Int J Stomatol

Inter J Stomatol ›› 2017, Vol. 44 ›› Issue (6): 726-730.doi: 10.7518/gjkq.2017.06.020

• Reviews • Previous Articles     Next Articles

Research progress on adaptation evaluation methods for fixed prosthesis

Li Xuesheng1, Li Hongbo2   

  1. 1. Dept. of Stomatology, Hainan Branch of Chinese People’s Liberation Army General Hospital, Sanya 572013, China;
    2. Dept. of Prosthodontics, Chinese People’s Liberation Army General Hospital, Beijing 100853, China
  • Received:2017-02-22 Revised:2017-08-06 Online:2017-11-01 Published:2017-11-01
  • Supported by:
    This study was supported by Beijing Science and Technology Plan Program(Z141100002114031).

RichHTML

9

PDF (PC)

410

Abstract: Fixed prosthesis is one of the most commonly used methods in dental clinic. Its unique aesthetic performance and comfortable feeling is better than the removable prosthesis, so it is widely used in clinic. The adaptation is the degree of tightness between the tissue surface of the prosthesis and the tooth prepared surface, which reflects the degree of the restoration of the prosthesis and the precision of the prosthesis. It is an important index to detect the material properties, the quality of the prosthesis and the success of clinical ativity. Now there are many kinds of perfect evaluation methods to evaluate the adaptation of the fixed prosthesis, such as clinical direct exploration and visual examinations, silicone replica technique, direct measurement with a microscope, sectioning, Micro-CT, etc.. This paper will make a systematic review of the research progress of these common methods, and provide some reference value for future research.

Key words: fixed prosthesis, fitness, adaptation

CLC Number: 

