The simulation of mastication efficiency of the mucous-borne complete dentures

• Autorzy: Żmudzki J. , Chladek G. , Malara P. , Dobrzański L.A. , Zorychta M. , Basa K.
• Języki publikacji: EN

Abstrakty

EN

Purpose: The aim of this study was to present rules for numerical investigations of mastication efficiency of mucous-borne complete dentures. Design/methodology/approach: Finite element method (FEM) large displacements analysis with denture detaching and sliding at mucous membrane interface was employed. The possibility of a lower denture destabilization under oblique mastication load was modeled. Denture stabilization at balancing contact „at time” and „delayed” was modeled with increasing of a distance to the opposite denture. An unfavorable mucous membrane foundation was assumed. Findings: Pressures beneath dentures during stable vertical occlusal loadings are lower than pain threshold of mucous membrane even when the denture foundation was very unfavorable. Simulation of realistic oblique mastication force results in a denture destabilization. Denture experienced a large slide, completely lost adherence at balancing side and the balancing contact was needed to achieve stabilization. The pressures beneath denture under oblique load increased to values much higher than pain threshold and the „delayed” balancing contact influenced additional increase of pressure values. Research limitations/implications: In the FEM study only characteristic unfavorable denture foundation and conventional denture type were analyzed. Practical implications: Defined values of pressure beneath dentures show that it is necessary to underlay the dentures. The influence of „delayed” balancing contact on significant increase of stress beneath dentures indicates that in case of a problem with stabilization of dentures it is necessary to introduce stabilization on the implants. Originality/value: Universal rules of conducting a numerical experiment and interpreting its results constitute the base and encouragement to complete further practical tasks awaiting engineers and prosthetists.

Słowa kluczowe

EN

prosthetic dentistry; finite element method; FEM; mastication force; comfort; soft tissue

PL

materiały protetyczne; metoda elementów skończonych; MES (metoda elementów skończonych); siła żucia; komfort; tkanka miękka

• Wydawca: International OCSCO World Press
• Czasopismo: Archives of Materials Science and Engineering
• Rocznik: 2013
• Tom: Vol. 63, nr 2
• Strony: 75--86
• Opis fizyczny: Bibliogr. 70 poz.

Twórcy

autor

Żmudzki J.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

autor

Chladek G.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

autor

Malara P.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

autor

Dobrzański L.A.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

autor

Zorychta M.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

autor

Basa K.

• Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland

Bibliografia

• [1]E. Spiechowicz, Dental prosthetics, PZWL, Warsaw, 2008 (in Polish).
• [2]A.D. Dobrzańska-Danikiewicz, J. Żmudzki, Development trends of mucous-borne dentures in the aspect of elastomers applications, Archives of Materials Science and Engineering 55/1 (2012) 5-13.
• [3]J. Żmudzki, G. Chladek, J. Kasperski, Silicone attachment for avoidance of bone tissue overloading in single implant-retained denture, Archives of Materials Science and Engineering 51/2 (2011) 107-115.
• [4]J. Kasperski, J. Żmudzki, G. Chladek, Denture foundation tissues loading criteria in evaluation of dentures wearing characteristics, Journal of Achievements in Materials and Manufacturing Engineering 43/1 (2010) 324-332.
• [5]A.G. Szentpetery, M.T. John, G.D. Slade, J.M. Setz, Problems reported by patients before and after prosthodontic treatment, The International Journal of Prosthodontics 18 (2005) 124-131.
• [6]D. Wismeijer, M.A.J. Van Waas, Z.L.Z.F. Vermeeren, J. Mulder, W. Kalk. Patient satisfaction with implant-supported mandibular overdentures, A comparison of three treatment strategies with ITI-dental implants. International Journal of Oral and Maxillofacial Surgery 26 (1997) 263-267.
• [7]A. Jainkittivong, V. Aneksuk, R.P. Langlais, Oral mucosal conditions in elderly dental patients, Oral Diseases 8/4 (2002) 218-223.
• [8]H. Panek, A. Dobosz, M. Sosna-Gramza, P. Napadłek, Analysis of the symptoms reported by the patients for the past prosthetic, Dental and Medical Problems 41/3 (2004) 489-498 (in Polish).
• [9]T. Sierpińska, Analysis of the causes of dissatisfaction with dentures settling in elderly patients, Dental Prosthetics 46 (1996) 281-284 (in Polish).
• [10]M. Tanaka, T. Ogimoto, K. Koyano, T. Ogawa, Denture wearing and strong bite force reduce pressure pain threshold of edentulous oral mucosa, Journal of Oral Rehabilitation 31/9 (2004) 873-878.
• [11]T. Ogawa, M. Tanaka, T. Ogimoto, N. Okushi, K. Koyano, K. Takeuchi, Mapping, profiling and clustering of pressure pain threshold (PPT) in edentulous oral mucosa, Journal of Dentistry 32 (2004) 219-228.
• [12]S. Kimoto, K. Kimoto, A. Gunji, Y. Kawai, H. Murakami, K. Tanaka, K. Syu, H. Aoki, M. Tani, M. Toyoda, K. Kobayashi, Clinical effects of acrylic resilient denture liners applied to mandibular complete dentures on the alveolar ridge, Journal of Oral Rehabilitation 34/11 (2007) 862-869.
• [13]T. Miyashita, A study om the deformation of the soft tissue and the displacements of the denture under occlusal force, Shika Gakuhou 70 (1969) 38-61.
• [14]H. Kumagai, T. Watanabe, K. Kobayashi, T. Suzuki, M. Nagao, H. Nikawa, T. Hamada, Incidence of occlusal contacts with complete dentures during mastication using a 6-channel telemetry system preliminary measurement, Journal of Oral Rehabilitation 26 (1999) 918-922. [15]K. Kobayashi, M. Morizawa, T. Watanabe, T. Sekita, M. Nagao, Occlusal contacts of complete denture during mastication in telemetry system, Nihon Hotetsu Shika Gakkai Zasshi 33/1 (1989) 94-105 (in Japanese).
• [16]K. Miyashita, T. Sekita, S. Minakuchi, Y. Hirano, K. Kobayashi, M. Nagao, Denture mobility with six degrees of freedom during function, Journal of Oral Rehabilitation 25/7 (1998) 545-552.
• [17] J. Rendell, J.E. Grasso, T. Gay, Retention and stability of the maxillary denture function during, Journal of Prosthetic Dentistry 73 (1995) 344-347.
• [18] J. Żmudzki, Mastication loads affecting the mucosa of the mandibular alveolar region beneath lower denture as assessed by FEM, Journal of Dentistry 11/63 (2010) 711-72.
• [19] J. Żmudzki, W. Chladek, T. Lipski, Influence of tongue activity on lower complete denture retention under biting forces, Acta of Bioengineering and Biomechanics 10/3 (2008) 13-20.
• [20] J. Żmudzki, G. Chladek, J. Kasperski, Single implantretained dentures: loading of various attachment types under oblique occlusal forces, Journal of Mechanics in Medicine and Biology 12/5 (2012) 120-127.
• [21] J. Pietrokovski, J. Harfin, F. Levy, The influence of age and denture wear on the size of edentulous structures, Gerodontology 20/2 (2003) 100-105.
• [22] O.C. Zienkiewicz, R.L. Taylor, The finite element method for solid and structural mechanics, Sixth Editio, Elsevier Butterworth-Heinemann, 2005.
• [23] J. Margielewicz, W. Chladek, T. Lipski, Kinematical analysis of mandibular motion in a sagittal plane, Acta of Bioengineering and Biomechanics 10/1 (2008) 9-19.
