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Thirugnanasambandam, Mirunalini; Frey, Sabrina; Rösch, Yannick; Mantegazza, Alberto; Clavica, Francesco; Schwartz, Robert S; Cesarovic, Nikola; Obrist, Dominik (2022). Effect of Collateral Flow on Catheter-Based Assessment of Cardiac Microvascular Obstruction. Annals of biomedical engineering, 50(9), pp. 1090-1102. Springer 10.1007/s10439-022-02985-2
Mantegazza, Alberto; Ungari, Matteo; Clavica, Francesco; Obrist, Dominik (2020). Local vs. Global Blood Flow Modulation in Artificial Microvascular Networks: Effects on Red Blood Cell Distribution and Partitioning. Frontiers in physiology, 11 Frontiers Research Foundation 10.3389/fphys.2020.566273
Mantegazza, Alberto; Clavica, Francesco; Obrist, Dominik (2020). In vitro investigations of red blood cell phase separation in a complex microchannel network. Biomicrofluidics, 14(1), 014101. American Institute of Physics 10.1063/1.5127840
Bucciarelli, Aurelia Lucilla; Mantegazza, Alberto; Obrist, Dominik (11 July 2022). Dynamics of lingering red blood cells in a diverging microchannel bifurcation (Unpublished). In: World Congress of Biomechanics 2022.
Mantegazza, Alberto; Clavica, Francesco; Obrist, Dominik (August 2020). In vitro analysis of time-dependent red blood cell phase separation in a complex microchannel network (Unpublished). In: XXV International Conference of Theoretical and Applied Mechanics. Milano, Italy. 23-28 August 2020.
Mantegazza, Alberto; Clavica, Francesco; Obrist, Dominik (27 October 2019). Microfluidic investigation of red blood cell phase separation in complex microchannel networks (Unpublished). In: 23rd International Conference on Miniaturized System for Chemistry and Life Sciences. Basel. 27-31 Oct 2019.
Mantegazza, Alberto; Clavica, Francesco; Obrist, Dominik (July 2018). Tubular pinch effect of red blood cells at low Reynolds number in in vitro models of microvascular bifurcations (Unpublished). In: World Congress of Biomechanics. Dublin, Ireland. July, 2018.
Mantegazza, Alberto; Clavica, Francesco; Obrist, Dominik (9 October 2017). In vitro measurements of apparent intrinsic viscosity in function of tube hematocrit and red blood cell velocity (Unpublished). In: Blood Flow: Current State and Future Prospects. Paris. 9.-11.10.2017.