  • R783.2

TrendMD: 
[1] 翁蓓军, 黄伟昊, 李国强. CAD/CAM全瓷冠与激光熔覆烤瓷冠边缘适合性的研究[J]. 口腔材料器械杂志, 2014, 23(4):185-188.
Weng BJ, Huang WH, Li GQ. Comparative study of marginal adaptation of crowns by selective laser melting and CAD/CAM methods[J]. Chin J Dent Mater Dev, 2014, 23(4):185-188.
[2] 张艳, 李江, 殷悦, 等. CAD/CAM全瓷冠边缘适合性的评价[J]. 口腔医学研究, 2010, 26(4):541-543.
Zhang Y, Li J, Yin Y, et al. Evaluation on the mar-ginal adaptation of CAD/CAM ceramic crown[J]. J Oral Sci Res, 2010, 26(4):541-543.
[3] Gwinner FP, Bottino MA, Nogueira-Junior L, et al. Effect of finish line on marginal fit of sintered gold copings[J]. Braz Dent J, 2013, 24(4):322-325.
[4] Azar MS, Lehmann KM, Dietrich H, et al. Effect of preparation depth differences on the marginal fit of zirconia crown copings: an in vitro study[J]. Int J Prosthodont, 2011, 24(3):264-266.
[5] Chandrashekar S, Savadi RC, Dayalan M, et al. A comparitive evaluation of the marginal adaptation of zirconium coping and nickel-chromium coping using shoulder finish line design: an in vitro study[J]. J Indian Prosthodont Soc, 2012, 12(4):248-251.
[6] Almeida e Silva JS, Erdelt K, Edelhoff D, et al. Mar-ginal and internal fit of four-unit zirconia fixed dental prostheses based on digital and conventional im-pression techniques[J]. Clin Oral Investig, 2014, 18 (2):515-523.
[7] Zarauz C, Valverde A, Martinez-Rus F, et al. Clinical evaluation comparing the fit of all-ceramic crowns obtained from silicone and digital intraoral impre-ssions[J]. Clin Oral Investig, 2016, 20(4):799-806.
[8] Ueda K, Beuer F, Stimmelmayr M, et al. Fit of 4-unit FDPs from CoCr and zirconia after conven-tional and digital impressions[J]. Clin Oral Investig, 2016, 20(2):283-289.
[9] Reich S, Uhlen S, Gozdowski S, et al. Measurement of cement thickness under lithium disilicate crowns using an impression material technique[J]. Clin Oral Investig, 2011, 15(4):521-526.
[10] Kim KB, Kim WC, Kim HY, et al. An evaluation of marginal fit of three-unit fixed dental prostheses fabricated by direct metal laser sintering system[J]. Dent Mater, 2013, 29(7):e91-e96.
[11] Tamac E, Toksavul S, Toman M. Clinical marginal and internal adaptation of CAD/CAM milling, laser sintering, and cast metal ceramic crowns[J]. J Pros-thet Dent, 2014, 112(4):909-913.
[12] Xu D, Xiang N, Wei B. The marginal fit of selective laser melting-fabricated metal crowns: an in vitro study[J]. J Prosthet Dent, 2014, 112(6):1437-1440.
[13] Nesse H, Ulstein DM, Vaage MM, et al. Internal and marginal fit of cobalt-chromium fixed dental pros-theses fabricated with 3 different techniques[J]. J Prosthet Dent, 2015, 114(5):686-692.
[14] Huang Z, Zhang L, Zhu J, et al. Clinical marginal and internal fit of metal ceramic crowns fabricated with a selective laser melting technology[J]. J Pros-thet Dent, 2015, 113(6):623-627.
[15] Park JK, Lee WS, Kim HY, et al. Accuracy evalua-tion of metal copings fabricated by computer-aided milling and direct metal laser sintering systems[J]. J Adv Prosthodont, 2015, 7(2):122-128.
[16] Kim KB, Kim JH, Kim WC, et al. Evaluation of the marginal and internal gap of metal-ceramic crown fabricated with a selective laser sintering technology: two- and three-dimensional replica techniques[J]. J Adv Prosthodont, 2013, 5(2):179-186.
[17] 陈思宇, 万乾炳. 多次热处理对IPS e.max Press全瓷冠适合性的影响[J]. 广东医学, 2011, 32(17): 2291-2293.
Chen SY, Wan QB. Influence on multiple heat treat-ments on IPS e.max Press all ceramic crowns[J]. Guangdong Med J, 2011, 32(17):2291-2293.
[18] 丁伟山, 黄爱玲, 胡以俊, 等. CAD/CAM氧化锆底层冠适合性的实验研究[J]. 口腔颌面修复学杂志, 2010, 11(3):144-146.
Ding WS, Huang AL, Hu YJ, et al. Evalution of the adaptation of cercon CAD/CAM copings[J]. Chin J Prosthodont, 2010, 11(3):144-146.
