List
of Publications
Publications in peer-reviewed journals
A. Karabis,
N. Kafoussias, M.
Xenos, “Numerical study of the
combined free forced convective boundary layer flow through a highly permeable
porous medium”, Mechanics Research Communication, 22(5):503-510, 1995.
N. Kafoussias,
A. Karabis, M.
Xenos, “Numerical study of
two-dimensional laminar boundary layer compressible flow with pressure gradient
and heat and mass transfer”, International Journal of Engineering Science,
37:1795-1812, 1999.
N.G. Kafoussias
and M.A. Xenos, “Numerical investigation of two-dimensional turbulent boundary layer
compressible flow with adverse pressure gradient and heat and mass transfer”,
Acta Mechanica, 141(3-4):201-223, 2000.
M. Xenos, N.
Kafoussias and G. Karahalios, “Magnetohydrodynamic
compressible laminar boundary layer adiabatic flow with adverse pressure
gradient and continuous or localized mass transfer”, Canadian Journal of
Physics, 79:1247-1263, 2001.
E. Tzirtzilakis, M. Xenos, V. Marinakis, T.C. Bountis, “Interactions
and Stability of Solitary Waves in Shallow Water”, Chaos, Solitons and
Fractals, 14:87-95, 2002.
M. Xenos, S. Dimas and N. Kafoussias,
“MHD compressible turbulent boundary layer flow with adverse pressure
gradient”, Acta Mechanica, 177(1-4):171-190, 2005.
A.A. Linninger, C. Tsakiris,
D.C. Zhu, M. Xenos, P. Roycewicz, Z.
Danziger, and R. Penn, “Pulsatile cerebrospinal fluid dynamics in the human
brain”, IEEE Transactions on Biomedical Engineering, 52(4):557-565, 2005.
D. Zhu, M. Xenos,
A.A. Linninger, and R. Penn, “Dynamics of
Lateral Ventricle and Cerebrospinal Fluid in Normal and Hydrocephalic Brains”,
Journal of Magnetic Resonance Imaging, 24:756-770, 2006.
A.A. Linninger, M. Xenos, D. Zhu, MB.R. Somayaji, S.
Kondapalli and R. Penn, “Cerebrospinal Fluid Flow in the Normal and
Hydrocephalic Human Brain”, IEEE Transactions on Biomedical Engineering,
54(2):291-302, 2007.
E.E. Tzirtzilakis, M. Xenos, V.C. Loukopoulos and N.G. Kafoussias, “Turbulent biomagnetic fluid flow in a rectangular channel under the
action of a localized magnetic field”, International
Journal of Engineering Science, 44:1205-1224, 2006.
L. Zhang, K. Kulkarni, M.B.R Somayaji, M. Xenos, and A.A. Linninger,
“Discovery of Transport and Reaction
Properties in Distributed Systems”, AIChE Journal, 53(2):381-396, 2007.
MB.R. Somayaji, M. Xenos, L. Zhang,
M. Mekarski and
A.A. Linninger, “Systematic Design of Drug Delivery Therapies”, Computers & Chemical Engineering, 32:39-98, 2008.
M. Xenos, E. Tzirtzilakis and N. Kafoussias, “Methods of optimizing separation of
compressible turbulent boundary-layer over a wedge with heat and mass transfer”, International Journal of Heat and Mass
Transfer, 52(1-2):488-496, 2009.
A.A. Linninger, M. Xenos, B. Sweetman, S. Ponkshe, X.
Guo and R. Penn, “A mathematical model
of blood, cerebrospinal fluid and brain dynamics”, Journal of Mathematical
Biology, 59:729-759, 2009.
J.J. Ricotta, J. Pagan, M. Xenos, Y. Alemu, S. Einav, D. Bluestein, “Cardiovascular disease management: The need for better diagnostics”,
Medical & Biological Engineering & Computing, 46(11):1059-1068, 2008.
T. Yamaguchi, T. Ishikawa, Y. Imai, N. Matsuki, M. Xenos, Y. Deng, D. Bluestein, “Particle Based Methods for Multiscale
Modeling of Blood Flow in the Circulation and in Devices: Challenges and Future
Directions”, Annals of Biomedical Engineering, 38(3):1225-1235, 2010.
M. Xenos, G. Girdhar, Y. Alemu, J. Jesty, M. Slepian, S.
Einav, D. Bluestein, “Device Thrombogenicty Emulator (DTE) − Design optimization
Methodology for Cardiovascular Devices: A Study in Two Bileaflet
MHV Designs”, Journal of Biomechanics, 43(12):2400-2409,
2010.
