A visualization of pulmonary vasculature processes simulated in computer models.
Our client launched a research facility that harnesses machine intelligence to mimic cell behaviors and function in-silico. This enables molecular model testing for efficacy and safety to proceed at speeds unachievable in a traditional wet lab setting.
The Newt team visualized the lab's computational simulations of pulmonary vasculature behavior-- from organ to cell to molecule. The viewer enters and departs the digitized lung through the bronchi, vessels, and endothelial lining. We depicted the design and testing of molecular analogs binding to receptor proteins, and the restoration of equilibrium in unhealthy vasculature. The animation was generated to loop seamlessly on the research facilities' monitors.
A hybrid of organic and stylized geometric forms with deep microscopic depth of field. Inspiration from Morpheus multicellular simulations
Please enjoy a window into our creative process from draft drawings and motion tests to final animation.
Beginning of 3D development and modeling -
Molecules, receptors, and cells
Heart, Pulmonary Vessels, and Bronchi 3D Model
Look and feel Work In Progress
Style frames of bronchi and vasculature
Some more motion tests
Final scene setup and animatics
Final scene style frames
Final composition in After Effects. Audio and Video setup.