• [24] J. Bielski, Effect of setting artificial teeth and the shape of the occlusal surface of the static dentures and chewing efficiency, Silesian Medical University in Zabrze, 1965 (in Polish).
• [25] S. Berczyński, Z. Grzędziel, S. Rukowicz, Comparative study of contact stresses in meshing gear camshaft drive Sulzer RTA48T-B, Scientific Papers, Maritime University of Szczecin 10/82 (2006) 51-59 (in Polish).
• [26] Z. Dyląg, A. Jakubowicz, Z. Orłoś, Strength of materials 2, WNT, Warsaw, 2009 (in Polish).
• [27] L. Hupfauf, Prosthodontics, complete dentures, Publishing House Urban and Partner, Wrocław, 1994 (in Polish).
• [28] M. Kishi, Experimental studies on the relation between area and displacement of loading surfaces in connection with displaceability in the mucosa of edentulous alveolar ridge under pressure, The Shika Gakuhou 72 (1972) 1043.
• [29] P. Kramer, Maxillary complete denture movement, a three dimensional digital recording method, M.D. Thesis, University of Sydney, 2004.
• [30] B.S. Dukes, An evaluation of soft tissue responses following removal of ill-fitting dentures, Journal of Prosthetic Dentistry 43/3 (1980) 251-253.
• [31] M. Wolff, I. Kleinberg, Oral mucosal wetness in hypoand normosalivators, Archives of Oral Biology 43 (1998) 455-462.
• [32] N.R. Garrett, K.K. Kapur, P. Perez, Effects of improvements of poorly fitting dentures and new dentures on patient satisfaction, Journal of Prosthetic Dentistry 76 (1996) 403-413.
• [33] S. Kimoto, K. Kimoto, A. Gunji, Y. Kawai, H. Murakami, K. Tanaka, K. Syu, H. Aoki, M. Tani, M. Toyoda, K. Kobayashi, Effects of resilient denture liner in mandibular complete denture on the satisfaction ratings of patients at the first appointment following denture delivery, Nihon Hotetsu Shika Gakkai Zasshi 52/2 (2008) 160-166.
• [34] W.H. Roedema, Relationship between the width of the occlusal table and pressures under dentures during function, Journal of Prosthetic Dentistry 36/1 (1976) 24-34.
• [35] W.H. Roedema, A comparison of two methods of quantifying masticatory pressures developed under dentures with variable occlusal widths, Journal of Oral Rehabilitation 6/1 (1979) 67-80.
• [36] M. Ohashi, J.B. Woelfel, G.C. Paffenbarger, Pressures exerted on complete dentures during swallowing, The Journal of the American Dental Association 73 (1966) 625-630.
• [37] C.J. Watson, M.D. Abdul Wahab, The development of an inexpensive pressure transducer for use at the denture basemucosal surface interface, British Dental Journal 156/4 (1984) 135-140.
• [38] C.J. Watson, R. Huggett, Pressures recorded at the denture base-mucosal surface interface in complete denture wearers, Journal of Oral Rehabilitation 14/6 (1987) 575-589.
• [39] F. Kawano, K. Nagao, S. Inoue, N. Matsumoto, Influence of the buccolingual position of artificial posterior teeth on the pressure distribution on the supporting tissue under a complete denture, Journal of Oral Rehabilitation 23/7
• (1996) 456-463.
• [40] S. Inoue, F. Kawano, K. Nagao, N. Matsumoto, An in vitro study of the influence of occlusal scheme on the pressure distribution of complete denture supporting tissues, The International Journal of Prosthodontics 9/2 (1996) 179-187.
• [41] T. Ohguri, F. Kawano, T. Ichikawa, N. Matsumoto, Influence of occlusal scheme on the pressure distribution under a complete denture, The International Journal of Prosthodontics 12/4 (1999) 353-358.
• [42] R. Desjardins, R. Winkelman, J. Gonzalez, Comparison of nerve endings in normal gingiva with those in mucosa covering edentulous alveolar ridges, Journal of Dental Research 50 (1971) 567-879.
• [43] R. Jacobs, D. Steenberghe, Comparative evaluation of the oral tactile function by means of teeth or implant-supported prostheses, Clinical Oral Implants Research 2 (1981) 75-80.
• [44] I.C. Mackenzie, R.L. Ettinger, Differences in the response of rodent oral mucosa and skin to repeated surface trauma. Journal of Prosthetic Dentistry 34/6 (1975) 666-674.
• [45] A.I. Martínez Díaz-Canel, M.J. García-Pola Vallejo, Epidemiological study of oral mucosa pathology in patients of the Oviedo School of Stomatology, Medicina Oral 7/1 (2002) 4-910-6.
• [46] J.S. Landa, Troubleshooting in compete denture prosthesis. Part I, Oral mucosa and border extension, Journal of Prosthetic Dentistry 9 (1959) 978-987.
• [47] J.S. Landa, Troubleshooting in compete denture prosthesis. Part VII, Mucosa; Irritations, Journal of Prosthetic Dentistry 10 (1960) 1022-1028.
