An example of a multi-fenestrated septal defect.
Intact septal inserts were also created to help train septal puncture procedures.
This rendering shows the model with an attached LAA insert component, and a “blank” atrial insert. Both the LAA and atrial inserts were designed as multi-material parts to allow the main model to be rigid with focused areas flexible.
One very interesting project focused on flexible models that allowed for a voltage gradient across the atrial walls. Early tests included recreating the necessary anatomy with lattice structures - even with simple shapes, the polygon density exceede
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When rotated to portrait mode, the interface would disappear, leaving just the model and gantry angle display.
The interface consisted primarily of toggle controls - turning labels off in this case.
While the interface for the advanced version would have been similar to the Lite version in some aspects, the overall interface would have been more complicated given the substantial increase in anatomical structures incorporated into the 3D model.
Splash page graphic for Heart Voyager Lite.
A stylized rendering created as the image background in a PDF form for recording pulses.
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A simple rendering of a full left coronary tree reconstruction with mapped stent geometry. The red lines represent 3D markers, created during the reconstruction process to mark the location of the stent as visualized in fluoroscopy.
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Optimization of the aortic region from the initial mesh exported from CT. All initial processing was performed as a work-flow using multiple commercial software packages - the curves created in the work-flow were exported for analysis and computati
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