Citace

Přehled (bibliografické citace) odborných studií dokumentujících uplatnění vyztužujících vláken ve výplňových a dostavbových materiálech.

• BOCALON, A.C.E., D. MITA, I. NARUMYIA, P. SHOUHA, T. A. XAVIER a R. R. BRAGA. Replacement of glass particles by multidirectional short glass fibers in experimental composites: Effects on degree of conversion, mechanical properties and polymerization shrinkage. Dental Materials [online]. 2016, 32(9), e204–e210.
• ABOUELLEIL, H., N. PRADELLE, C. VILLAT, N. ATTIK, P. COLON a B. GROSGOGEAT. Comparison of mechanical properties of a new fiber reinforced composite and bulk filling composites. Restorative Dentistry & Endodontics [online]. 2015, 40(4), 262–269.
• VALLITTU, Pekka K. High-aspect ratio fillers: Fiber-reinforced composites and their anisotropic properties. Dental Materials[online]. 2015, 31(1), 1–7.
• KHAN, Abdul Samad, Maria Tahir AZAM, Maria KHAN, Salman Aziz MIAN a Ihtesham Ur REHMAN. An update on glass fiber dental restorative composites: A systematic review. Materials Science and Engineering: C [online]. 2015, 47, 26–39.
• KEULEMANS, F., L. V. J. LASSILA, S. GAROUSHI, P. K. VALLITTU, C. J. KLEVERLAAN a A. J. FEILZER. The influence of framework design on the load-bearing capacity of laboratory-made inlay-retained fibre-reinforced composite fixed dental prostheses. Journal of Biomechanics [online]. 2009, 42(7), 844–849.
• BIJELIC-DONOVA, J., S. GAROUSHI, L. V. J. LASSILA, Filip KEULEMANS a P. K. VALLITTU. Mechanical and structural characterization of discontinuous fiber-reinforced dental resin composite. Journal of Dentistry [online]. 2016, 52, 70–78.
• FRÁTER, M., A. FORSTER, M. KERESZTÚRI, G. BRAUNITZER a K. NAGY. In vitro fracture resistance of molar teeth restored with a short fibre-reinforced composite material. Journal of Dentistry [online]. 2014, 42(9), 1143–1150.
• TSUJIMOTO, A., W. W. BARKMEIER, T. TAKAMIZAWA, M. A. LATTA a M. MIYAZAKI. Mechanical properties, volumetric shrinkage and depth of cure of short fiber-reinforced resin composite. Dental Materials Journal [online]. 2016, 35(3), 418–424.
• TSUJIMOTO, A., W. W. BARKMEIER, T. TAKAMIZAWA, M. A. LATTA a M. MIYAZAKI. Bonding performance and interfacial characteristics of short fiber-reinforced resin composite in comparison with other composite restoratives. European Journal of Oral Sciences [online]. 2016, 124(3), 301–308.
• ALSHABIB, A., N. SILIKAS a D. C. WATTS. Hardness and fracture toughness of resin-composite materials with and without fibers. Dental Materials. 2019, 35(8), 1194–1203.
• GARLAPATI, T. G., J. KRITHIKADATTA a V. NATANASABAPATHY. Fracture resistance of endodontically treated teeth restored with short fiber composite used as a core material—An in vitro study. Journal of Prosthodontic Research [online]. 2017, 61(4), 464-470.
• GAROUSHI, S., P. K. VALLITTU a L. V. J. LASSILA. Short glass fiber reinforced restorative composite resin with semi-inter penetrating polymer network matrix. Dental Materials [online]. 2007, 23(11), 1356–1362.
• GAROUSHI, S., P. K. VALLITTU a L. V. J. LASSILA. Effect of Storage Time on Microtensile Bond Strength of Short Glass Fibre-reinforced Composite. The Chinese journal of dental research: the official journal of the Scientific Section of the Chinese Stomatological Association (CSA). 2007, 10(2), 28–32.
• LASSILA, L., S. GAROUSHI, P. K. VALLITTU a E. SÄILYNOJA. Mechanical properties of fiber reinforced restorative composite with two distinguished fiber length distribution. Journal of the Mechanical Behavior of Biomedical Materials [online]. 2016, 60, 331–338.
• GAROUSHI, S., L. V. J. LASSILA a P. K. VALLITTU. The effect of span length of flexural testing on properties of short fiber reinforced composite. Journal of Material Science: Mater. Med. 2012, 23(2), 325–328.
• GAROUSHI, S., E. MANGOUSH, P. K. VALLITTU a L. V. J. LASSILA. Short fiber reinforced composite: a new alternative for direct onlay restorations. The Open Dentistry Journal. 2013, 7, 181–185.
