Resonance frequency analysis as a predictor of early implant failure in the partially edentulous posterior maxilla following immediate nonfunctional loading or delayed loading with single unit restorations

Objectives To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension. Materials and m...

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Published inClinical oral implants research Vol. 26; no. 2; pp. 183 - 190
Main Authors Kim, Steven J., Ribeiro, Alexandre L. V. L., Atlas, Alan M., Saleh, Najeed, Royal, Jamie, Radvar, Mehrdad, Korostoff, Jonathan
Format Journal Article
LanguageEnglish
Published Denmark Blackwell Publishing Ltd 01.02.2015
Subjects
Crowns
Dental Implants, Single-Tooth
Dental Restoration Failure - statistics & numerical data
Follow-Up Studies
Humans
Immediate Dental Implant Loading
immediate loading
implant stability
Jaw, Edentulous, Partially - diagnostic imaging
Jaw, Edentulous, Partially - surgery
maxilla
Maxilla - diagnostic imaging
Maxilla - surgery
Prospective Studies
resonance frequency analysis
Statistics, Nonparametric
Tomography, X-Ray Computed
Vibration
implant stability
immediate loading
resonance frequency analysis
maxilla
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Abstract Objectives To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension. Materials and methods This prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer‐assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure. Results The mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12‐month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure. Conclusion Baseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.
AbstractList To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension.OBJECTIVESTo assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension.This prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer-assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure.MATERIALS AND METHODSThis prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer-assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure.The mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12-month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure.RESULTSThe mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12-month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure.Baseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.CONCLUSIONBaseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.
To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension. This prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer-assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure. The mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12-month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure. Baseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.
Objectives To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension. Materials and methods This prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer‐assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure. Results The mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12‐month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure. Conclusion Baseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.
To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate potential correlations between this measurement with Hounsfield units, bone quality variables, and implant dimension. This prospective randomized study involved 46 SLActive Straumann implants placed in the posterior maxillae of 21 subjects. Each patient received at least one control (delayed loading) and one experimental (immediate nonfunctional loading) implant. Each site was evaluated with presurgical computer-assisted tomography (CT) scans, histomorphometric analysis of bone cores, and subjective determination of bone quality. Baseline implant stability quotients (ISQ) were determined by RFA measurements made at the time of fixture placement. Pearson's correlation analysis and Spearman's test were used to identify statistically significant correlations within the resultant data. Receiver operating characteristic (ROC) analysis was used to determine whether baseline ISQ values can accurately predict early implant failure. The mean baseline ISQ values for the two groups were 66.8 (experimental) and 66.2 (control). The 12-month survival rates were 86.4% (experimental) and 100% (control). There were no statistically significant correlations between baseline ISQ values and early implant failure, bone quality variables, or implant dimension. ROC analysis showed that baseline ISQ values cannot predict early implant failure. Baseline RFA measurements were not able to predict early failure of immediately loaded implants placed in the posterior maxilla and therefore should not be used to determine whether an implant is a candidate for immediate nonfunctional loading in this region of the mouth.
Author Radvar, Mehrdad
Ribeiro, Alexandre L. V. L.
Atlas, Alan M.
Kim, Steven J.
Royal, Jamie
Saleh, Najeed
Korostoff, Jonathan
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  email: jkorosto@dental.upenn.edu
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Issue 2
Keywords implant stability
immediate loading
resonance frequency analysis
maxilla
Language English
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White, S.C., Kaffe, I. & Gornbein, J.A. (1990) Prediction of efficacy of bitewing radiographs for caries detection. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology 69: 506-513.
Kahraman, S., Bal, B.T., Asar, N.V., Turkyilmaz, I. & Tozum, T.F. (2009) Clinical study on the insertion torque and wireless resonance frequency analysis in the assessment of torque capacity and stability of self-tapping dental implants. Journal of Oral Rehabilitation 36: 755-761.
Atieh, M.A., Payne, A.G., Duncan, W.J., de Silva, R.K. & Cullinan, M.P. (2010) Immediate placement or immediate restoration/loading of single implants for molar tooth replacement: a systematic review and meta-analysis. The International Journal of Oral & Maxillofacial Implants 25: 401-415.
