Paolo Zunino


Professor

Phone:+39 02 2399 4530
Fax: +39 02 2399 4568
Office: Ed. 14 - Nave - VI floor
Email:

  • Available MOX Reports
  • Theses
  • Thesis Proposals
  • MOX Projects

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


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


Cerroni, D., Penati, M.; Porta, G.; Miglio, E.; Zunino, P.; Ruffo, P.
Multiscale modeling of glacial loading by a 3D Thermo-Hydro-Mechanical approach including erosion and isostasy


Cerroni, D.; Radu, A. R. ; Zunino, P.
Numerical solvers for a poromechanic problem with a moving boundary


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


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


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


Laurino, F; Zunino, P.
Derivation and analysis of coupled PDEs on manifolds with high dimensionality gap arising from topological model reduction


Zakerzadeh, R.; Zunino P.
A Computational Framework for Fluid-Porous Structure Interaction with Large Structural Deformation


Cerroni, D.; Laurino, F.; Zunino, P.
Mathematical analysis, finite element approximation and numerical solvers for the interaction of 3D reservoirs with 1D wells


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


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


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


Koeppl, T.; Vidotto, E.; Wohlmuth, B.; Zunino, P.
Mathematical modelling, analysis and numerical approximation of second order elliptic problems with inclusions


Giovanardi, B.; Formaggia, L.; Scotti, A.; Zunino P.
Unfitted FEM for modelling the interaction of multiple fractures in a poroelastic medium


Ambartsumyan, I.; Khattatov, E.; Yotov, I.; Zunino, P.
A Lagrange multiplier method for a Stokes-Biot fluid-poroelastic structure interaction model


Bukac, M.; Yotov, I.; Zunino, P.
DIMENSIONAL MODEL REDUCTION FOR FLOW THROUGH FRACTURES IN POROELASTIC MEDIA


Notaro, D.; Cattaneo, L.; Formaggia, L.; Scotti, A.; Zunino, P.
A Mixed Finite Element Method for Modeling the Fluid Exchange between Microcirculation and Tissue Interstitium


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


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


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


Cattaneo, L.; Formaggia, L.; Iori G. F.; Scotti, A,; Zunino, P.
Stabilized extended finite elements for the approximation of saddle point problems with unfitted interfaces


Cattaneo, Laura; Zunino, Paolo
Computational models for coupling tissue perfusion and microcirculation


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


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


Cutri', E.; Zunino, P.; Morlacchi, S.; Chiastra, C.; Migliavacca, F.
Drug delivery patterns for different stenting techniques in coronary bifurcations: a comparative computational study


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


Burman, E.; Zunino, P.;
Numerical Approximation of Large Contrast Problems with the Unfitted Nitsche Method


Porpora A., Zunino P., Vergara C., Piccinelli M.
Numerical treatment of boundary conditions to replace lateral branches in haemodynamics


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


Zunino, P.; Vesentini, S.; Porpora, A.; Soares, J.s.; Gautieri, A.; Redaelli, A.
Multiscale computational analysis of degradable polymers


D'angelo, Carlo; Zunino, Paolo
Numerical approximation with Nitsche s coupling of transient Stokes /Darcy s flow problems applied to hemodynamics


Sacco, Riccardo; Causin, Paola; Zunino, Paolo; Raimondi, Manuela T.
A multiphysics/multiscale numerical simulation of scaffold-based cartilage regeneration under interstitial perfusion in a bioreactor


Biscari, Paolo; Minisini, Sara; Pierotti, Dario; Verzini, Gianmaria; Zunino, Paolo
Controlled release with finite dissolution rate


D'angelo, Carlo; Zunino, Paolo
Robust numerical approximation of coupled Stokes and Darcy flows applied to vascular hemodynamics and biochemical transport


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


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


Zunino, Paolo
Numerical approximation of incompressible flows with net flux defective boundary conditions by means of penalty techniques


D'angelo, Carlo; Zunino, Paolo
A finite element method based on weighted interior penalties for heterogeneous incompressible flows


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


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


Zunino Paolo
Discontinuous Galerkin methods based on weighted interior penalties for second order PDEs with non-smooth coefficients


Ern, Alexandre; Stephansen, Annette F.; Zunino, Paolo
A Discontinuous Galerkin method with weighted averages for advection-diffusion equations with locally vanishing and anisotropic diffusivity


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


Burman, Erik; Zunino, Paolo
A domain decomposition method based on weighted interior penalties for advection-diffusion-reaction problems


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


Iheart,Eu Erc Advanced Grant
An Integrated Heart Model for the simulation of the cardiac function. The goal of the iHEART project is to construct, mathematically analyze, numerically approximate, computationally solve, and validate on clinically relevant cases a mathematically-based integrated heart model for the human cardiac function. The integrated model comprises several core cardiac models - electrophysiology, solid and fluid mechanics, microscopic cellular force generation, and valve dynamics - which are then coupled and finally embedded into the systemic and pulmonary blood circulations. It is a multiscale system of Partial Differential Equations and Ordinary Differential Equations featuring multiphysics interactions among the core models.

Mathcard,European Union
Development, analysis and computer implementation of mathematical models for the cardiovascular system

Iit,Istituto Italiano Di Tecnologia
Nanobiotechnology models and methods for local drug delivery from nano/micro structured materials

Stent,Fondazione Cariplo
Mathematical modeling of the drug release from a drug eluting stent into the arterial wall

Computational Models For Heterogeneous Media,Politecnico Di Milano - Fondo 5xmille
Application to microscale analysis of tissue engineered constructs