Y. Alemu, G. Girdhar, M. Xenos, J. Sheriff, J. Jesty, S. Einav, D. Bluestein, “Design Optimization of a Mechanical Heart
Valve for Reducing Valve Thrombogenicity – A Case Study with ATS valve”,
ASAIO Journal, 56(5):389-396, 2010.
M. Xenos, S.H. Rambhia, Y. Alemu, S.
Einav, N. Labropoulos, A. Tassiopoulos,
J.J. Ricotta, D. Bluestein, “Patient-Based
Abdominal Aortic Aneurysm Rupture Risk Prediction with Fluid Structure
Interaction Modeling”, Annals of Biomedical Engineering, 38(11):3323–3337, 2010.
M. Xenos, Y Alemu, D. Zamfir, S. Einav, J.J. Ricotta, N. Labropoulos, A. Tassiopoulos, D.
Bluestein, “The effect of angulation in
abdominal aortic aneurysms: fluid–structure interaction simulations of
idealized geometries”, Medical & Biological Engineering &
Computing, 48(12):1175-1190, DOI: 10.1007/s11517-010-0714-y, 2010.
B. Sweetman, M.
Xenos, L. Zitella, and A.A. Linninger,
“Three-dimensional computational
prediction of cerebrospinal fluid flow in the human brain”, Computers in
Biology and Medicine, 41(2):67-75, 2011.
R. Feng, M.
Xenos, G. Girdhar, J.W. Davenport, Y. Deng, D. Bluestein, “Viscous Flow Simulation in a Stenosis
Model Using Discrete Particle Dynamics: A Comparison between DPD and CFD”,
Biomechanics and Modeling in Mechanobiology, 11(1-2):119-129, DOI:
10.1007/s10237-011-0297-z, 2011.
F. Delis, H. Benveniste, M. Xenos, D. Grandy, G-J Wang, N.D. Volkow and P.K. Thanos, “Loss of dopamine D2 receptors induces
atrophy in the temporal and parietal cortices and the caudal thalamus of
ethanol consuming mice”, Alcoholism: Clinical and Experimental Research
Journal, 36(5):815-825, DOI: 10.1111/j.1530-0277.2011.01667.x, 2012.
S.H. Rambhia, X. Liang, M. Xenos, Y. Alemu, N. Maldonado, A.
Kelly, S. Chakraborti, S. Weinbaum, L. Cardoso, S. Einav, D. Bluestein, “Microcalcifications Increase Coronary
Vulnerable Plaque Rupture Potential: A Patient-Based Micro-CT Fluid-Structure
Interaction Study”, Annals of Biomedical Engineering, 40(7):1443-1454, DOI:
10.1007/s10439-012-0511-x, 2012.
G. Girdhar, M.
Xenos, Y. Alemu, W.-C. Chiu, B.E. Lynch, J. Jesty, S. Einav, M.J. Slepian
and D. Bluestein, “Device
Thrombogenicity Emulation: A Novel Method for Optimizing Mechanical Circulatory
Support Device Thromboresistance”, PLoS One,
7(3):e32463, 2012.
M. Xenos, S. Dimas and A. Raptis, “MHD and thermal radiation of an optically thin gray fluid in the
presence of an induced magnetic field”, Advances and Applications in Fluid
Mechanics, 11(2):73-85, 2012.
D.A. Peter, Y. Alemu, M. Xenos, O. Weisberg, I. Avnery, D. Bluestein, “Fluid structure interaction with contact
surface methodology for evaluation of endovascular carotid implants for
drug-resistant hypertension treatment”, Journal of Biomechanical
Engineering, 134(4):041001, 2012.
E.E. Tzirtzilakis and M.A. Xenos, “Biomagnetic fluid flow in a driven cavity”, Meccanica, 48(1):187-200, 2013.
X. Liang, M.
Xenos, Y. Alemu, S.H. Rambhia, I Lavi, R.
Kornowski, L. Gruberg, S. Einav, D. Bluestein, “Biomechanical Factors in Coronary
Vulnerable Plaques Risk of Rupture: Intravascular Ultrasound-Based Patient
Specific Fluid Structure Interaction Studies”, Coron. Artery Dis.
24(2):75-87, 2013.
M. Xenos, S. Dimas and A. Raptis, “MHD free convective flow of water near 4oC past a vertical
moving plate with constant suction”, Applied Mathematics (AM), 4(1):52-57,
DOI: 10.4236/am.2013.41010, 2013.
J. Sheriff, J.S. Soares, M. Xenos, J. Jesty, D. Bluestein, “Evaluation of Shear-Induced Platelet Activation Models Under Constant
and Dynamic Shear Stress Loading Conditions Relevant to Devices”, Ann
Biomed Eng, 41(6):1279-1296, DOI:10.1007/s10439-0758-x, 2013.