Atsumi, M., Park, S.H. & Wang, H.L. (2007) Methods used to assess implant stability: current status. The International Journal of Oral & Maxillofacial Implants 22: 743-754.
Javed, F. & Romanos, G.E. (2010) The role of primary stability for successful immediate loading of dental implants. A literature review. Journal of Dentistry 38: 612-620.
Bischof, M., Nedir, R., Szmukler-Moncler, S., Bernard, J.P. & Samson, J. (2004) Implant stability measurement of delayed and immediately loaded implants during healing. Clinical Oral Implants Research 15: 529-539.
Hausen, H. (1997) Caries prediction-state of the art. Community Dentistry and Oral Epidemiology 25: 87-96.
Kessler-Liechti, G., Zix, J. & Mericske-Stern, R. (2008) Stability measurements of 1-stage implants in the edentulous mandible by means of resonance frequency analysis. The International Journal of Oral & Maxillofacial Implants 23: 353-358.
da Cunha, H.A., Francischone, C.E., Filho, H.N. & de Oliveira, R.C. (2004) A comparison between cutting torque and resonance frequency in the assessment of primary stability and final torque capacity of standard and Tiunite single-tooth implants under immediate loading. The International Journal of Oral & Maxillofacial Implants 19: 578-585.
Rodrigo, D., Aracil, L., Martin, C. & Sanz, M. (2010) Diagnosis of implant stability and its impact on implant survival: a prospective case series study. Clinical Oral Implants Research 21: 255-261.
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Misch, C., Perel, M.L., Wang, H., Sammartino, G., Galindo-Moreno, P., Trisi, P., Steigmann, M., Rebaudi, A., Palti, A., Pikos, M.A., Schwartz-Arad, D., Choukroun, J., Gutierrez-Perez, J., Marenzi, G. & Valavanis, D.K. (2008) Implant success, survival, and failure: the international congress of oral implantologists (ICOI) Pisa consensus conference. Implant Dentistry 17: 5-15.
van Palenstein Helderman, W.H., Mulder, J., van't Hoff, M.A. & Truin, G.J. (2001) Validation of a Swiss method of caries prediction in Dutch children. Community Dentistry and Oral Epidemiology 29: 341-345.
Steiner, M., Helfenstein, U. & Marthaler, T.M. (1992) Dental predictors of high caries increment in children. Journal of Dental Research 71: 1926-1933.
Su, Y.Y., Wilmes, B., Honscheid, R. & Drescher, D. (2009) Application of a wireless resonance frequency transducer to assess primary stability of orthodontic mini-implants: an in vitro study in pig ilia. The International Journal of Oral & Maxillofacial Implants 24: 647-654.
Degidi, M., Perrotti, V., Piattelli, A. & Iezzi, G. (2010) Mineralized bone-implant contact and implant stability quotient in 16 human implants retrieved after early healing periods: a histologic and histomorphometric evaluation. The International Journal of Oral & Maxillofacial Implants 25: 45-48.
Sennerby, L. & Meredith, N. (2008) Implant stability measurements using resonance frequency analysis: biological and biomechanical aspects and clinical implications. Periodontology 2000 47: 51-66.
2010; 12
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Kessler‐Liechti G. (e_1_2_6_24_1) 2008; 23
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Snippet Objectives To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to...
To assess the ability of baseline resonance frequency analysis (RFA) measurements to predict early implant failure in the posterior maxilla and to evaluate...
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SubjectTerms Crowns
Dental Implants, Single-Tooth
Dental Restoration Failure - statistics & numerical data
Follow-Up Studies
Humans
Immediate Dental Implant Loading
immediate loading
implant stability
Jaw, Edentulous, Partially - diagnostic imaging
Jaw, Edentulous, Partially - surgery
maxilla
Maxilla - diagnostic imaging
Maxilla - surgery
Prospective Studies
resonance frequency analysis
Statistics, Nonparametric
Tomography, X-Ray Computed
Vibration
Title Resonance frequency analysis as a predictor of early implant failure in the partially edentulous posterior maxilla following immediate nonfunctional loading or delayed loading with single unit restorations
URI https://api.istex.fr/ark:/67375/WNG-X4GHQL1D-7/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fclr.12310
https://www.ncbi.nlm.nih.gov/pubmed/24325547
https://www.proquest.com/docview/1645782749
https://www.proquest.com/docview/1654674070
Volume 26
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