Workshop on colloidal transport
Fri, July 10
10:00
Amphi OSUC
Schedule:
10:00 – Eleonora Secchi (Senior Scientist in the Department of Civil and Environmental Engineering at ETH Zürich). Biofilms as Living Soft Materials: Linking Mechanics, Microstructure, and Function
11:00 – Manouk Abkarian (CNRS Research Director at the Centre de Biologie Structurale in Montpellier)
Blood transport in vascular networks.
Biofilms as living soft materials: Linking mechanics, microstructure, and function
Enhanced rheological and molecular transport in microcirculatory-scale red cells suspension flows
Manouk Abkarian
Blood transport in the microcirculation is controlled by red blood cell (RBC) deformability, hematocrit, and laminar flow. Using complementary microfluidic experiments, we show that RBCs actively enhance both blood flow and molecular transport through nonlinear hydrodynamic interactions. Blood exhibits an adaptive rheology in which network resistance decreases with increasing pressure, following a universal scaling governed by RBC mechanics. RBCs also strongly enhance solute mixing, with maximal transport at physiological hematocrits and under aggregation. This transport is anomalous rather than Brownian and becomes largely independent of molecular size. These results establish RBCs as active regulators of both flow resistance and plasma transport, revealing anomalous (“sticky”) transport as an intrinsic feature of microcirculatory blood flow. Alterations in RBC deformability or aggregation are therefore expected to significantly affect tissue exchange, hemostasis, and drug delivery.