T.E. Claiborne, M.
Xenos, J. Sheriff, W.-C. Chiu, D. Peter, J. Soares, Y. Alemu, S. Gupta, S.
Judex, M.J. Slepian, D. Bluestein, “Toward
Optimization of a Novel Trileaflet Polymeric
Prosthetic Heart Valve via Device Thrombogenicity Emulation”, ASAIO,
59(3):275-83, 2013.
M. Xenos, D. Karakitsos, N. Labropoulous, A. Tassiopoulous,
T.V. Bilfinger, D. Bluestein, “Comparative
Study of Flow in Right-Sided and Left-Sided Aortas: Numerical Simulations in
Patient Based Models”, Computer Methods in Biomechanics and Biomedical,
18(4): 414-425, 2015.
M. Xenos, “Radiation
Effects on Flow past a Stretching Plate with Temperature Dependent Viscosity”,
Applied Mathematics (AM), Special Issue NLS, 4(9Α):1-5, DOI:
10.4236/am.2013.49A001, Invited paper,
2013.
M. Xenos and E. Tzirtzilakis, “MHD effects on blood flow in a stenosis”, Advances in Dynamical
Systems and Applications, 8(2):427–437, 2013.
A. Raptis, M.
Xenos, E. Tzirtzilakis and M. Matsagkas, “Finite element analysis of
magnetohydrodynamic effects on blood flow in an aneurysmal geometry”,
Physics of Fluids, 26, 101901, 2014.
W.-C. Chiu, G. Girdhar, M. Xenos, Y. Alemu, J.S. Soares, S. Einav, M.J. Slepian, D.
Bluestein, “Thromboresistance Comparison
of the HeartMate II Ventricular Assist Device (VAD) with the Device
Thrombogenicity Emulation (DTE)-Optimized HeartAssist
5 VAD”, Journal of Biomechanical Engineering, 136(2):021014, 2014.
E. Georgakarakos, C. Gasser,
M. Xenos, N. Kontopodis,
G. S. Georgiadis, and C. V. Ioannou, “Applying
Findings of Computational Studies in Vascular Clinical Practice: Fact, Fiction,
or Misunderstanding?” Journal of Endovascular Therapy, 21: 434-438, 2014.
A. Raptis, M.
Xenos, M. Peroulis, E. Georgakarakos,
A. Giannoukas, N. Labropoulos,
M. Matsagkas, “The
impact of endovascular repair of abdominal aortic aneurysms on hemodynamic
flow: a comparison of the preoperative and postoperative biomechanical
properties”, Journal of Vascular and Endovascular Surgery, 29-36, 2014.
M. Xenos, N. Labropoulos, S. Rambhia, Y. Alemu, S. Einav, A. Tassiopoulos,
N. Sakalihasan and D. Bluestein, “Progression of Abdominal Aortic Aneurysm Towards Rupture: Refining
Clinical Risk Assessment Using a Fully Coupled Fluid–Structure Interaction
Method”, Annals of Biomedical Engineering, 43(1):139-153, 2015.
E. Georgakarakos, A. Raptis,
N. Schoretsanitis, T. Bisdas,
E. Beropoulis, G.S. Georgiadis, M. Matsagkas and M.
Xenos, “Studying the interaction of
endovascular stent-grafts and treated abdominal aortic aneurysms: time to move
caudally!” Journal of Endovascular Therapy, 22(3):413-420, 2015.
M. Xenos and A. Raptis, “Magnetohydrodynamic
effects on the granular temperature of red blood cells in microvasculature”,
Journal of Mechanics in Medicine and Biology, 17(1):1750003-1 - 1750003-9,
2017.
A. Raptis, M.
Xenos, S. Dimas, A. Giannoukas, N. Labropoulose, D. Bluestein, M. Matsagkas,
“Effect of macroscale formation of
intraluminal thrombus on blood flow in abdominal aortic aneurysms”,
Computer Methods in Biomechanics and Biomedical Engineering, 19(1):84-92, 2016.
Malatos
A. Raptis and M. Xenos, “Advances in Low-Dimensional Mathematical
Modeling of the Human Cardiovascular System”, Journal of Hypertension and
Management, 2(2): 1-10, ISSN: 2474-3690, invited
paper, 2016.
A. Raptis, M.
Xenos, E. Georgakarakos, G. Kouvelos,
A. Giannoukas, N. Labropoulos,
M. Matsagkas, “Comparison
of physiological and post-endovascular aneurysm repair infrarenal blood flow”,
Computer Methods in Biomechanics and Biomedical Engineering, 20(3): 242–249,
2017.
