29/2022 - Fumagalli, I.; Polidori, R.; Renzi, F.; Fusini, L.; Quarteroni, A.; Pontone, G.; Vergara, C.
Fluid-structure interaction analysis of transcatheter aortic valve implantation

22/2022 - Regazzoni, F.; Pagani, S.; Quarteroni, A.
Universal Solution Manifold Networks (USM-Nets): non-intrusive mesh-free surrogate models for problems in variable domains

20/2022 - Clementi, L.; Gregorio, C; Savarè, L.; Ieva, F; Santambrogio, M.D.; Sangalli, L.M.
A Functional Data Analysis Approach to Left Ventricular Remodeling Assessment

18/2022 - Bennati, L; Vergara, C; Giambruno, V; Fumagalli, I; Corno, A.F; Quarteroni, A; Puppini, G; Luciani, G.B
An image-based computational fluid dynamics study of mitral regurgitation in presence of prolapse

06/2022 - Pozzi, G.; Grammatica, B.; Chaabane, L.; Catucci, M.; Mondino, A.; Zunino, P.; Ciarletta, P.
T cell therapy against cancer: a predictive diffuse-interface mathematical model informed by pre-clinical studies

95/2021 - Di Gregorio, S.; Vergara, C.; Montino Pelagi, G.; Baggiano, A.; Zunino, P.; Guglielmo, M.; Fusini, L.; Muscogiuri, G.; Rossi, A.; Rabbat, M.G.; Quarteroni, A.; Pontone, G.
Prediction of myocardial blood flow under stress conditions by means of a computational model

86/2021 - Possenti, L.; Cicchetti, A.; Rosati, R.; Cerroni, D.; Costantino, M.L.; Rancati, T.; Zunino, P.
A Mesoscale Computational Model for Microvascular Oxygen Transfer

39/2021 - Barnafi, N.; Di Gregorio, S.; Dede', L.; Zunino, P.; Vergara, C.; Quarteroni, A.
A multiscale poromechanics model integratingmyocardial perfusion and systemic circulation

61/2020 - Pozzi, S.; Redaelli, A.; Vergara, C.; Votta, E.; Zunino, P.
Mathematical and numerical modeling of atherosclerotic plaque progression based on fluid-structure interaction

59/2020 - Massi, M.C.; Franco, N.R; Ieva, F.; Manzoni, A.; Paganoni, A.M.; Zunino, P.
High-Order Interaction Learning via Targeted Pattern Search

43/2020 - Dede’, L.; Regazzoni, F.; Vergara, C.; Zunino, P.; Guglielmo, M.; Scrofani, R.; Fusini, L.;Cogliati, C.; Pontone, G.; Quarteroni, A.
Modeling the effect of COVID-19 on the cardiac function: A computational study

30/2020 - Massi, M.C., Gasperoni, F., Ieva, F., Paganoni, A.M., Zunino, P., Manzoni, A., Franco, N.R., et al.
A deep learning approach validates genetic risk factors for late toxicity after prostate cancer radiotherapy in a REQUITE multinational cohort

13/2020 - Pozzi S.; Domanin M.; Forzenigo L.; Votta E.; Zunino P.; Redaelli A.; Vergara C.
A data-driven surrogate model for fluid-structure interaction in carotid arteries with plaque

49/2019 - Cicchetti, A.; Laurino, F.; Possenti, L.; Rancati, T.; Zunino, P.
In silico model of the early effects of radiation therapy on the microcirculation and the surrounding tissues

50/2019 - Lusi, V.; Moore, T. L.; Laurino, F.; Coclite, A.; Perreira, R.; Rizzuti, I.; Palomba, R.; Zunino, P.; Duocastella, M.; Mizrahy, S.; Peer, D.; Decuzzi, P.
A tissue chamber chip for assessing nanoparticle mobility in the extravascular space

48/2019 - Di Gregorio, S.; Fedele, M.; Pontone, G.; Corno, A.F.; Zunino, P.; Vergara, C.; Quarteroni, A.
A multiscale computational model of myocardial perfusion in the human heart

52/2018 - Possenti, L.; di Gregorio, S.; Gerosa, F.M.; Raimondi, G.; Casagrande, G.; Costantino, M.L.; Zunino, P.
A computational model for microcirculation including Fahraeus-Lindqvist effect, plasma skimming and fluid exchange with the tissue interstitium

34/2018 - Laurino, F.; Coclite, A.; Tiozzo, A.; Decuzzi, P.; Zunino, P.;
A muliscale computational approach for the interaction of functionalized nanoparticles with the miscrovasculature

35/2018 - Possenti, L.; Casagrande, G.; Di Gregorio, S.; Zunino, P.; Costantino, M.L.
Numerical simulations of the microvascular fluid balance with a non-linear model of the lymphatic system

42/2016 - Iannetti, L.; D'Urso, G.; Conoscenti, G.; Cutri, E.; Tuan, R.S.; Raimondi, M.T.; Gottardi, R.; Zunino, P.
Distributed and lumped parameter models for the characterization of high throughput bioreactors

43/2016 - Ambrosi, D.; Ciarletta, P.; De Falco, C.; Taffetani, M.; Zunino, P.
A multiscale modeling approach to transport of nano-constructs in biological tissues

08/2014 - Cattaneo, L; Zunino, P.
A computational model of drug delivery through microcirculation to compare different tumor treatments

25/2013 - Cattaneo, Laura; Zunino, Paolo
Computational models for coupling tissue perfusion and microcirculation

05/2013 - Caputo, M.; Chiastra, C.; Cianciolo, C.; Cutri , E.; Dubini, G.; Gunn, J.; Keller, B.; Zunino, P.;
Simulation of oxygen transfer in stented arteries and correlation with in-stent restenosis

04/2013 - Morlacchi, S.; Chiastra, C.; Cutrì, E.; Zunino, P.; Burzotta, F.; Formaggia, L.; Dubini, G.; Migliavacca, F.
Stent deformation, physical stress, and drug elution obtained with provisional stenting, conventional culotte and Tryton-based culotte to treat bifurcations: a virtual simulation study

40/2011 - D Angelo, C.; Zunino, P.; Porpora, A.; Morlacchi, S.; Migliavacca, F.
Model reduction strategies enable computational analysis of controlled drug release from cardiovascular stents

11/2011 - Formaggia, L.; Minisini, S.; Zunino, P.
Stent a rilascio di farmaco: una storia di successo per la matematica applicata

22/2009 - Formaggia, Luca; Minisini, Sara; Zunino, Paolo
Modeling erosion controlled drug release and transport phenomena in the arterial tissue

18/2009 - Silva Soares, Joao; Zunino, Paolo
A mathematical model for water uptake, degradation, erosion and drug release from degradable polydisperse polymeric networks

3/2008 - Zunino, Paolo; D'Angelo, Carlo; Petrini, Lorenza; Vergara, Christian; Capelli, Claudio; Migliavacca, Francesco
Numerical simulation of drug eluting coronary stents: mechanics, fluid dynamics and drug release

15/2007 - Vergara, Christian; Zunino, Paolo
Multiscale modeling and simulation of drug release from cardiovascular stents

MOX 93 - Migliavacca, Francesco.; Gervaso, Francesca; Prosi, Martin; Zunino, Paolo; Minisini, Sara; Formaggia, Luca; Dubini, Gabriele
Expansion and drug elution model of a coronary stent

MOX 82 - Corno, A.F.; Prosi, M.; Fridez, P.; Zunino, P.; Quarteroni, A.;von Segesser, L.K.
The non-circular shape of FloWatch®-PAB prevents the need for pulmonary