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Tytuł artykułu

Computer aided manufacturing and design of fixed bridges restoring the lost dentition, soft tissue and the bone

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the paper is to present the methodology of computer aided designing and manufacturing of an all-ceramic multi-unit bridge restoring missing teeth and the lost soft and hard tissues of the oral cavity as a result of surgical treatment of oral tumor. Design/methodology/approach: The methodology of computer aided designing and manufacturing of the multi-unit all-ceramic bridge was presented on the basis of an actual clinical case of a patient who underwent the surgical treatment of myxoma of the oral cavity. All the steps of clinical and technical production of the bridge were described and illustrated. Findings: It is possible to use the CAD/CAM technology to design and manufacture all-ceramic multi-unit bridges restoring missing teeth and the lost soft and hard tissues of the oral cavity. The design of the bridge must be clinically validated using mock-ups and only then can be implemented for the CAM software. Practical implications: Thanks to the method of designing and manufacturing of multiunit all-ceramic bridges for patients with significant lost of the soft and hard tissues of the mouth it is possible to carry out a prosthetic rehabilitation of patients after trauma and tumor surgery. Originality/value: : The execution of extensive bridges with the maximum available height of about 25 mm requires a high technological rigor at the design and manufacture stage. To ensure longevity of the reconstruction, it is necessary to plan all the work while maintaining the maximum thickness of the substructure. It is desirable to provide minimum of 2 mm thick substructure and the surface of at least 20 mm2 or more in the cross-sections. At the same time, the structure of the bridge must be supported on the alveolar ridge to provide aesthetics and endurance.
Rocznik
Strony
68--75
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
  • Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
  • Centre of Medicine and Dentistry SOBIESKI, ul. Sobieskiego 12, 44-100 Gliwice, Poland
Bibliografia
  • [1] R.C. Silveira Rodrigues, A.C. Lapria Faria, A.P. Macedo, M.G. Chiarello de Mattos, R.F. Ribeiro, Retention and stress distribution in distal extension removable partial dentures with and without implant association, Journal of Prosthodontic Research 57 (2013) 24-29.
  • [2] D.M. Bohnenkamp, Removable Partial Dentures Clinical Concepts, Dental Clinics of North America 58/1 (2014) 69-89.
  • [3] G. McKenna, P.F. Allen, D. O’Mahony, M. Cronin, C. DaMata, N. Wood, The impact of rehabilitation using removable partial dentures and functionally orientated treatment on oral health-related quality of life: A randomised controlled clinical trial, Journal of Dentistry 43/1 (2015) 66-71.
  • [4] D.R. Nelson, J.F. Palik, Duplicate casts in fabrication of temporary removable partial dentures, The Journal of Prosthetic Dentistry 53/3 (1985) 441-442.
  • [5] S.K. Hummel, M.A. Wilson, V.A. Marker, M.E. Nunn, Quality of removable partial dentures worn by the adult U.S. population, The Journal of Prosthetic Dentistry 88/1 (2002) 37-43.
  • [6] K. Kono, D. Kurihara, Y. Suzuki, C. Ohkubo, Pressure distribution of implant-supported removable partial dentures with stress-breaking attachments. Journal of Prosthodontic Research 58/2 (2014) 115-120.
  • [7] Y. Goto, J.S. Brudvik, Custom precision attachment housings for removable partial dentures, The Journal of Prosthetic Dentistry 88/1 (2002) 100-102.
  • [8] C.H. Wang, H.E. Lee, J.K. Du, Y Igarashi, Connecting rigidities of various precision attachments compared with the conical crown retained telescope, The Kaohsiung Journal of Medical Sciences 21/1 (2005) 22-28.
  • [9] A.A.A. Mahmoud, N. Wakabayashi, H. Takahashi, Prediction of permanent deformation in cast clasps for denture prostheses using a validated nonlinear finite element model, Dental Materials 23/3 (2007) 317-324.
  • [10] N. Olvera, J.D. Jones, Alternatives to traditional complete dentures, Dental Clinics of North America 58/1 (2014) 91-102.
  • [11] M. Hundal, R. Madan, Comparative clinical evaluation of removable partial dentures made of two different materials in Kennedy Applegate class II partially edentulous situation, Medical Journal Armed Forces India 71/2 (2015) S306-S312.
  • [12] B. Orzechowska-Wylęgała, M. Kajor, M. Mazur, A. Wodołażski, P. Malara, J. Drugacz: Malignant lymphoma or inflammation? Difficulties diagnostic and therapeutic – two cases, Polish Merkuriusz Medicine 20/118 (2006) 433-436.
  • [13] J. Żmudzki, P. Malara, G. Chladek, Full contoured tooth-implant supported 3-pointic all-ceramic denture during occlusal load transfer in lateral region, Archives of Metallurgy and Materials 61/2A (2016) 843-846.
  • [14] P. Malara, L.B. Dobrzański, Computer-aided design and manufacturing of dental surgical guides based on cone beam computed tomography, Archives of Materials Science and Engineering 76/2 (2015) 140-149.
  • [15] P. Malara, L.B. Dobrzański, Designing and manufacturing of implantoprosthetic fixed suprastructures in edentulous patients on the basis of digital impressions, Archives of Materials Science and Engineering 76/2 (2015) 163-171.
  • [16] P. Malara, L.B. Dobrzański, J. Dobrzańska, Computeraided designing and manufacturing of partial removable dentures. Journal of Achievements of Materials and Manufacturing Engineering 73/2 (2015) 157-164.
  • [17] J. Żmudzki, G. Chladek, P. Malara, L. Dobrzański, The simulation of a mastication efficiency of the mucous-borne complete dentures. Archives of Materials Science and Engineering 63/2 (2013) 75-86.
  • [18] S.C. Gutiérrez-Rubert, M.D. Meseguer-Calas, A. Gandía-Barberá, Analysis of the feeding system in the injection process of peek in fixed partial dentures, Procedia Engineering 132 (2015) 1021-1028.
  • [19] G. Chladek, J. Żmudzki, P. Malara, L.A Dobrzański, C. Krawczyk, Influence of introducing silver nanoparticles on tribological characteristics of soft liner, Archives of Materials Science and Engineering 62/1 (2013) 5-14.
  • [20] M. Hannig, B. Wöstmann, M. Balkenhol, Fracture strength of temporary fixed partial dentures: CAD/CAM versus directly fabricated restorations, Dental Materials 27/4 (2011) 339-347.
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-cbd9f3a3-6537-4fbf-be31-471dc0654197
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