• [48] J.E. Sanders, B.S. Goldstein, D.F. Leotta, Skin response to mechanical stress, adaptation rather than breakdown a review of the literature, Journal of Rehabilitation Research and Development 32/3 (1995) 214-226.
• [49] A.R. Frechette, Comparison of balanced and nonbalanced occlusion of artificial dentures based upon distribution of masticatory force, Journal of Prosthetic Dentistry 5/6 (1955) 801-810.
• [50]J. Żmudzki, W. Chladek, Application of finite element analysis to analyze the biomechanical conditions of total dentures, Biomaterials and mechanics in dentistry, Publishing House PTIM, Zabrze, 2010, 214-239 (in Polish).
• [51]T. Kawasaki, Y. Takayama, T. Yamada, K. Notani, Relationship between the stress distribution and the shape of the alveolar residual ridge-three-dimensional behaviour of a lower complete denture, Journal of Oral Rehabilitation 28/10 (2001) 950-957.
• [52]J. Prinz, de R. Wijk, L. Huntjens, Load dependency of the coefficient of friction of oral mucosa, Food Hydrocolloids 21 (2007) 402-408.
• [53]R.A. de Wijk, J.F. Prinz, The role of friction in perceived oral texture, Food Quality and Preference 16 (2005) 121-129.
• [54]J.H.H. Bongaerts, D. Rossetti, J.R. Stokes, The lubricating properties of human whole saliva, Tribology Letters 27 (2007) 277-287.
• [55]H. Ranc, A. Elkhyat , C. Servais , S. Mac-Mary, B. Launay, Ph. Humbert, Friction coefficient and wettability of oral mucosal tissue, Changes induced by a salivary layer, Colloids and Surfaces A: Physicochemical and Engineering Aspects 276 (2006) 155-161.
• [56]E. Sajewicz, Effect of saliva viscosity on tribological behaviour of tooth enamel, Tribology International 42/2 (2009) 327-332.
• [57]I. Ishizuka, T. Mizokami, Relationship between impression method of mucosa-borne area and denture pressure supportability, Bulletin of Tokyo Dental College 34/1 (1993) 23-32.
• [58]T. Ohguri, F Kawano, T. Ichikawa, N. Matsumoto, Influence of occlusal scheme on the pressure distribution under a complete denture, The International Journal of Prosthodontics 12/4 (1999) 353-358.
• [59]N. Taguchi, H. Murata, T. Hamada, G. Hong, Effect of viscoelastic properties of resilient denture liners on pressures under dentures, Journal of Oral Rehabilitation 28/11 (2001) 1003-1008.
• [60]K. Kubo, T. Kawata, H. Suenaga, N. Yoda, R. Shigemitsu, T. Ogawa, K. Sasaki, Development of in vivo measuring system of the pressure distribution under the denture base of removable partial denture, Journal of Prosthodontic Research 53/1 (2009) 15-21.
• [61]K.W. Boening, M.H. Walter, Computer-aided evaluation of occlusal load in complete dentures, Journal of Prosthetic Dentistry 67/3 (1992) 339-344.
• [62]M.A. Compagnoni, R.F. de Souza, C.R. Leles, Kinesiographic study of complete denture movement related to mucosa displacement in edentulous patients, Pesquisa Odontológica Brasileira17/4 (2003) 356-361.
• [63]F. Kawano, K. Asaoka, K. Nagao, N. Matsumoto, Effect of viscoelastic deformation of soft tissue on stresses in the structures under complete denture, Dental Materials Journal 9/1 (1990) 70-79.
• [64]F. Kawano, A. Koran 3rd, K. Asaoka, N. Matsumoto, Effect of soft denture liner on stress distribution in supporting structures under a denture, The International Journal of Prosthodontics 6/1 (1993) 43-49.
• [65]R. Chowdhary, K. Lekha, N.P. Patil, Two-dimensional finite element analysis of stresses developed in the supporting tissues under complete dentures using teeth with different cusp angulations, Gerodontology 25 (2008) 155-161. [66]M. Kosiak, Etiology of decubitus ulcers, Archives of Physical Medicine and Rehabilitation 42 (1961) 19-29.
• [67]E. Linder-Ganz, A. Gefen, Mechanical compression-induced pressure sores in rat hindlimb: muscle stiffness, histology, and computational models, Journal of Applied Physiology 96 (2004) 2034-2049.
• [68]H. Koshino, T. Hirai, T. Ishijima, K. Ohtomo, Influence of mandibular residual ridge shape on masticatory efficiency in complete denture wearers, The International Journal of Prosthodontics 15/3 (2002) 295-298.
• [69]J.K. Rendell, T. Gay, J.E. Grasso, R.A. Baker, J.L. Winston, The effect of denture adhesive on mandibular movement during chewing, Journal of American Dental Association 131/7 (2000) 981-986.
• [70]J. Żmudzki, G. Chladek, J. Kasperski, L.A. Dobrzański, One versus two implant-retained dentures, Comparing biomechanics under oblique mastication forces, Journal of Biomechanical Engineering, 2013 (in print).