• GAROUSHI, S., M. HATEM, L. V. J. LASSILA a P. K. VALLITTU. The effect of short fiber composite base on microleakage and load-bearing capacity of posterior restorations. Acta Biomaterialia Odontologica Scandinavica. 2015, 1(1), 6–12.
• CEKIC-NAGAS, I., G. ERGUN, A. TEZVERGIL, P. K. VALLITTU a L. V. J. LASSILA. Effect of fiber-reinforced composite at the interface on bonding of resin core system to dentin. Dental Material Journal. 2008, 27(5), 736–743.
• BIJELIC, J., S. GAROUSHI, P. K. VALLITTU a L. V. J. LASSILA. Fracture Load of Tooth Restored with Fiber Post and Experimental Short Fiber Composite. The Open Dentistry Journal. 2011, 51(1), 58–65.
• TEKÇE, N., K. PALA, S. TUNCER, M. DEMIRCI a M. E. SERIM. Influence of polymerisation method and type of fibre on fracture strength of endodontically treated teeth. Australian Endodontic Journal [online]. 2017, 43(3), 115–122.
• MARJANOVIC, J., D. N. VELJOVIC, J. N. STASIC, T. SAVIC-STANKOVIC, B. TRIFKOVIC a V. MILETIC. Optical properties of composite restorations influenced by dissimilar dentin restoratives. Dental Materials [online]. 2018, 34(5), 737–745.
• OMRAN, T. A., S. GAROUSHI, A. A. ABDULMAJEED, L. V. J. LASSILA a P. K. VALLITTU. Influence of increment thickness on dentin bond strength and light transmission of composite base materials. Clinical Oral Investigations [online]. 2017, 21(5), 1717–1724.
• GAROUSHI, S., P. K. VALLITTU, A. SHINYA a L. V. J. LASSILA. Influence of increment thickness on light transmission, degree of conversion and micro hardness of bulk fill composites. Odontology[online]. 2016, 104(3), 291–297.
• HERDA, E., L. SHARFINA, A. N. ANDJANI, M. DAMIYANTI a B. IRAWAN. Light-curring distance and resin thickness effect on the short fiber‑reinforced resin composites` depth of cure. International Journal of Applied Pharmaceutics [online]. 2018, 9, 110–113.
• PATNANA, A. K., V. N. R. VANGA a S. K. CHANDRABHATLA. Evaluating the Marginal Integrity of Bulk Fill Fibre Reinforced Composites in Bio-mimetically Restored Tooth. Journal of Clinical and Diagnostic Research [online]. 2017, 11(6), 24–27.
• PATEL, P, M. SHAH, N. AGRAWAL, P. DESAI, K. TAILOR a K. PATEL. Comparative Evaluation of Microleakage of Class II Cavities Restored with Different Bulk Fill Composite Restorative Systems: An In Vitro Study. Journal of Research and Advancment in Dentistry. 2016, 5(2), 52–62.
• GAROUSHI, S., J. TANNER, P. K. VALLITTU a L. V. J. LASSILA. Preliminary Clinical Evaluation of Short Fiber-Reinforced Composite Resin in Posterior Teeth: 12-Months Report. The Open Dentistry Journal [online]. 2012, 6(1), 41–45.
• TANNER, J., M. TOLVANEN, S. GAROUSHI a E. SÄILYNOJA. Clinical Evaluation of Fiber-Reinforced Composite Restorations in Posterior Teeth, Results of 2.5 Year Follow-up. The Open Dentistry Journal. 2018, 12, 476–485.
• SOARES, L. M., M. RAZAGHY a P. MAGNE. Optimization of large MOD restorations: Composite resin inlays vs. short fiber-reinforced direct restorations. Dental Materials. 2018, 34(4), 587–597.
• BIJELIC-DONOVA, J., F. KEULEMANS, P. K. VALLITTU a L. V. J. LASSILA. Direct bilayered biomimetic composite restoration: The effect of a cusp-supporting short fiber-reinforced base design on the chewing fracture resistance and failure mode of molars with or without endodontic treatment. Journal of the Mechanical Behavior of Biomedical Materials. 2020, 103, 103554.
• LASSILA, L., E. SÄILYNOJA, R. PRINSSI, P. K. VALLITTU a S. GAROUSHI. Fracture behavior of Bi-structure fiber-reinforced composite restorations. Journal of the Mechanical Behavior of Biomedical Materials. 2020, (101), 103444.
• ALSHABIB, A., N. SILIKAS a D. C. WATTS. Hardness and fracture toughness of resin-composite materials with and without fibers. Dental Materials. 2019, 35(8), 1194–1203.