Grundlegende Konzepte der weichen Materie, um zu verstehen, wie der Blutfluss durch das mikrovaskuläre System das Gehirn mit Energie versorgt.

Über

The interplay between structure and transport is complex, especially when the structure is soft and deformable as is the case in most biological systems. A multidisciplinary approach is a prerequisite to elucidate this complex interplay between structure and external fields. In the past we made use of the toolbox of biological building blocks to study fundamental questions in soft matter, focusing on how flow is affected by structure and vice versa. We applied experimental techniques like in situ ultra-fast confocal microscopy and Small Angle neutron and X-ray scattering in combination with shear flow to access information on a single particle as well as ensemble level, facilitating direct comparison with theory and computer simulations. Presently, we apply these concepts to real life systems, such as the process of fueling up the brain. The brain is supplied with oxygen and nutrients via the microvascular network. To understand the flow through this network the complexity of the fluid, blood, as well as the geometry needs to be taken into account. We study the break up process of blood aggregates in complex flow by tuning the blood aggregation, while we map the brain vasculature into 3D microfluidic channels, using imaging from the Human Brain Project and the novel Scanning Laser Etching technique to produce the channels. This also allows us to program any flaws or locations for oxygen release.

Forschungsthemen

  • Strömungsverhalten
  • Biologische Flüssigkristalle
  • Mikrofluidik
  • Hämodynamik

Kontakt

Prof. Dr. M.P. Lettinga

IBI-4

Gebäude 04.6 / Raum 108

+49 2461/61-4515

E-Mail

Members

Projekte & Kooperationen
  • “Vorstandsdoktorand” with Timo Dickscheid (INM-1) and Knut Dahlhoff (ZEA-1): „3-D microfluidics to study break up of blood aggregates”.
  • Cooperation with Dmitry Fedosov (IBI-5), Olivera Korculanin (ER-C, former IBI-4), Christian Wagner (Uni. Saarland) and Remco Tuinier (TU Eindhoven) “Competition between cell deformation and depletion forces”.
  • Cooperation with Abhishek Cukkemane (IBI-7): „Investigating the role of a-syn and Ab mediated RBC aggregation in (non-)-cerebral amyloid angiopathy.”
  • GNeuS “Structure of complex fluids in extensional flow” mit Aurel Radulescu (IBI-8) and Christian Clasen (KU Leuven)
  • Lettinga is a part tim professor at KU Leuven (https://fys.kuleuven.be/zmb), where he is involved in the FWO project „Engineering a 3D controllable anisotropic platform for neurological research”.
Publikationen

Letzte Änderung: 09.01.2023