Giovanna Tomaiuolo
Giovanna Tomaiuolo
Dipartimento di Ingegneria Chimica, UniversitÓ di Napoli Federico II
Verified email at
Cited by
Cited by
Biomechanical properties of red blood cells in health and disease towards microfluidics
G Tomaiuolo
Biomicrofluidics 8 (5), 051501, 2014
Red blood cell deformation in microconfined flow
G Tomaiuolo, M Simeone, V Martinelli, B Rotoli, S Guido
Soft Matter 5 (19), 3736-3740, 2009
Microfluidics analysis of red blood cell membrane viscoelasticity
G Tomaiuolo, M Barra, V Preziosi, A Cassinese, B Rotoli, S Guido
Lab on a Chip 11 (3), 449-454, 2011
Microconfined flow behavior of red blood cells in vitro
S Guido, G Tomaiuolo
Comptes Rendus Physique 10 (8), 751-763, 2009
Multi‐gene panel testing improves diagnosis and management of patients with hereditary anemias
R Russo, I Andolfo, F Manna, A Gambale, R Marra, BE Rosato, P Caforio, ...
American journal of hematology 93 (5), 672-682, 2018
Red blood cell clustering in Poiseuille microcapillary flow
G Tomaiuolo, L Lanotte, G Ghigliotti, C Misbah, S Guido
Physics of Fluids 24 (5), 051903, 2012
Start-up shape dynamics of red blood cells in microcapillary flow
G Tomaiuolo, S Guido
Microvascular research 82 (1), 35-41, 2011
Red blood cells affect the margination of microparticles in synthetic microcapillaries and intravital microcirculation as a function of their size and shape
R D'Apolito, G Tomaiuolo, F Taraballi, S Minardi, D Kirui, X Liu, ...
Journal of Controlled Release 217, 263-272, 2015
Emulsions in porous media: From single droplet behavior to applications for oil recovery
A Perazzo, G Tomaiuolo, V Preziosi, S Guido
Advances in colloid and interface science 256, 305-325, 2018
Microconfined flow behavior of red blood cells
G Tomaiuolo, L Lanotte, R D'Apolito, A Cassinese, S Guido
Medical engineering & physics 38 (1), 11-16, 2016
A continuous process for Buchwald–Hartwig amination at micro-, lab-, and mesoscale using a novel reactor concept
S Fal▀, G Tomaiuolo, A Perazzo, P Hodgson, P Yaseneva, J Zakrzewski, ...
Organic Process Research & Development 20 (2), 558-567, 2016
Comparison of two flow‐based imaging methods to measure individual red blood cell area and volume
G Tomaiuolo, D Rossi, S Caserta, M Cesarelli, S Guido
Cytometry Part A 81 (12), 1040-1047, 2012
Red blood cell dynamics in polymer brush-coated microcapillaries: A model of endothelial glycocalyx in vitro
L Lanotte, G Tomaiuolo, C Misbah, L Bureau, S Guido
Biomicrofluidics 8 (1), 014104, 2014
A new method to improve the clinical evaluation of cystic fibrosis patients by mucus viscoelastic properties
G Tomaiuolo, G Rusciano, S Caserta, A Carciati, V Carnovale, P Abete, ...
PloS one 9 (1), e82297, 2014
Palladium-N-heterocyclic carbene (NHC) catalyzed C–N bond formation in a continuous flow microreactor. Effect of process parameters and comparison with batch operation
A Pommella, G Tomaiuolo, A Chartoire, S Caserta, G Toscano, SP Nolan, ...
Chemical engineering journal 223, 578-583, 2013
Phase inversion emulsification
V Preziosi, A Perazzo, S Caserta, G Tomaiuolo, S Guido
Chemical Engineering 32, 2013
Blood linear viscoelasticity by small amplitude oscillatory flow
G Tomaiuolo, A Carciati, S Caserta, S Guido
Rheologica Acta 55 (6), 485-495, 2016
A methodology to study the deformability of red blood cells flowing in microcapillaries in vitro.
G Tomaiuolo, V Preziosi, M Simeone, S Guido, R Ciancia, V Martinelli, ...
Annali dell'Istituto superiore di sanitÓ 43 (2), 186-192, 2007
Agent-based modeling of ductal carcinoma in situ: application to patient-specific breast cancer modeling
P Macklin, J Kim, G Tomaiuolo, ME Edgerton, V Cristini
Computational Biology, 77-111, 2009
Microfluidic interactions between red blood cells and drug carriers by image analysis techniques
R D'Apolito, F Taraballi, S Minardi, X Liu, S Caserta, A Cevenini, ...
Medical engineering & physics 38 (1), 17-23, 2016
The system can't perform the operation now. Try again later.
Articles 1–20