Fig. 4. Scatterplot depicting indirect calculated and direct measured ISQ values of the tested implants
Fig. 4. Scatterplot depicting indirect calculated and direct measured ISQ values of the tested implants
Fig. 3. Example of a typical autospectrum pointing to a 1 maximum RF based on 1000 measurements in case of a Straumann test implant
Fig. 3. Example of a typical autospectrum pointing to a 1 maximum RF based on 1000 measurements in case of a Straumann test implant
Fig. 2. Clamped Osstell probe orientated towards a Smartpeg mounted on a test implant. Note the red laser beam dot on the flat surface of the Smartpeg hexagon part
Fig. 2. Clamped Osstell probe orientated towards a Smartpeg mounted on a test implant. Note the red laser beam dot on the flat surface of the Smartpeg hexagon part
Fig. 1. Concept for study of deflection and stiffness aspects of implant-Smartpeg complex by laser Doppler vibrometry. Intentional partial imbedding of implants allows to detect both the deflection of implant and Smartpeg separately at different vertical levels by changing the position of the laser beam
Fig. 1. Concept for study of deflection and stiffness aspects of implant-Smartpeg complex ...
Batch #
Implant system
Implant length (mm)
Implant diameter (mm)
Mean measured resonance freq (kHz)
SD meas...
Author and study
Implant position (implant number)
Mean ISQ values at given time-point post-insertion
Type of Osstell device used
Barewal et al. 2003 [10]
...
Debruyne, S., Grognard, N., Verleye, G. et al. ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency.
Int J Implant Dent 3, 44 (2017). https://doi.org/10.1186/s40729-017-0105-3
Download citation
Received: 11 April 2017
Accepted: 28 September 2017
Published: 12 October 2017
DOI: https://doi.org/10.1186/s40729-017-0105-3
Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were...
Stijn Debruyne, Nicolas Grognard, Gino Verleye, Korneel Van Massenhove, Dimitrios Mavreas, and Bart Vande Vannet declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Correspondence to
Nicolas Grognard.
Department of Mechanics, Research Group Propolis, School of Engeneering Sciences, Katholieke Hoge School Brugge-Oostende, Ostend, Belgium
Stijn Debruyne
Kliniek Royal, Koningstraat 41, 8400, Ostend, Belgium
Nicolas Grognard
CHIR-Unit Dentistry–ORHE, Department of Orthodontics, Faculty of Medicine and Pharmacy, Vrije Universiteit Brussel, Laarbeeklaan 103, 1090, Brussels, Belgium
Nicolas Gro...
Han J, Lulic M, Lang NP. Factors influencing resonance frequency analyis assessed by Osstell Mentor during implant issue integration: II: implant surface modifications and implant diameter. Clin Oral Implants Res. 2010;6:605–11.
Bornstein M, Hart C, Halbritter S, Morton D, Buser D. Early loading of nonsubmerged titanium implants with a chemically modified sand-blasted and acid-etched surface: 6...
Adell R, Lekholm U, Brånemark PI. Surgical procedures. In: Brånemark PI, Zarb GA, Albrektsson T, editors. Tissue integrated prothese. Osseointegration in clinical dentistry. Chigaco: Quintessence; 1985. p. 211–32.
Strid K. Radiographic procedures. In: Brånemark P-I, Zarb G, Albrektsson T, editors. Tissue integrated prothese. Osseointegration in clinical dentistry. Chigaco: Quintessence; 1985...
In conclusion, the present study demonstrated that the algorithm applied and provided by Osstell to calculate ISQ values is correct, making the laboratory procedure valuable for future research focused on stiffness aspects of the implant-Smartpeg complex and its possible influence on the overall RFA measurement. Vice versa, the present study demonstrates the correctness of the actual applied algor...
The focus of this in vitro study was to develop a laboratory method, intended for future research of aspects of implant-Smartpeg complex stiffness and its possible influence on the overall RFA-based implant stability determination. In the past, other laboratory methodologies have been engineered to investigate implant deflection and/or lateral displacement by means of transducers. A setup using a ...
