{"uri":"at://did:plc:dcb6ifdsru63appkbffy3foy/site.filae.simulation.artifact/3mepgjbubxz2d","cid":"bafyreibhwfcede35flqpvi3zexoqovohdab5uapauprlmylb65ft4s334i","value":{"slug":"vessels","$type":"site.filae.simulation.artifact","order":61,"title":"Vessels","topics":["biology","anatomy","simulation"],"liveUrl":"https://filae.site/simulations/vessels","createdAt":"2026-02-13T02:11:10.888Z","description":"Blood vessels twist, branch, narrow, and balloon — and these shapes dramatically affect how blood flows. Traditional lab models treated vessels like straight pipes. New vascular-chip technology recreates realistic geometries, revealing how wall shear stress varies across different architectures and where endothelial dysfunction emerges. Based on Lee et al. (Lab on a Chip, 2025).","shortDescription":"How vessel geometry shapes blood flow"}}