Over the past few decades, Zebrafish has become a widely used vertebrate model for cardiovascular research. Easy genetic manipulation, low cost, high fecundity, embryonic transparency, and ability to survive in the early stages of development without active circulation are among the advantages of Zebrafish. Cardiac malformations can be induced through genetic manipulations for elucidating the influence of mechanobiological stimuli on the development and progress of the cardiovascular diseases. For this purpose, a reliable in vivo assessment of cardiac function and disturbed hemodynamics is required. Therefore, it is necessary to accurately determine the complex blood flow patterns and associated hemodynamic shear stresses within the develop...
The link between haemodynamics and cardiac tissue mechanics is an active area of research in develop...
<div><p>Blood flow and mechanical forces in the ventricle are implicated in cardiac development and ...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
The zebrafish has emerged to become a powerful vertebrate animal model for cardiovascular research i...
There are various zebrafish models with cardiovascular defects which adequately mimic the impaired c...
The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging field of st...
Still frame of depth-resolved (3D-2C) Particle Image Velocimetry analysis results using OpenPIV on S...
Depth-resolved (3D-2C) Particle Image Velocimetry analysis results using OpenPIV on Selective Plane ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
The development of a functional cardiovascular system ensures a sustainable oxygen, nutrient and hor...
RATIONALE: The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging ...
Over the past decade, the zebrafish has become an increasingly popular animal model for the study of...
Blood flow and mechanical forces in the ventricle are implicated in cardiac development and trabecul...
Significance: Real-time monitoring of the heart rate and blood flow is crucial for studying cardiova...
The link between haemodynamics and cardiac tissue mechanics is an active area of research in develop...
<div><p>Blood flow and mechanical forces in the ventricle are implicated in cardiac development and ...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
The zebrafish has emerged to become a powerful vertebrate animal model for cardiovascular research i...
There are various zebrafish models with cardiovascular defects which adequately mimic the impaired c...
The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging field of st...
Still frame of depth-resolved (3D-2C) Particle Image Velocimetry analysis results using OpenPIV on S...
Depth-resolved (3D-2C) Particle Image Velocimetry analysis results using OpenPIV on Selective Plane ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
The development of a functional cardiovascular system ensures a sustainable oxygen, nutrient and hor...
RATIONALE: The role of the endothelium in the pathogenesis of cardiovascular disease is an emerging ...
Over the past decade, the zebrafish has become an increasingly popular animal model for the study of...
Blood flow and mechanical forces in the ventricle are implicated in cardiac development and trabecul...
Significance: Real-time monitoring of the heart rate and blood flow is crucial for studying cardiova...
The link between haemodynamics and cardiac tissue mechanics is an active area of research in develop...
<div><p>Blood flow and mechanical forces in the ventricle are implicated in cardiac development and ...
Physical forces can influence the embryonic development of many tissues. Within the cardiovascular s...