrosis after myocardial infarction
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670
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Author's Isolation and differentiation of human cardiomyocyte progenitor cells into cardiomyocytes
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670
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Author's Part and Parcel of the Cardiac Autonomic Nerve System: Unravelling Its Cellular Building Blocks during Development
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670
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Author's Progenitor cells isolated from the human heart: a potential cell source for regenerative therapy.
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670
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Author's Reactivating endogenous mechanisms of cardiac regeneration via paracrine boosting using the human amniotic fluid stem cell secretome
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670
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Author's Scientists on the Spot: Carol Ann Remme on her research and career
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670
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Author's Supporting data on in vitro cardioprotective and proliferative paracrine effects by the human amniotic fluid stem cell secretome
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670
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Author's TGF-beta1 induces efficient differentiation of human cardiomyocyte progenitor cells into functional cardiomyocytes in vitro
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670
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Author's The Derivation of Primary Human Epicardium-Derived Cells.
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670
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Author's The epicardium as a source of multipotent adult cardiac progenitor cells: Their origin, role and fate
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670
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Author's The epicardium as modulator of the cardiac autonomic response during early development.
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670
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Author's The Isolation and Culture of Primary Epicardial Cells Derived from Human Adult and Fetal Heart Specimens.
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670
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Author's The roadmap of WT1 protein expression in the human fetal heart
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670
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Author's The role of stem cells in cardiac regeneration.
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670
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Author's Therapeutic gene editing, making a point.
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670
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Author's Triggering Endogenous Cardiac Repair and Regeneration via Extracellular Vesicle-Mediated Communication
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670
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Author's Uncoupling DNA damage from chromatin damage to detoxify doxorubicin
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670
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wikidata authority control
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https://viaf.org/processed/ISNI|0000000392272910
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670
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wikidata authority control
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https://viaf.org/viaf/286292783
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670
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wikidata authority control
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(scopus) 8363206300
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(orcid) 0000000224438547
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straightforwardguidetothebasicsciencebehindcardiovascularcellbasedtherapies
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A straightforward guide to the basic science behind cardiovascular cell-based therapies.
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1
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919
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humanfetalandadultepicardialderivedcellsanovelmodeltostudytheiractivation
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Human fetal and adult epicardial-derived cells: a novel model to study their activation.
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1
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919
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impairedrecruitmentofhht1mononuclearcellstotheischaemicheartisduetoanalteredcxcr4cd26balance
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Impaired recruitment of HHT-1 mononuclear cells to the ischaemic heart is due to an altered CXCR4/CD26 balance
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1
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919
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invivoandinvitroapproachesrevealnovelinsightintotheabilityofepicardiumderivedcellstocreatetheirownextracellularenvironment
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In vivo and in vitro Approaches Reveal Novel Insight Into the Ability of Epicardium-Derived Cells to Create Their Own Extracellular Environment
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1
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919
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inhibitingdpp4inamousemodelofhht1resultsinashifttowardsregenerativemacrophagesandreducesfibrosisaftermyocardialinfarction
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Inhibiting DPP4 in a mouse model of HHT1 results in a shift towards regenerative macrophages and reduces fibrosis after myocardial infarction
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1
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isolationanddifferentiationofhumancardiomyocyteprogenitorcellsintocardiomyocytes
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Isolation and differentiation of human cardiomyocyte progenitor cells into cardiomyocytes
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partandparcelofthecardiacautonomicnervesystemunravellingitscellularbuildingblocksduringdevelopment
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Part and Parcel of the Cardiac Autonomic Nerve System: Unravelling Its Cellular Building Blocks during Development
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progenitorcellsisolatedfromthehumanheartapotentialcellsourceforregenerativetherapy
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Progenitor cells isolated from the human heart: a potential cell source for regenerative therapy.
