Katalog istraživačkog i inovativnog potencijala
Univerziteta u Kragujevcu

Centar za bioinženjering je osnovan u junu 2006. godine na inicijativu profesora Miloša Kojića i Nenada Filipovića. Prvi i sadašnji upravnik je Prof. Nenad Filipović. CBI je nastao kao rezultat većeg broja međunarodnih i nacionalnih naučnih projekata i međunarodnih radova iz oblasti bioinženjeringa. 
Elaboratom i odlukom o osnivanju, CBI ima definisan prostor, koji čini prostorija C-22 i oprema koja je nabavljena pomoću projekata iz oblasti bioinženjeringa.

Glavni ciljevi i aktivnosti centra:

• Simulacija kardiovaskularnih sistema
• Simulacija respiratornih sistema
• Simulacija rada mišića
• Sportska biomehanika
• Transport lekova, nanotehnologija
• Predviđanje rasta tumora

•    Objavljeno je preko 400 radova u međunarodnim časopisima i preko 350 radova na međunarodnim i nacionalnim konferencijama
•    Razvijen je softver za simulaciju protoka krvi kroz krvne sudove
•    Razvijen je softver za simulaciju strujanja vazduha u alveolama
•    Razvijen je softver za analizu zvuka sa slepog dopler aparata
•    Razvijen je softver za simulaciju opterećenja kičmenog stuba

