Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the zebrafish provides an excellent model for studying the genetic, morphological, and functional basis of normal and pathophysiological heart development in vivo. Recent advances in high-speed confocal imaging have made it possible to capture 2D zebrafish heart wall motions with temporal and spatial resolutions sufficient to characterize the highly dynamic intravital flow-structure environment. We have optimized protocols for introducing fluorescent tracer particles into the zebrafish cardiovasculature, imaging intravital heart wall motion, and performing high-resolution blood flow mapping that will be broadly useful in elucidating flow-structur...
Translucent zebrafish larvae represent an established model to analyze genetics of cardiac developme...
Over the past decade, the zebrafish has become an increasingly popular animal model for the study of...
Heart formation is a complex, dynamic and highly coordinated process of molecular, morphogenetic and...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
Over the past few decades, Zebrafish has become a widely used vertebrate model for cardiovascular re...
We report an accurate method for studying the functional dynamics of the beating embryonic zebrafish...
Detailed studies of heart development and function are crucial for our understanding of cardiac fail...
The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging field of st...
RATIONALE: The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging ...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
There are various zebrafish models with cardiovascular defects which adequately mimic the impaired c...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
Confocal microscopy enables us to track myocytes in the embryonic zebrafish heart. The Zeiss LSM 5 L...
<div><p>Physical forces can influence the embryonic development of many tissues. Within the cardiova...
Translucent zebrafish larvae represent an established model to analyze genetics of cardiac developme...
Over the past decade, the zebrafish has become an increasingly popular animal model for the study of...
Heart formation is a complex, dynamic and highly coordinated process of molecular, morphogenetic and...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
Over the past few decades, Zebrafish has become a widely used vertebrate model for cardiovascular re...
We report an accurate method for studying the functional dynamics of the beating embryonic zebrafish...
Detailed studies of heart development and function are crucial for our understanding of cardiac fail...
The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging field of st...
RATIONALE: The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging ...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
There are various zebrafish models with cardiovascular defects which adequately mimic the impaired c...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
Confocal microscopy enables us to track myocytes in the embryonic zebrafish heart. The Zeiss LSM 5 L...
<div><p>Physical forces can influence the embryonic development of many tissues. Within the cardiova...
Translucent zebrafish larvae represent an established model to analyze genetics of cardiac developme...
Over the past decade, the zebrafish has become an increasingly popular animal model for the study of...
Heart formation is a complex, dynamic and highly coordinated process of molecular, morphogenetic and...