Reliability and validity of two computerised occlusion analysis systems

The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems. Three occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale o...

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Published inJournal of dentistry Vol. 118; p. 104051
Main Authors Zhao, Zhe, Wang, Qing, Zheng, Xiuli, An, Na, Zhou, Ming, Niu, Lina, Tay, Franklin R., Chen, Jihua, Wang, Fu
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.03.2022
Elsevier Limited
Subjects
Coefficient of variation
Computerised
Data processing
Dental Occlusion
Dentistry
Dentition
Exports
Humans
Methods
Occlusal contact area
Occlusion
Occlusion analysis
Quantitative analysis
Regression analysis
Reliability
Reliability analysis
Reproducibility of Results
Scanners
Software
Statistical analysis
Systems analysis
Teeth
Validity
Denmark
United States > US
Japan
Germany
Validity
Occlusion analysis
Reliability
Occlusal contact area
Computerised
Online AccessGet full text
ISSN0300-5712
1879-176X
1879-176X
DOI10.1016/j.jdent.2022.104051

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Abstract The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems. Three occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale occlusion analysis system (DPO) and a modified virtual occlusion construction method (VOC)). For reliability evaluation, the occlusion of an articulator-mounted anatomical dentoform was analysed ten times with each of the three methods. Occlusal contact areas and contact number values were obtained and the coefficient of variation (CoV) of each method was compared. For validity evaluation, resin casts of the dentition of 10 human subjects were used for analysis. Paired t-tests, regression analysis and Bland-Altman analysis were used to evaluate the difference and agreement amongst the three methods. The CoV values of occlusal contact areas from the entire dentition were in the order: SAP (5.7%) < DPO (12.7%) < VOC (15.6%). Higher values was found in the anterior teeth (19.8–40.8%). Significant differences were identified in the occlusal contact areas of the entire dentition and posterior teeth obtained from SAP and DPO; a significant correlation was detected between the two methods (P < 0.01). Bland-Altman agreement analysis indicated good agreement between SAP and VOC. Both DPO and VOC have good reliability and validity. They are potential alternatives for analysis of occlusal contacts. The dental prescale occlusion analysis system and the modified virtual occlusion constructed method combine convenience with the objectivity of digital technology. These computerised occlusion analysis systems may be used for quantitative analysis of occlusal contacts in clinical practice, with good reliability and validity.
AbstractList The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems.OBJECTIVESThe present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems.Three occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale occlusion analysis system (DPO) and a modified virtual occlusion construction method (VOC)). For reliability evaluation, the occlusion of an articulator-mounted anatomical dentoform was analysed ten times with each of the three methods. Occlusal contact areas and contact number values were obtained and the coefficient of variation (CoV) of each method was compared. For validity evaluation, resin casts of the dentition of 10 human subjects were used for analysis. Paired t-tests, regression analysis and Bland-Altman analysis were used to evaluate the difference and agreement amongst the three methods.METHODSThree occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale occlusion analysis system (DPO) and a modified virtual occlusion construction method (VOC)). For reliability evaluation, the occlusion of an articulator-mounted anatomical dentoform was analysed ten times with each of the three methods. Occlusal contact areas and contact number values were obtained and the coefficient of variation (CoV) of each method was compared. For validity evaluation, resin casts of the dentition of 10 human subjects were used for analysis. Paired t-tests, regression analysis and Bland-Altman analysis were used to evaluate the difference and agreement amongst the three methods.The CoV values of occlusal contact areas from the entire dentition were in the order: SAP (5.7%) < DPO (12.7%) < VOC (15.6%). Higher values was found in the anterior teeth (19.8-40.8%). Significant differences were identified in the occlusal contact areas of the entire dentition and posterior teeth obtained from SAP and DPO; a significant correlation was detected between the two methods (P < 0.01). Bland-Altman agreement analysis indicated good agreement between SAP and VOC.RESULTSThe CoV values of occlusal contact areas from the entire dentition were in the order: SAP (5.7%) < DPO (12.7%) < VOC (15.6%). Higher values was found in the anterior teeth (19.8-40.8%). Significant differences were identified in the occlusal contact areas of the entire dentition and posterior teeth obtained from SAP and DPO; a significant correlation was detected between the two methods (P < 0.01). Bland-Altman agreement analysis indicated good agreement between SAP and VOC.Both DPO and VOC have good reliability and validity. They are potential alternatives for analysis of occlusal contacts.CONCLUSIONSBoth DPO and VOC have good reliability and validity. They are potential alternatives for analysis of occlusal contacts.The dental prescale occlusion analysis system and the modified virtual occlusion constructed method combine convenience with the objectivity of digital technology. These computerised occlusion analysis systems may be used for quantitative analysis of occlusal contacts in clinical practice, with good reliability and validity.CLINICAL SIGNIFICANCEThe dental prescale occlusion analysis system and the modified virtual occlusion constructed method combine convenience with the objectivity of digital technology. These computerised occlusion analysis systems may be used for quantitative analysis of occlusal contacts in clinical practice, with good reliability and validity.