[19] 谭发兵, 王璐, 付钢, 等. 不同光学印模法对全瓷冠边缘和内部适合性影响的实验研究[J]. 华西口腔医学杂志, 2010, 28(1):29-33.
Tan FB, Wang L, Fu G, et al. An experimental study on the effect of different optical impression methods on marginal and internal fit of all-ceramic crowns[J]. West Chin J Stomatol, 2010, 28(1):29-33.
[20] Han HS, Yang HS, Lim HP, et al. Marginal accuracy and internal fit of machine-milled and cast titanium crowns[J]. J Prosthet Dent, 2011, 106(3):191-197.
[21] Guess PC, Vagkopoulou T, Zhang Y, et al. Marginal and internal fit of heat pressed versus CAD/CAM fabricated all-ceramic onlays after exposure to thermo-mechanical fatigue[J]. J Dent, 2014, 42(2):199-209.
[22] 吴丽艳, 苏晓晖, 王磊, 等. 微波烧结和常规烧结氧化锆全瓷冠适合性的比较[J]. 临床口腔医学杂志, 2014, 30(7):445-447.
Wu LY, Su XH, Wang L, et al. Comparison the fitness of zirconia ceramic crown sintered by micro-wave sintering method and conventional sintering method[J]. J Clin Stomatol, 2014, 30(7):445-447.
[23] 张志清, 孙艳华. 选择性激光熔化基底冠与铸造基底冠适合性的比较研究[J]. 中国美容医学, 2014, 23(23):1995-1997.
Zhang ZQ, Sun YH. Comparative study of the com-patibility of selective laser melting basement crown and the casting basement crown[J]. Chin J Aesthet Med, 2014, 23(23):1995-1997.
[24] 吴丹, 孙健. 全冠修复体适合性的研究方法[J]. 临床口腔医学杂志, 2012, 28(6):376-377.
Wu D, Sun J. Methods for the study of the adaptation of full crown restorations[J]. J Clin Stomatol, 2012, 28(6):376-377.
[25] Demir N, Ozturk AN, Malkoc MA. Evaluation of the marginal fit of full ceramic crowns by the microcom-puted tomography(micro-CT) technique[J]. Eur J Dent, 2014, 8(4):437-444.
[26] Borba M, Miranda WG Jr, Cesar PF, et al. Evalua-tion of the adaptation of zirconia-based fixed partial dentures using micro-CT technology[J]. Braz Oral Res, 2013, 27(5):396-402.
[27] Wakabayashi K, Sohmura T, Nakamura T, et al. New evaluation method by microfocus radiograph CT for 3D assessment of internal adaptation of all-ceramic crowns[J]. Dent Mater J, 2005, 24(3):362- 367.
[28] Mously HA, Finkelman M, Zandparsa R, et al. Mar-ginal and internal adaptation of ceramic crown res-torations fabricated with CAD/CAM technology and the heat-press technique[J]. J Prosthet Dent, 2014, 112(2):249-256.
[1] Yang Guangmei,Wang Jian. Mechanical properties of monolithic zirconia crowns and its relationship with clinical application [J]. Int J Stomatol, 2022, 49(1): 79-84.
[2] Meng Xiuping,Hou Jianhua,Li Yiran,Sun Mengyao. Research progress on the selection and design of base materials in deep margin elevation [J]. Int J Stomatol, 2021, 48(3): 280-286.
[3] Wan Qianbing. Several problems on monolithic zirconia crowns [J]. Inter J Stomatol, 2018, 45(1): 9-13.
[4] Liu Yang, Zhao Hanchi. Rehabilitation of worn dentition complicated by clicking joint [J]. Inter J Stomatol, 2017, 44(1): 11-18.
[5] Zhang Ping. Reconstruction and adaptation of tumor niche [J]. Inter J Stomatol, 2014, 41(2): 125-128.
[6] Xu Xiaohua1, Cao Xiaoma2, Li Quanli1.. Development of gingival retraction technology [J]. Inter J Stomatol, 2012, 39(4): 540-542.
[7] TENG Ji-li, LUO Lin, LIANG Xing, WANG Hang.. An in vitro study of the marginal fit and fracture strength of Ceramage ceramic o [J]. Inter J Stomatol, 2010, 37(3): 277-277~279,283.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] . [J]. Foreign Med Sci: Stomatol, 1999, 26(06): .
[2] . [J]. Foreign Med Sci: Stomatol, 1999, 26(06): .
[3] . [J]. Foreign Med Sci: Stomatol, 1999, 26(05): .
[4] . [J]. Foreign Med Sci: Stomatol, 1999, 26(05): .
[5] . [J]. Foreign Med Sci: Stomatol, 1999, 26(05): .
[6] . [J]. Foreign Med Sci: Stomatol, 1999, 26(04): .
[7] . [J]. Foreign Med Sci: Stomatol, 1999, 26(04): .
[8] . [J]. Foreign Med Sci: Stomatol, 1999, 26(04): .
[9] . [J]. Foreign Med Sci: Stomatol, 1999, 26(04): .
[10] . [J]. Foreign Med Sci: Stomatol, 1999, 26(04): .