1. Nenad Filipovic, Zhongzhao Teng, Milos Radovic, Igor Saveljic, Dimitris Fotiadis and Oberdan Parodi, Computer simulation of three dimensional plaque formation and progression in the carotid artery, Medical & Biological Engineering & Computing, DOI: 10.1007/s11517-012-1031-4, (2013)
2. Parodi O., Exarchos T., Marraccini P., Vozzi F., Milosevic Z., Nikolic D., Sakellarios A., Siogkas P., Fotiadis D.I., Filipovic N., Patient-specific prediction of coronary plaque growth from CTA angiography: a multiscale model for plaque formation and progression, IEEE Transaction on Information Technology in Biomedicine, Vol. 16(5), pp. 952-965, (2012)
3. Filipovic N., Isailovic V., Djukic T., Ferrari M., Kojic M., Multiscale Modeling of Circular and Elliptical Particles in Laminar Shear Flow, IEEE transactions on biomedical engineering, Vol. 59(1), pp. 50-53.DOI: 10.1109/TBME.2011.2166264, (2012)
4. Filipovic N., Rosic M., Tanaskovic I., Milosevic Z., Nikolic D., Zdravkovic N., Peulic A., Fotiadis D., Parodi O., ARTreat project: Three-dimensional Numerical Simulation of Plaque Formation and Development in the Arteries, IEEE Trans Inf Technol Biomed, Vol. 16(2), pp. 272-278, (2012)
5. Dimkic M., Rankovic V., Filipovic N., Stojanovic B., Isailovic V., Pusic M., Investigation of the M., Modeling of radial well lateral screens using 1D finite elements,  Journal of Hydroinformatics, IWA Publishing.DOI:10.2166/hydro.2012.008, (2012)
6. Oberdan Parodi, Themis Exarchos, Paolo Marraccini, Federico Vozzi, Zarko Milosevic, Dalibor Nikolic, Antonis Sakellarios, Panagiotis Siogkas, Dimitris I. Fotiadis, Nenad Filipovic, Patient-specific prediction of coronary plaque growth from CTA angiography: a multiscale model for plaque formation and progression, IEEE Transactions on Information Technology and Applications in Biomedicine (in press)
7. Siogkas, P.,   Sakellarios, A.,   Exarchos, T. P.,   Athanasiou, L.,   Karvounis, E.,   Stefanou, K.,   Fotiou, E.,   Fotiadis, D. I.;   Naka, K. K.;   Michalis, L. K.;   Filipovic, N.;   Parodi, O.;  Multiscale - Patient-Specific Artery and Atherogenesis Models, IEEE Trans Biomed Eng. 2011 Dec; 58(12):3464-8.
8. Z. Bosnić, P. Vračar, M. Radović, G. Devedžić, N. Filipović, and Igor Kononenko, Mining Data from Hemodynamic Simulations for Generating Prediction and Explanation Models, Transactions on Information Technology in Biomedicine, in press, DOI 10.1109/TITB.2011.2164546.
9. Filipovic N, Isailovic V, Djukic T, Ferrari M, Kojic M., Multi-scale modeling of circular and elliptical particles in laminar shear flow, IEEE Trans Biomed Eng. PMID: 21878403, (2011)
10. Filipovic N, Rosic M, Tanaskovic I, Milosevic Z, Nikolic D, Zdravkovic N, Peulic A. Fotiadis D, Parodi O, ARTreat project: Three-dimensional Numerical Simulation of Plaque Formation and Development in the Arteries, IEEE Trans Inf Technol Biomed. PMID: 21937352 (2011)
11. Markovic Zoran S,  Dimitric-Markovic Jasmina M,  Milenkovic Dejan,  Filipovic N, Mechanistic study of the structure-activity relationship for the free radical scavenging activity of baicalein, JOURNAL OF MOLECULAR MODELING, vol. 17 br. 10, str. 2575-2584, (2011)
12. Dimkic M,  Pusic M,  Vidovic D,  Isailovic V,  Majkic B  Filipovic N, Numerical Model Assessment of Radial-Well Aging, JOURNAL OF COMPUTING IN CIVIL ENGINEERING, vol. 25 1, 43-49, (2011)
13. Lee G, Filipovic N,  Lin M,  Gibney B  Simpson D,  Konerding M,  Tsuda A, Mentzer S, Intravascular Pillars and Pruning in the Extraembryonic Vessels of Chick Embryos  DEVELOPMENTAL DYNAMICS,vol. 240 br. 6, str. 1335-1343, (2011)
14. Dimitric-Markovic M,  Markovic Z.  Brdaric T.   Filipovic N. Comparative spectroscopic and mechanistic study of chelation properties of fisetin with iron in aqueous buffered solutions. Implications on in vitro antioxidant activity, DALTON TRANSACTIONS, vol. 40, 17, 4560-4571, (2011).
15. Filipovic  N. and H. Schima,  Numerical simulation of the flow field within the aortic arch during cardiac assist, Artifical Organs, 35, 4,  73–83, (2011)
16. Kojic N., A. Huang, E. Chung, M.Ivanovic, N.Filipovic, M. Kojic, and D. Tschumperlin, A 3-D model of ligand transport in a deforming extracellular space, Biophysical Journal, Dec 1;99(11):3517-25.(2010).
17. Filipovic N., M. Ivanovic, D. Krstajic and M.Kojic, Hemodynamic Flow Modeling through an Abdominal Aorta  Aneurysm Using Data Mining Tools, IEEE - Transactions on Information Technology in Biomedicine, Mar;15(2):189-94 (2011)
18. Filipovic, N., M. Kojic, M. Ferrari, Dissipative Particle Dynamics Simulation of Circular and Elliptical Particles Motion in 2D Laminar Shear Flow, Microfluidics and Nanofluidics,  10, 5, 1127-1134, 2010.
19. Lee G., Filipovic, N., et al, Blood flow shapes intravascular pillar geometry in the chick chorioallantoic membrane, Journal of Angiogenesis Research, 2:11, 2010
20. Filipovic, N.,  A. Cvetkovic, V. Isailovic, Z. Matovic, M. Rosic and M. Kojic, Computer simulation of flow and mixing at the duodenal stump after gastric resection, World Journal of Gastroentrology, 15 (16), 1990-1998, 2009
21. Filipovic, N., AkiraTsuda, Grace S. Lee, Lino F. Miele, Miao Lin, Moritz A., Konerding, and Steven J. Mentzer, Computational Flow Dynamics in a Geometric Model of Intussusceptive Angiogenesis, Microvascular Research Dec;78(3):286-93, 2009.
22. Tsuda, A., Filipovic, N.,  Haberthür, D., Dickie, R.,  Matsui, Y., Stampanoni, M. and Schittny^, J.C., Finite element 3D reconstruction of the pulmonary acinus imaged by synchrotron X-ray tomography, J Appl Physiol 105: 964-976, 2008
23. Filipovic, N., M. Ivanovic, M. Kojic, A comparative numerical study between dissipative particle dynamics (DPD) and smooth particle dynamics (SPH) when applied to simple unsteady flows, Microfluidics and Nanofluidics, 1613-4982, 2008.
24. Filipovic, N., Haber,  S., Kojic, M., Tsuda, A., Dissipative particle dynamics simulation of flow generated by two rotating concentric cylinders: II. Lateral dissipative and random forces, J. Phys. D: Appl. Phys. 41 035504 (6pp)   doi:10.1088/0022-3727/41/3/035504, 2008
25. Filipovic, N., Kojic, M., Tsuda, A., Мodeling thrombosis using dissipative particle dynamics method, Phil Trans Royal, A 366(1879), 2008
26. Kojic, M., Filipovic, N., Tsuda, A., A mesoscopic bridging scale method for fluids and coupling dissipative particle dynamics with continuum finite element method, Comput. Methods Appl. Mech. Engrg. 197, 821–833, 2008.
27. Filipovic, N., Ravnic, D.J. Kojic, M., Mentzer, S.J., Haber, S. Tsuda, A., Interactions of Blood Cell Constituents: Experimental investigation and Computational Modeling by Discrete Particle Dynamics Algorithm, Microvascular Research, 75, 279-284, 2008.
28. Haber S., Filipovic N., Kojic M. and Tsuda A.Dissipative Particle Dynamics Simulation of flow generated by two rotating concentric cylinders. Part I: Boundary conditions, Phys. Rev. E. 74, pp.1-8, 2006.
29. Filipovic N., Mijailovic S., Tsuda A. and Kojic M. An Implicit Algorithm Within The Arbitrary Lagrangian-Eulerian Formulation for Solving Incompressible Fluid Flow With Large Boundary Motions, Comp. Meth. Appl. Mech. Eng. 195: pp.6347-6361, 2006.