Marianne Fenech
Affiliations: | Chemical and Biological Engineering | University of Ottawa, Ottawa, ON, Canada |
Area:
Biomedical Engineering, Chemical EngineeringGoogle:
"Marianne Fenech"
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Publications
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| Turcitu T, Armstrong CJK, Lee-Yow N, et al. (2023) Comparison of PDMS and NOA Microfluidic Chips: Deformation, Roughness, Hydrophilicity and Flow Performance. Micromachines. 14 |
| Chartrand C, Le AV, Fenech M. (2023) Micro-particle image velocimetry for blood flow in thick round glass micro-channels: Channel fabrication and velocity profile characterization. Methodsx. 10: 102110 |
| Sant S, Gouraud E, Boisson C, et al. (2023) Sublingual Microcirculation Specificity of Sickle Cell Patients: Morphology of the Microvascular Bed, Blood Rheology, and Local Hemodynamics. International Journal of Molecular Sciences. 24 |
| Fenech M, Le AV, Salame M, et al. (2023) Semi-automated red blood cell core detection in blood micro-flow. Microvascular Research. 147: 104496 |
| Le AV, Fenech M. (2022) Image-Based Experimental Measurement Techniques to Characterize Velocity Fields in Blood Microflows. Frontiers in Physiology. 13: 886675 |
| Stroobach M, Haya L, Fenech M. (2019) Effects of red blood cell aggregation on microparticle wall adhesion in circular microchannels. Medical Engineering & Physics |
| Fenech M, Girod V, Claveria V, et al. (2019) Microfluidic blood vasculature replicas using backside lithography. Lab On a Chip |
| Niazi E, McDonald JG, Fenech M. (2019) An automated method for size and velocity distribution measurement in a particle-laden flow Advances in Engineering Software. 134: 10-21 |
| Mehri R, Mavriplis C, Fenech M. (2018) Red blood cell aggregates and their effect on non-Newtonian blood viscosity at low hematocrit in a two-fluid low shear rate microfluidic system. Plos One. 13: e0199911 |
| Mehri R, Niazi E, Mavriplis C, et al. (2017) An automated method for dynamic red blood cell aggregate detection in microfluidic flow. Physiological Measurement |