Mean values (± SD) of recorded maximum RF values, calculated indirect ISQ values, and direct recorded ISQ values for Ankylos (A) and Straumann (S) test implants are shown in Table 2.
Using the Shapiro-Wilk test for indirect ISQ (p = 0.05) and direct ISQ (p = 0.02), we can conclude that both indirect and direct ISQ measures are not drawn from a normal distribution (data not shown). Bot...
In total, for each given implant type with a given diameter/length configuration, 25 measurements for indirect and 5 measurements for direct ISQ computing were performed.
The SPSS statistical software package 22.0 (IBM SPSS, Chicago, USA) was used. A Shapiro-Wilk test was used to verify distribution normality for both direct and indirect determined ISQ values. The paired sample t test and the Wil...
The Smartpeg excitation mode was exactly performed as described above. Notation of the maximum resonance frequency for indirect measurements is followed by notation of direct ISQ value on the display of Osstell IDx device. Positioning of the probe was not changed during indirect and direct recordings for a given test implant.
Each resin block contained five identical implants with attached Smartp...
Test implants originating from various manufacturers were investigated. Straumann sandblasted, large-grit, acid-etched (SLA)® tissue level standard implants (Straumann AG, Basel, Switzerland) with the following diameter: length configurations were 3.3–12 mm (RN connection), 3.3–4.1 mm (RN connection), and 4.8–8 mm (WN connection), Ankylos Cell Plus® surfaced B-implant types (Dentsply Im...
Laser Doppler vibrometry possesses a working principle based on the so-called Doppler effect and allows non-contact quantitative measurement of vibration (https://en.wikpedia.org/wiki/Laser_scanning_vibrometry, 2017). The Doppler effect itself finds its origin when a light beam is backscattered on a vibrating surface and experiences a change in wave phase (https://en.wikipedia.org/wiki/Doppler_eff...
The computed ISQ value is based on the following calculation formulae:
Hereby, f denotes the measured maximum resonance frequency (RF). Coefficients a, b, c, d, and e are property information of Osstell (Osstell AB, Gothenburg, Sweden). The coefficients were provided for internal use under the agreement of no publication. From clinical reports [10,11,12,13,14,15,16] listed in Table 1, it ...
At present, multiple implant stability assessment methodologies are used, both of invasive and non-invasive nature, including percussion test [1], X-ray evaluation [2], cutting resistance during implant insertion (e.g., electronic insertion torque determination) [3], turn-out or reverse torque test [4], Periotest® [5, 6], and resonance frequency analysis (“RFA”), e.g., the Osstell method [7, ...
Implant stability testing at various stages of implant therapy by means of resonance frequency analysis is extensively used. The overall measurement outcome is a function of the resulting stiffness of three entities: surrounding bone, bone-implant complex, and implant-Smartpeg complex. The influence of the latter on the overall measurement results is presently unknown. It can be investigated in vi...
Fig. 4. Scatterplot depicting indirect calculated and direct measured ISQ values of the tested implants
Fig. 4. Scatterplot depicting indirect calculated and direct measured ISQ values of the tested implants
Fig. 3. Example of a typical autospectrum pointing to a 1 maximum RF based on 1000 measurements in case of a Straumann test implant
Fig. 3. Example of a typical autospectrum pointing to a 1 maximum RF based on 1000 measurements in case of a Straumann test implant
Fig. 2. Clamped Osstell probe orientated towards a Smartpeg mounted on a test implant. Note the red laser beam dot on the flat surface of the Smartpeg hexagon part
Fig. 2. Clamped Osstell probe orientated towards a Smartpeg mounted on a test implant. Note the red laser beam dot on the flat surface of the Smartpeg hexagon part
Fig. 1. Concept for study of deflection and stiffness aspects of implant-Smartpeg complex by laser Doppler vibrometry. Intentional partial imbedding of implants allows to detect both the deflection of implant and Smartpeg separately at different vertical levels by changing the position of the laser beam
Fig. 1. Concept for study of deflection and stiffness aspects of implant-Smartpeg complex ...