The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems. Three occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale occlusion analysis system (DPO) and a modified virtual occlusion construction method (VOC)). For reliability evaluation, the occlusion of an articulator-mounted anatomical dentoform was analysed ten times with each of the three methods. Occlusal contact areas and contact number values were obtained and the coefficient of variation (CoV) of each method was compared. For validity evaluation, resin casts of the dentition of 10 human subjects were used for analysis. Paired t-tests, regression analysis and Bland-Altman analysis were used to evaluate the difference and agreement amongst the three methods. The CoV values of occlusal contact areas from the entire dentition were in the order: SAP (5.7%) < DPO (12.7%) < VOC (15.6%). Higher values was found in the anterior teeth (19.8–40.8%). Significant differences were identified in the occlusal contact areas of the entire dentition and posterior teeth obtained from SAP and DPO; a significant correlation was detected between the two methods (P < 0.01). Bland-Altman agreement analysis indicated good agreement between SAP and VOC. Both DPO and VOC have good reliability and validity. They are potential alternatives for analysis of occlusal contacts. The dental prescale occlusion analysis system and the modified virtual occlusion constructed method combine convenience with the objectivity of digital technology. These computerised occlusion analysis systems may be used for quantitative analysis of occlusal contacts in clinical practice, with good reliability and validity.
ObjectivesThe present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems.MethodsThree occlusion analysis methods were evaluated. The methods included one traditional method (scanning of articulating paper marks (SAP)) and two computerised systems: (dental prescale occlusion analysis system (DPO) and a modified virtual occlusion construction method (VOC)). For reliability evaluation, the occlusion of an articulator-mounted anatomical dentoform was analysed ten times with each of the three methods. Occlusal contact areas and contact number values were obtained and the coefficient of variation (CoV) of each method was compared. For validity evaluation, resin casts of the dentition of 10 human subjects were used for analysis. Paired t-tests, regression analysis and Bland-Altman analysis were used to evaluate the difference and agreement amongst the three methods.ResultsThe CoV values of occlusal contact areas from the entire dentition were in the order: SAP (5.7%) < DPO (12.7%) < VOC (15.6%). Higher values was found in the anterior teeth (19.8–40.8%). Significant differences were identified in the occlusal contact areas of the entire dentition and posterior teeth obtained from SAP and DPO; a significant correlation was detected between the two methods (P < 0.01). Bland-Altman agreement analysis indicated good agreement between SAP and VOC.ConclusionsBoth DPO and VOC have good reliability and validity. They are potential alternatives for analysis of occlusal contacts.Clinical significanceThe dental prescale occlusion analysis system and the modified virtual occlusion constructed method combine convenience with the objectivity of digital technology. These computerised occlusion analysis systems may be used for quantitative analysis of occlusal contacts in clinical practice, with good reliability and validity.
ArticleNumber 104051
Author Zheng, Xiuli
Chen, Jihua
Wang, Fu
Niu, Lina
Tay, Franklin R.
An, Na
Zhou, Ming
Zhao, Zhe
Wang, Qing
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Keywords Validity
Occlusion analysis
Reliability
Occlusal contact area
Computerised
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  publication-title: Int. J. Prosthodont.
– volume: 24
  start-page: 42
  year: 2015
  ident: 10.1016/j.jdent.2022.104051_bib0003
  article-title: Occlusal contact of fixed implant prostheses using functional bite impression technique
  publication-title: Implant. Dent.
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Snippet The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems. Three occlusion analysis methods were...
ObjectivesThe present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems.MethodsThree occlusion analysis...
The present in vitro study evaluated the reliability and validity of two computerised occlusion analysis systems.OBJECTIVESThe present in vitro study evaluated...
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SubjectTerms Coefficient of variation
Computerised
Data processing
Dental Occlusion
Dentistry
Dentition
Exports
Humans
Methods
Occlusal contact area
Occlusion
Occlusion analysis
Quantitative analysis
Regression analysis
Reliability
Reliability analysis
Reproducibility of Results
Scanners
Software
Statistical analysis
Systems analysis
Teeth
Validity
Title Reliability and validity of two computerised occlusion analysis systems
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0300571222001087
https://dx.doi.org/10.1016/j.jdent.2022.104051
https://www.ncbi.nlm.nih.gov/pubmed/35081421
https://www.proquest.com/docview/2646137170
https://www.proquest.com/docview/2623324630
Volume 118
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