Add to ORKGDuring development, the heart tube comprises two cellular layers, an outer-myocardium and an inner-endocardium, between which lies a layer of extracellular matrix (ECM). This cardiac ECM creates specialised extracellular environments that mediate the chemical and biomechanical signals that shape the heart tube into a three-dimensional organ. Visualising and linking ECM and tissue morphology is challenging since sample processing may impact matrix hydration and tissue structure. To understand the spatiotemporal dynamics of the ECM and its role in cardiac morphogenesis, I developed morphoHeart, an image analysis tool that allows the 3D segmentation of the heart layers -including the ECM- from live embryos. Using morphoHeart, I identified an...
AbstractFormation of the embryonic heart tube requires the medial migration and merger of bilateral ...
Early stages of cardiac development are well conserved among vertebrates. However, later morphologic...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
Tissue morphogenesis requires co-ordination of changes in cell shape, gene expression and the integr...
Despite extensive research on cardiovascular development, much remains to be learned about the molec...
My PhD work employed genetic and pharmacological manipulations, coupled with highresolution live ima...
AbstractThe embryonic vertebrate heart is divided into two major chambers, an anterior ventricle and...
SummaryWe have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to in...
Many vertebrate organs are derived from monolayered epithelia that undergo morphogenesis to acquire ...
The vertebrate heart forms from two distinct progenitor populations called the First Heart Field (FH...
The heart is laterally asymmetric. Not only is it positioned on the left side of the body but the or...
AbstractRecent mutant analysis in zebrafish points to an important role for oriented cell division i...
Heart formation is a complex, dynamic and highly coordinated process of molecular, morphogenetic and...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
AbstractFormation of the embryonic heart tube requires the medial migration and merger of bilateral ...
Early stages of cardiac development are well conserved among vertebrates. However, later morphologic...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
Tissue morphogenesis requires co-ordination of changes in cell shape, gene expression and the integr...
Despite extensive research on cardiovascular development, much remains to be learned about the molec...
My PhD work employed genetic and pharmacological manipulations, coupled with highresolution live ima...
AbstractThe embryonic vertebrate heart is divided into two major chambers, an anterior ventricle and...
SummaryWe have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to in...
Many vertebrate organs are derived from monolayered epithelia that undergo morphogenesis to acquire ...
The vertebrate heart forms from two distinct progenitor populations called the First Heart Field (FH...
The heart is laterally asymmetric. Not only is it positioned on the left side of the body but the or...
AbstractRecent mutant analysis in zebrafish points to an important role for oriented cell division i...
Heart formation is a complex, dynamic and highly coordinated process of molecular, morphogenetic and...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...
AbstractFormation of the embryonic heart tube requires the medial migration and merger of bilateral ...
Early stages of cardiac development are well conserved among vertebrates. However, later morphologic...
We have used high-resolution 4D imaging of cardiac progenitor cells (CPCs) in zebrafish to investiga...