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Purpose: Silicone materials crosslinked during the hydrosilylation reaction are common in dental prosthetics and dentistry. These materials are characterized by a relatively very good properties. However, one of the fundamental problems associated with the use of such polymers is a low resistance to microbial colonization. Numerus fillers with antimicrobial potential have been used experimentally for a decade. Anyway point of concern in this type of work is the use of commercially available materials as the matrix. However, the composition of the matrix for this materials is not clearly known. Therefore, the aim of this study was to obtain a two-component silicone material, crosslinking at room temperature, with properties corresponding to the needs of dental prosthetics, in particular as denture soft linings. Such material would be a starting point to obtain more sophisticated compositions, however, of known composition in full. Design/methodology/approach: As the matrix the mixtures of polymers were prepared. As the “catalyst” component a vinyl polydimethylsiloxane with platinum catalyst in xylene was prepared. As the “base” component a mixture of vinyl polydimethylsiloxane with methylhydrosiloxane - dimethylsiloxane copolymer was made. One of the two fillers differing in the functionalizing was added into prepared substrates (10 or 15% by weight) and ultrasonically homogenized. The Shore A hardness, tensile strength, bond strength to denture base material, water sorption and solubility were investigated. Measurements were made after different aging periods in distilled water at 37±1°C. Findings: The study showed an increase in mechanical properties with increasing concentrations of fillers. The type of filler significantly affects the test results. Increasing the aging time effects on increasing the hardness of materials. Water absorption and solubility were within the desired range. Research limitations/implications: Research limitations/implications The results of the presented research may be generally dependent on technology of fillers introduction into polymers matrix. Practical implications: The results show promising properties of the tested materials. It can be used as starting material for further studies on soft or super soft denture lining and other materials characterized by similar requirements. Originality/value: The method of receiving silicone - based composites with properties required for the selected prosthetic materials, especially denture soft linings was presented. Their properties were similar to commercially available products.
Wydawca
Rocznik
Tom
Strony
22--29
Opis fizyczny
Bibliogr. 23 poz.
Twórcy
autor
- Private practice
autor
- Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, Silesian University of Technology, ul. Konarskiego 18a, Gliwice 44-100, Poland
autor
- Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, Silesian University of Technology, ul. Konarskiego 18a, Gliwice 44-100, Poland
autor
- Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, Silesian University of Technology, ul. Konarskiego 18a, Gliwice 44-100, Poland
autor
- Faculty of Prosthodontic Technology, Medical School of Silesian Voivodship, ul. 3 Maja 63, 41-800 Zabrze, Poland
autor
- Stencel Dental Center of Dentistry and Implantology, ul. Franciszka Karpińskiego 3, 41-500 Chorzów
autor
- Stencel Dental Center of Dentistry and Implantology, ul. Franciszka Karpińskiego 3, 41-500 Chorzów
Bibliografia
- [1] K. Bulard, R.L. Taylor, J. Verran, J.F. McCord, Colonization and penetration of denture soft lining materials by Candida albicans, Dental Materials 20 (2004) 167-175.
- [2] P.J. Mack, Denture soft linings: Clinical indications, Australian Dental Journal 34 (1989) 454-458.
- [3] A. El-Hadary, J.L. Drummond, Comparative study of water sorption, solubility, and tensile bond strength of two soft lining materials, Journal of Prosthetic Dentistry 83 (2000) 356-361.
- [4] K. Saber-Sheikh, R.L. Clarke, M. Braden, Viscoelastic properties of some soft lining materials. II-Ageing characteristics, Biomaterials 20 (1999) 2055-2062.
- [5] G. Chladek, J. Żmudzki, J. Kasperski, Long-Term Soft Denture Lining Materials, Materials 7 (2014) 5816-5842.
- [6] M. Aparajita, C. Sunita, G. Hemlata, H.G. Jagadeesh, Maxillofacial Prosthetic Materials- An Inclination Towards Silicones, Journal of Clinical and Diagnostic Research. 8 (2014) ZE08–ZE13. doi: 10.7860/JCDR/ 2014/9229.5244.
