Laboratoire Charles Coulomb UMR 5221 CNRS/UM2 (L2C)

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- Microfluidic Study of Enhanced Deposition of Sickle Cells at Acute Corners doi link

Auteur(s): Massiera G., Loiseau E., Mendez Simon, Aguilar-Martinez Patricia, Abkarian M.(Corresp.)

(Article) Publié: Biophysical Journal, vol. 108 p.2623–2632 (2015)
Texte intégral en Openaccess : pubmedcentral


Ref HAL: hal-01164311_v1
PMID 26039164
DOI: 10.1016/j.bpj.2015.04.018
WoS: 000355668800004
Exporter : BibTex | endNote
14 Citations
Résumé:

Sickle cell anemia is a blood disorder, known to affect the microcirculation and is characterized by painful vaso-occlusive crises in deep tissues. During the last three decades, many scenarios based on the enhanced adhesive properties of the membrane of sickle red blood cells have been proposed, all related to a final decrease in vessels lumen by cells accumulation on the vascular walls. Up to now, none of these scenarios considered the possible role played by the geometry of the flow on deposition. The question of the exact locations of occlusive events at the microcirculatory scale remains open. Here, using microfluidic devices where both geometry and oxygen levels can be controlled, we show that the flow of a suspension of sickle red blood cells around an acute corner of a triangular pillar or of a bifurcation, leads to the enhanced deposition and aggregation of cells. Thanks to our devices, we follow the growth of these aggregates in time and show that their length does not depend on oxygenation levels; instead, we find that their morphology changes dramatically to filamentous structures when using autologous plasma as a suspending fluid. We finally discuss the possible role played by such aggregates in vaso-occlusive events.




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