Add to ORKGThe heart's continuous motion makes it difficult to capture high-resolution images of this organ in vivo. We developed tools based on high-speed selective plane illumination microscopy (SPIM), offering pristine views into the beating zebrafish heart. We captured three-dimensional cardiac dynamics with postacquisition synchronization of multiview movie stacks, obtained static high-resolution reconstructions by briefly stopping the heart with optogenetics and resolved nonperiodic phenomena by high-speed volume scanning with a liquid lens
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
3D fluorescence imaging is a fundamental tool in the study of functional and developmental biology, ...
3D fluorescence imaging is a fundamental tool in the study of functional and developmental biology, ...
We describe work on producing a selective plane illumination microscope for cardiac imaging in zebra...
We describe work on producing a selective plane illumination microscope for cardiac imaging in zebra...
We report an accurate method for studying the functional dynamics of the beating embryonic zebrafish...
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...
We have developed a high-speed and high-resolution multimodal nonlinear optical microscope, which ca...
We demonstrate the use of prospective gating from continuously acquired brightfield images of zebraf...
Three-dimensional fluorescence time-lapse imaging of the beating heart is extremely challenging, due...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
3D fluorescence imaging is a fundamental tool in the study of functional and developmental biology, ...
3D fluorescence imaging is a fundamental tool in the study of functional and developmental biology, ...
We describe work on producing a selective plane illumination microscope for cardiac imaging in zebra...
We describe work on producing a selective plane illumination microscope for cardiac imaging in zebra...
We report an accurate method for studying the functional dynamics of the beating embryonic zebrafish...
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...
We have developed a high-speed and high-resolution multimodal nonlinear optical microscope, which ca...
We demonstrate the use of prospective gating from continuously acquired brightfield images of zebraf...
Three-dimensional fluorescence time-lapse imaging of the beating heart is extremely challenging, due...
BackgroundIn the last few decades, zebrafish (Danio rerio) were introduced as a model organism to in...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...
Due to its optical clarity and rudimentary heart structure (i.e., single atrium and ventricle), the ...