A. Raptis, M.
Xenos, E. Georgakarakos, G. Kouvelos,
A. Giannoukas and M. Matsagkas,
“Hemodynamic profile of two aortic
endografts accounting for their post-implantation position”, ASME Journal
of Medical Devices, 11(2): 021003, 2017.
M. Xenos and I. Pop, “Radiation
effect on the turbulent compressible boundary layer flow with adverse pressure
gradient”, Applied Mathematics and Computation, 299: 153-164, 2017.
M. Xenos, “Thermal
Radiation Effect on the MHD Turbulent Compressible Boundary Layer Flow with
Adverse Pressure Gradient, Heat Transfer and Local Suction”, Open Journal
of Fluid Dynamics, 7: 1-14, invited
paper, 2017.
M. A. Xenos, “An
Euler–Lagrange approach for studying blood flow in an aneurysmal geometry”, Proceedings
of the Royal Society A, 473: 20160774,
http://dx.doi.org/10.1098/rspa.2016.0774, 2017.
A. Raptis, M.
Xenos, G. Kouvelos, A. Giannoukas,
M. Matsagkas,
“Hemodynamic performance of AFX and NELLIX endografts: a computational fluid
dynamics study”, Interactive Cardiovascular and Thoracic Surgery, 26(5):
826-833, 2018.
P. Tasso, A. Raptis, M. Matsagkas,
M.L. Rizzini, D. Gallo, M. Xenos and U. Morbiducci, “Abdominal aortic aneurysm endovascular
repair: profiling post-implantation morphometry and hemodynamics with
image-based computational fluid dynamics”, ASME Journal of Biomechanical
Engineering, 2018, doi:10.1115/1.4040337.
A. Raptis, M.
Xenos, K. Spanos, G. Kouvelos, A. Giannoukas, M. Matsagkas “Endograft-specific hemodynamics after
endovascular aneurysm repair: flow diversities in four types of stent-graft
systems”, Journal of Vascular and Endovascular Surgery, 58: 538-547, 2019.
S. Malatos, A. Raptis, M.A. Xenos, G. Kouvelos,
A. Giannoukas, E.L. Verhoeven, M. Matsagkas,
“A
multiscale model for hemodynamic properties’ prediction after fenestrated
endovascular aneurysm repair. A pilot study”, Hellenic Vascular
Journal, 1(2): 73-79, invited paper,
2019.
P. Tasso, M.L. Rizzini, A.
Raptis, M. Matsagkas, G. De Nisco, D. Gallo, M. Xenos, U. Morbiducci,
“In-stent graft helical flow intensity
reduces the risk of migration in endografts after endovascular aortic repair”,
Journal of Biomechanics, 94: 170-179, 2019.
N. Zaman, M. Ferdows, M.A. Xenos, K.E. Hoque and E.E. Tzirtzilakis, “Effect of Angle Bifurcation and Stenosis in Coronary Arteries: An
Idealized Model Study”, BioMed Research Journal, 4(3): 214-228, Invited paper, 2020.
M. Xenos, E.N. Petropoulou, A. Siokis,
U.S. Mahabaleshwar, “Solving the
nonlinear boundary layer flow equations with pressure gradient and radiation”,
Symmetry, 12(5): 710, invited paper,
2020.
K. E.
Hoque, M. Ferdows, S. Sawall, E.E. Tzirtzilakis and M.A. Xenos, “The effect of
wall shear stress and velocity magnitude in single and multiple serial stenoses
coronary main artery to detect the atherosclerotic severity”, Physics of
Fluids, 031903, https://doi.org/10.1063/5.0041335, 2021.
G.
Ioannidis, E. Georgakarakos, A. Raptis, M. Xenos, C. Manopoulos,
Μ. Matsagkas, Α. Giannoukas, “Modeling and computational comparison of
the displacement forces exerted between the AFX unibody aortic stent graft and
its hybrid combination with a Nitinol-based proximal aortic cuff”, Annals
of Vascular Surgery, 74: 400-409, doi:
10.1016/j.avsg.2021.02.017, 2021.
A.
Raptis, C. Manopoulos, M. Xenos and S. Tsangaris, “Oscillating
Magnetohydrodynamic Stokes Flow between Porous Plates with Spatiotemporally
Periodic Reabsorption”, Fluids, 6(4), 156, DOI:
https://doi.org/10.3390/fluids6040156, invited
paper, 2021.
