This video was made for illustrative purposes, to show what can be done. I am not a medical scientist, nor a medical professional. I simply develop software. It is up to the user to use the right settings for the simulation to be correct.
Hello! Thanks for the comment. Only the aorta is made of polygons. The rest is volume data imported from medical imaging, DICOM files. No modeling was needed. The software, VoluMedic created the mesh for the aorta directly from the volume data. Normally I just do everything as volume renderings straight from the data, like the skulls in the videos here are as well. But this time I had to be inside the aorta, which was filled with contrast agent and I needed a collision object for the particles.
Why all people use a hematocrit value that is about a factor of 10 to low?
Wolfenkuni 2 months ago
@Wolfenkuni
This video was made for illustrative purposes, to show what can be done. I am not a medical scientist, nor a medical professional. I simply develop software. It is up to the user to use the right settings for the simulation to be correct.
USSSkipjack 2 months ago
This is animation, not simulation I guess. Nice work.
AlwaysAndForeverPFC 3 months ago
how many polygons is this?
And if you know how to make a skull, can you do a tutorial
AvidGrad2013 2 years ago
Hello! Thanks for the comment. Only the aorta is made of polygons. The rest is volume data imported from medical imaging, DICOM files. No modeling was needed. The software, VoluMedic created the mesh for the aorta directly from the volume data. Normally I just do everything as volume renderings straight from the data, like the skulls in the videos here are as well. But this time I had to be inside the aorta, which was filled with contrast agent and I needed a collision object for the particles.
USSSkipjack 2 years ago