Batch #
Implant system
Implant length (mm)
Implant diameter (mm)
Mean measured resonance freq (kHz)
SD meas...
Author and study
Implant position (implant number)
Mean ISQ values at given time-point post-insertion
Type of Osstell device used
Barewal et al. 2003 [10]
...
Debruyne, S., Grognard, N., Verleye, G. et al. ISQ calculation evaluation of in vitro laser scanning vibrometry-captured resonance frequency.
Int J Implant Dent 3, 44 (2017). https://doi.org/10.1186/s40729-017-0105-3
Download citation
Received: 11 April 2017
Accepted: 28 September 2017
Published: 12 October 2017
DOI: https://doi.org/10.1186/s40729-017-0105-3
Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were...
Stijn Debruyne, Nicolas Grognard, Gino Verleye, Korneel Van Massenhove, Dimitrios Mavreas, and Bart Vande Vannet declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Correspondence to
Nicolas Grognard.
Department of Mechanics, Research Group Propolis, School of Engeneering Sciences, Katholieke Hoge School Brugge-Oostende, Ostend, Belgium
Stijn Debruyne
Kliniek Royal, Koningstraat 41, 8400, Ostend, Belgium
Nicolas Grognard
CHIR-Unit Dentistry–ORHE, Department of Orthodontics, Faculty of Medicine and Pharmacy, Vrije Universiteit Brussel, Laarbeeklaan 103, 1090, Brussels, Belgium
Nicolas Gro...
Han J, Lulic M, Lang NP. Factors influencing resonance frequency analyis assessed by Osstell Mentor during implant issue integration: II: implant surface modifications and implant diameter. Clin Oral Implants Res. 2010;6:605–11.
Bornstein M, Hart C, Halbritter S, Morton D, Buser D. Early loading of nonsubmerged titanium implants with a chemically modified sand-blasted and acid-etched surface: 6...
Adell R, Lekholm U, Brånemark PI. Surgical procedures. In: Brånemark PI, Zarb GA, Albrektsson T, editors. Tissue integrated prothese. Osseointegration in clinical dentistry. Chigaco: Quintessence; 1985. p. 211–32.
Strid K. Radiographic procedures. In: Brånemark P-I, Zarb G, Albrektsson T, editors. Tissue integrated prothese. Osseointegration in clinical dentistry. Chigaco: Quintessence; 1985...
In conclusion, the present study demonstrated that the algorithm applied and provided by Osstell to calculate ISQ values is correct, making the laboratory procedure valuable for future research focused on stiffness aspects of the implant-Smartpeg complex and its possible influence on the overall RFA measurement. Vice versa, the present study demonstrates the correctness of the actual applied algor...
The focus of this in vitro study was to develop a laboratory method, intended for future research of aspects of implant-Smartpeg complex stiffness and its possible influence on the overall RFA-based implant stability determination. In the past, other laboratory methodologies have been engineered to investigate implant deflection and/or lateral displacement by means of transducers. A setup using a ...
Mean values (± SD) of recorded maximum RF values, calculated indirect ISQ values, and direct recorded ISQ values for Ankylos (A) and Straumann (S) test implants are shown in Table 2.
Using the Shapiro-Wilk test for indirect ISQ (p = 0.05) and direct ISQ (p = 0.02), we can conclude that both indirect and direct ISQ measures are not drawn from a normal distribution (data not shown). Bot...
In total, for each given implant type with a given diameter/length configuration, 25 measurements for indirect and 5 measurements for direct ISQ computing were performed.
The SPSS statistical software package 22.0 (IBM SPSS, Chicago, USA) was used. A Shapiro-Wilk test was used to verify distribution normality for both direct and indirect determined ISQ values. The paired sample t test and the Wil...