- [7] A. Colas, J. Curtis, Silicone biomaterials: History and chemistry. In Biomaterial Science: An Introduction to Materials in Medicine, 2nd ed.; B.D. Ratner, A.S. Hoffman, F.J. Schoen, J.E. Lemmons, Eds.; Elsevier: Amsterdam, The Netherlands, 2004.
- [8] M.M. Mutluay, I.E. Ruyter: Evaluation of bond strength of soft relining materials to denture base polymers, Dental Materials 23 (2007) 1373-1381.
- [9] M.M. Mutluay, S. Oguz, F. Fløystrand, E. Saxegaard, A. Dogan, B. Bek, I.E. Ruyter, A prospective study on the clinical performance of polysiloxane soft liners: One-year results, Dental Materials Journal 27 (2008) 440-447.
- [10] N. Boscato, A. Radavelli, D. Faccio, A.D. Loguercio, Biofilm formation of Candida albicans on the surface of a soft denture-lining material, Gerodontology 263 (2009) 210-213.
- [11] J.-B. Huh, Y. Lim, H.-I. Youn, B.M. J.-Y. Chang, Lee, S.-W. Shin, Effect of denture cleansers on Candida albicans biofilm formation over resilient liners, Journal of Advanced Prosthodontics 6 (2014) 109-114.
- [12] ISO International Organization for Standardization. EN ISO 10139-2:2009 Dentistry-Soft Lining Materials for Removable Dentures- Part 2: Materials for LongTerm Use, 2009.
- [13] ISO Standard. Rubber, vulcanized or thermoplasticdetermination of tensile stress-strain properties. ISO 37 2005.
- [14] G. Chladek, J. Kasperski, I. Barszczewska-Rybarek, J. Żmudzki, Sorption, Solubility, Bond Strength and Hardness of Denture Soft Lining Incorporated with Silver Nanoparticles, International Journal of Molecular Sciences 14 (2013) 563-574.
- [15] M. Iwaki, N. Akiba, S. Minakuchi, H. Takahashi, Influence of methyl mercaptan at early setting stages on the properties of self curing addition silicone resilient denture lining materials. Journal of Prosthodontic Research 53 (2009) 161-165.
- [16] S. Pavan, J.N. Arioli Filho, P.H. Dos Santos, S.S. Nogueira, A.U. Batista, Effect of disinfection treatments on the hardness of soft denture liner materials, Journel of. Prosthodontic 16 (2007) 101-106.
- [17] S. Kiat-Amnuay, L. Gettleman, T. Mekayarajjananonth, Z. Khan Goldsmith, The influence of water storage on durometer hardness of 5 soft denture liners over time, Journal of Prosthetic Dentistry 14 (2005) 19-24.
- [18] B.J. Kim, H.S. Yang, M.G. Chun, Y.J. Park, Shore hardness and tensile bond strength of long-term soft denture lining materials, Journal of Prosthetic Dentistry 112 (2014) 1289-97. doi: 10.1016/j.prosdent.2014.04.018.
- [19] G.R. Parr, F.A. Rueggeberg, In vitro hardness, water sorption, and resin solubility of laboratory-processed and autopolymerized long-term resilient denture liners over one year of water storage, Journal of Prosthetic Dentistry 88 (2002) 139-144.
- [20] D.N. Mancuso, M.C. Goiato, B.C. Zuccolotti, A. Moreno, D.M. dos Santos, A.A. Pesqueira, Effect of thermocycling on hardness, absorption, solubility and colour change of soft liners, Gerodontology 29 (2012) 215-219.
- [21] A. El-Hadary, J.L. Drummond, Comparative study of water sorption, solubility, and tensile bond strength of two soft lining materials, Journal of Prosthetic Dentistry 283 (2000) 356-361.
- [22] D.N. Mancuso, M.C. Goiato, B.C. Zuccolotti, A. Moreno, D.M. dos Santos, A.A. Pesqueira, Effect of thermocycling on hardness, absorption, solubility and colour change of soft liners, Gerodontology 29 (2012) 215-219.
- [23] W.C. Liao, G.J. Pearson, M. Braden, P.S. Wright, The interaction of various liquids with long-term denture soft lining materials, Dental Materials 28 (2012) 199-206.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b9eb960b-fb2f-4744-b966-7cc303c7710a