E. Georgakarakos, G. Ioannidis, A. Raptis, and M. Xenos,
“Computational Fluid Dynamic Analysis Supports the Hemodynamic Stability of
Hybrid Combinations with the AFX Bifurcate and Nitinol-Based Proximal Segments
in Solutions of Failed Endovascular Aneurysm Repair”, Vascular and
Endovascular Surgery, DOI: 10.1177/15385744211037490, Letter to the Editor,
2021.
M.L. Rizzini, P. Tasso, A. Raptis, M. Matsagkas,
D. Gallo, M. Xenos, U. Morbiducci, “Patient-specific
modelling for the assessment of the hemodynamics risk of failure in
endovascular aneurysm repair”, Biomedical Science and Engineering, 4(s1):
175, 2021.
Hoque, M.
Ferdows, S. Sawall, E. Tzirtzilakis, and M. Xenos, “Hemodynamic
characteristics expose the atherosclerotic severity in coronary main arteries:
one-dimensional and three-dimensional approaches”, Physics of Fluids, 33:
121907, DOI: https://doi.org/10.1063/5.0069106, 2021.
A.
Raptis, P. Tasso, K. Batzalexis, D. Gallo, M. Xenos, U. Morbiducci,
A. Giannoukas, “Remodeling
effects of carotid artery stenting versus endarterectomy with patch angioplasty
in terms of morphology and hemodynamics”, Computers in Biology and
Medicine, 140C, DOI:
https://doi.org/10.1016/j.compbiomed.2021.105072, 2022.
M.
Ferdows, K. E. Hoque, M.Z.I. Bangalee & M. A. Xenos, “Wall shear stress indicators influence the regular hemodynamic
conditions in coronary main arterial diseases: cardiovascular abnormalities”,
Computer Methods in Biomechanics and Biomedical Engineering, DOI:
10.1080/10255842.2022.2054660, 2022.
T.
Chalkias, M.A. Xenos, “Relationship of Effective Circulating Volume
with Sublingual Red Blood Cell Velocity and Microvessel
Pressure Difference: A Clinical Investigation and Computational Fluid Dynamics
Modeling”, J. Clin. Med., 11, 4885. DOI:
https://doi.org/10.3390/jcm11164885, 2022.
M.A. Xenos, “Bubble formation after separation of the
laminar compressible boundary layer flow with adverse pressure gradient”,
Open Journal of Fluid Dynamics, 12(4), DOI: 10.4236/ojfd.2022.124015,
2022.
K.C. Kyriakoudi, M.A. Xenos, “Magnetohydrodynamic
effects on a pathological vessel: An Euler–Lagrange approach”, Physics of
Fluids, 35(12), DOI: https://doi.org/10.1063/5.0177036, 2023.
G. Chrimatopoulos, E.E.
Tzirtzilakis, M.A. Xenos, “Magnetohydrodynamic and Ferrohydrodynamic
Fluid Flow Using the Finite Volume Method”, Fluids, 9(1), DOI:
https://doi.org/10.3390/fluids9010005, 2024.
S. Malatos, L. Fazzini, A.
Raptis, P. Nana, G. Kouvelos, P. Tasso, D. Gallo, U. Morbiducci, M.A. Xenos, A. Giannoukas,
M. Matsagkas. “Evaluation of hemodynamic
properties after chimney and fenestrated endovascular aneurysm repair”,
Annals of Vascular Surgery, Jul: 104: 237-247. doi:
10.1016/j.avsg.2023.12.084, 2024.
S. Rashid, M. Ferdows, M.A. Xenos, M.Z. Rahman
Mazumder and K.E. Hoque, “Cardiac Progression of Biomechanical Risk Factor
of Triple Vessel Disease and Biomedical imaging on Right Coronary Arterial
Hemodynamics”, Austin Journal of Clinical Cardiology, Review Article,
10(1), 2024.
T. Aravanis, G. Chrimatopoulos, M. Xenos, E.E. Tzirtzilakis, “Forecasting
two-dimensional channel flow using machine learning”, Physics of Fluids 36
(10), 2024.
S. Katsoudas, S. Malatos, A.
Raptis, M. Matsagkas, A. Giannoukas,
M. Xenos, “Blood Flow Simulation in Bifurcating Arteries: A Multiscale
Approach After Fenestrated and Branched Endovascular Aneurysm Repair”,
Mathematics, 13 (9), 1362, 2025.
Ph.D. Thesis (in Greek)
M.
Xenos, "Numerical Study of Magnetohydrodynamic Compressible
Boundary Layer Flow Over a Flat Plate with Adverse Pressure Gradient and Heat
and Mass Transfer", Department of Mathematics, University of
Patras, Patras, 2003.