The Smartpeg excitation mode was exactly performed as described above. Notation of the maximum resonance frequency for indirect measurements is followed by notation of direct ISQ value on the display of Osstell IDx device. Positioning of the probe was not changed during indirect and direct recordings for a given test implant.
Each resin block contained five identical implants with attached Smartp...
Test implants originating from various manufacturers were investigated. Straumann sandblasted, large-grit, acid-etched (SLA)® tissue level standard implants (Straumann AG, Basel, Switzerland) with the following diameter: length configurations were 3.3–12 mm (RN connection), 3.3–4.1 mm (RN connection), and 4.8–8 mm (WN connection), Ankylos Cell Plus® surfaced B-implant types (Dentsply Im...
Laser Doppler vibrometry possesses a working principle based on the so-called Doppler effect and allows non-contact quantitative measurement of vibration (https://en.wikpedia.org/wiki/Laser_scanning_vibrometry, 2017). The Doppler effect itself finds its origin when a light beam is backscattered on a vibrating surface and experiences a change in wave phase (https://en.wikipedia.org/wiki/Doppler_eff...
The computed ISQ value is based on the following calculation formulae:
Hereby, f denotes the measured maximum resonance frequency (RF). Coefficients a, b, c, d, and e are property information of Osstell (Osstell AB, Gothenburg, Sweden). The coefficients were provided for internal use under the agreement of no publication. From clinical reports [10,11,12,13,14,15,16] listed in Table 1, it ...
At present, multiple implant stability assessment methodologies are used, both of invasive and non-invasive nature, including percussion test [1], X-ray evaluation [2], cutting resistance during implant insertion (e.g., electronic insertion torque determination) [3], turn-out or reverse torque test [4], Periotest® [5, 6], and resonance frequency analysis (“RFA”), e.g., the Osstell method [7, ...
Implant stability testing at various stages of implant therapy by means of resonance frequency analysis is extensively used. The overall measurement outcome is a function of the resulting stiffness of three entities: surrounding bone, bone-implant complex, and implant-Smartpeg complex. The influence of the latter on the overall measurement results is presently unknown. It can be investigated in vi...
Penerapan teknologi laser di klinik untuk perawatan penyakit periodontal terus berlangsung meluas sejak teknologi ini diperkenalkan guna merawat penyakit periodontal pada purwa dasawarsa 1990an meskipun masih kontroversial. Karangan ini terutama ditujukan untuk menyediakan perspektif berbasis bukti berkenaan dengan tiga kegunaan yang dipercaya benar dari penggunaan laser dalam perawatan penyakit p...
Teknologi laser masih relatif baru. Teknologi laser di bidang implantologi dipakai untuk menghasilkan struktur 3 Dimensi pada level mikrometer dan nanometer. Metode laser dipilih untuk menghasilkan geometri permukaan yang kompleks.
Teknik yang digunakan menghasilkan pulsa cahaya pendek dengan panjang gelombang tunggal sehingga menghasilkan energi yang terfokus pada satu titik. Metode ini berlangs...
[Lanjutan]
Perlakuan permukaan implant menggunakan semprotan plasma dan laser menghasilkan pengerutan makro. Hal ini membuat implant plasma dan laser jadi tidak lagi dipakai pada abad 21 Masehi sekarang ini.
Karakteristik permukaan implant diharapkan menunjukkan pengaruh biologis selama pemasangan implan dan selama berinteraksi dengan sel-sel. Permukaan implant diharapkan memodifikasi mekanis...
Ada dua perlakuan permukaan alternatif yang meliputi ablasi laser dan penyemprotan dengan plasma (plasma spraying). Setelah dua perlakuan tersebut, permukaan implant akan mempunyai tingkat kekasaran yang tinggi. Tingkat kekasaran yang dihasilkan dengan teknik ini tergolong dalam tingkat kekasaran makro.
Kekasaran makro berpengaruh pada stabilitas implant dan fiksasi mekanis pembentukan tulang. ...