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reactivatingendogenousmechanismsofcardiacregenerationviaparacrineboostingusingthehumanamnioticfluidstemcellsecretome
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Reactivating endogenous mechanisms of cardiac regeneration via paracrine boosting using the human amniotic fluid stem cell secretome
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Scientists on the Spot: Carol Ann Remme on her research and career
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supportingdataoninvitrocardioprotectiveandproliferativeparacrineeffectsbythehumanamnioticfluidstemcellsecretome
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Supporting data on in vitro cardioprotective and proliferative paracrine effects by the human amniotic fluid stem cell secretome
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tgfbeta1inducesefficientdifferentiationofhumancardiomyocyteprogenitorcellsintofunctionalcardiomyocytesinvitro
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TGF-beta1 induces efficient differentiation of human cardiomyocyte progenitor cells into functional cardiomyocytes in vitro
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highlightsofesccongress2019areportfromtheescscientistsoftomorrow
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Highlights of ESC Congress 2019: a report from the ESC Scientists of Tomorrow
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derivationofprimaryhumanepicardiumderivedcells
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The Derivation of Primary Human Epicardium-Derived Cells.
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epicardiumasasourceofmultipotentadultcardiacprogenitorcellstheiroriginroleandfate
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The epicardium as a source of multipotent adult cardiac progenitor cells: Their origin, role and fate
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epicardiumasmodulatorofthecardiacautonomicresponseduringearlydevelopment
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The epicardium as modulator of the cardiac autonomic response during early development.
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isolationandcultureofprimaryepicardialcellsderivedfromhumanadultandfetalheartspecimens
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The Isolation and Culture of Primary Epicardial Cells Derived from Human Adult and Fetal Heart Specimens.
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919
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roadmapofwt1proteinexpressioninthehumanfetalheart
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The roadmap of WT1 protein expression in the human fetal heart
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919
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roleofstemcellsincardiacregeneration
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The role of stem cells in cardiac regeneration.
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therapeuticgeneeditingmakingapoint
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Therapeutic gene editing, making a point.
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triggeringendogenouscardiacrepairandregenerationviaextracellularvesiclemediatedcommunication
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Triggering Endogenous Cardiac Repair and Regeneration via Extracellular Vesicle-Mediated Communication
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uncouplingdnadamagefromchromatindamagetodetoxifydoxorubicin
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Uncoupling DNA damage from chromatin damage to detoxify doxorubicin
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humancardiomyocyteprogenitorcelltransplantationpreserveslongtermfunctionoftheinfarctedmousemyocardium
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Human cardiomyocyte progenitor cell transplantation preserves long-term function of the infarcted mouse myocardium
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humancardiomyocyteprogenitorcellsdifferentiateintofunctionalmaturecardiomyocytesaninvitromodelforstudyinghumancardiacphysiologyandpathophysiology
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Human cardiomyocyte progenitor cells differentiate into functional mature cardiomyocytes: an in vitro model for studying human cardiac physiology and pathophysiology.
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humancardiomyocyteprogenitorcellsincoculturewithratcardiomyocytesformaproarrhythmicsubstrateevidencefor2differentarrhythmogenicmechanisms
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Human Cardiomyocyte Progenitor Cells in Co-culture with Rat Cardiomyocytes Form a Pro-arrhythmic Substrate: Evidence for Two Different Arrhythmogenic Mechanisms
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highlightsofahascientificsessions2018areportfromthescientistsoftomorrow
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Highlights of AHA Scientific Sessions 2018: a report from the Scientists of Tomorrow
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glycosylatedcellsurfacemarkersfortheisolationofhumancardiacprogenitors
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Glycosylated Cell Surface Markers for the Isolation of Human Cardiac Progenitors.
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exosomesfromcardiomyocyteprogenitorcellsandmesenchymalstemcellsstimulateangiogenesisviaemmprin
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Exosomes from Cardiomyocyte Progenitor Cells and Mesenchymal Stem Cells Stimulate Angiogenesis Via EMMPRIN.
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Epicardium-Derived Heart Repair.
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Cell migration in the cardiovascular system: a force to be reckoned with?
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cardiacprogenitorcellderivedextracellularvesiclesreduceinfarctsizeandassociatewithincreasedcardiovascularcellproliferation
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Cardiac Progenitor Cell-Derived Extracellular Vesicles Reduce Infarct Size and Associate with Increased Cardiovascular Cell Proliferation
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