Correlation between preoperative bone quality and primer stability for mandibular posterior implants
Yıl 2024,
, 2 - 9, 26.01.2024
Sara Samur Ergüven
,
Elif Yıldızer
,
Aydın Ozkan
,
Zeynep Sena Şahin
,
Saliha Kübra Sarı
,
Fatih Peker
Öz
Aim: This study aimed to investigate preoperative bone quality obtained from the Hounsfield unit and fractal analysis scores in cone beam computed tomography (CBCT) sections and compare this value with primer stability derived from resonance frequency analysis scores soon after placement of implants in the mandibular posterior region.
Material and Method: A total of 36 implant regions were examined retrospectively. Primary outcome variables include the Hounsfield unit, fractal analysis, and resonance frequency analysis scores soon after implant placement. Hounsfield unit and fractal analysis scores were calculated on the preoperative CBCT.
Results: The mean Hounsfield unit, fractal analysis and resonance frequency analysis scores of all implants were 76.44, 0.65 and 67.44, respectively. No statistically significant correlation was found between the Hounsfield unit, fractal analysis and resonance frequency analysis scores (p>0.05). Resonance frequency analysis scores (p=0.002) and Hounsfield unit scores (p=0.050) were significantly superior in males. Age was found to be related to resonance frequency analysis scores (r=0.445, p=0.007).
Conclusion: The preoperative bone quality of alveolar bone measured from cone beam computed tomography by Hounsfield unit or fractal analysis may be insufficient to determine initial implant stability. Further studies are needed to investigate parameters related to the prediction of implant stability.
Etik Beyan
The present study was approved by the University of Health Sciences/Gülhane Scientific Research Ethics Committee (registration number 2022/226).
Kaynakça
- Referans1. Elani HW, Starr JR, Da Silva JD, Gallucci GO. Trends in dental
ımplant use in the U.S., 1999-2016, and projections to 2026. J
Dent Res 2018;97:1424-30.
- Referans2. Winitsky N, Olgart K, Jemt T, Smedberg JI. A retro-prospective
long-term follow-up of Brånemark single implants in the anterior
maxilla in young adults. Part 1: Clinical and radiographic
parameters. Clin Implant Dent Relat Res 2018;20:937-44.
- Referans3. Fuh LJ, Huang HL, Chen CS, Fu KL, Shen YW, Tu MG, Shen
WC, Hsu JT. Variations in bone density at dental implant sites in
different regions of the jawbone. J Oral Rehabil 2010;37:346-51.
- Referans4. Herrmann I, Lekholm U, Holm S, Kultje C. Evaluation of patient
and implant characteristics as potential prognostic factors for oral
implant failures. Int J Oral Maxillofac Implants 2005;20:220-30.
- Referans5. Ivanova V, Chenchev I, Zlatev S, Mijiritsky E. Correlation
between primary, secondary stability, bone density, percentage
of vital bone formation and ımplant size. Int J Environ Res Public
Health 2021;18:6994.
- Referans6. Farré-Pagés N, Augé-Castro ML, Alaejos-Algarra F, Mareque-
Bueno J, Ferrés-Padró E, Hernández-Alfaro F. Relation between
bone density and primary implant stability. Med Oral Patol Oral Cir
Bucal 2011;16:e62-7.
- Referans7. de Elío Oliveros J, Del Canto Díaz A, Del Canto Díaz M, Orea
CJ, Del Canto Pingarrón M, Calvo JS. Alveolar Bone Density
and Width Affect Primary Implant Stability. J Oral Implantol
2020;46:389-95.
- Referans8. Lekholm U, Zarb GA. Patient selection and preparation.
Branemark, Zarb, Albrektsson, editors. Tissue-integrated
Prostheses: Osseointegration in Clinical Dentistry. Chicago:
Quintessence Publishing Co; 1985. p.199-209.
- Referans9. Misch CE. Bone character: second vital implant criterion. Dent
Today 1988;7:39–40.
- Referans10. Misch CE. Rationale for dental implants. Misch CE editor.
Contemporary Implant Dentistry. St.Louis, Missouri: Mosby
Elsevier; 2008. p. 38-67.
- Referans11. Misch CE. Density of bone: effect on treatment plans, surgical
approach, healing and progressive bone loading. Int J Oral
Implantol 1990;6:23–31.
- Referans12. Fuster-Torres MÁ, Peñarrocha-Diago M, Peñarrocha-Oltra D,
Peñarrocha-Diago M. Relationships between bone density values
from cone beam computed tomography, maximum insertion
torque, and resonance frequency analysis at implant placement:
a pilot study. Int J Oral Maxillofac Implants 2011;26:1051-6.
- Referans13. Isoda K, Ayukawa Y, Tsukiyama Y, Sogo M, Matsushita Y,
Koyano K. Relationship between the bone density estimated by
cone-beam computed tomography and the primary stability of
dental implants. Clin Oral Implants Res 2012;23:832-6.
- Referans14. Kato CN, Barra SG, Tavares NP, Amaral TM, Brasileiro CB,
Mesquita RA, Abreu LG. Use of fractal analysis in dental images:
a systematic review. Dentomaxillofac Radiol 2020;49:20180457.
- Referans15. Zeytinoğlu M, İlhan B, Dündar N, Boyacioğlu H. Fractal analysis
for the assessment of trabecular peri-implant alveolar bone using
panoramic radiographs. Clin Oral Investig 2015;19:519-24.
- Referans16. Hayek E, Aoun G, Geha H, Nasseh I. Image-based bone
density classification using fractal dimensions and histological
analysis of ımplant recipient site. Acta Inform Med 2020;28:272-7.
- Referans17. Magat G, Ozcan Sener S. Evaluation of trabecular pattern of
mandible using fractal dimension, bone area fraction, and gray
scale value: comparison of cone-beam computed tomography
and panoramic radiography. Oral Radiol 2019;35:35-42.
- Referans18. Mishra S, Kumar M, Mishra L, Mohanty R, Nayak R, Das AC,
Mishra S, Panda S, Lapinska B. Fractal dimension as a tool for
assessment of dental ımplant stability-a scoping review. J Clin
Med 2022;11:4051.
- Referans19. Kim JH, Lim YJ, Kim B, Lee J. How do parameters of ımplant
primary stability correspond with ct-evaluated bone quality in
the posterior maxilla? A Correlation Analysis. Materials (Basel)
2021;14:270.
- Referans20. White SC, Rudolph DJ. Alterations of the trabecular pattern of
the jaws in patients with osteoporosis. Oral Surg Oral Med Oral
Pathol Oral Radiol Endod 1999;88:628-35.
- Referans21. Salimov F, Tatli U, Kürkçü M, Akoğlan M, Oztunç H, Kurtoğlu
C. Evaluation of relationship between preoperative bone density
values derived from cone beam computed tomography and
implant stability parameters: a clinical study. Clin Oral Implants
Res 2014;25:1016-21.
- Referans22. Al-Jamal MFJ, Al-Jumaily HA. Can the bone density estimated
by CBCT predict the primary stability of dental ımplants? A New
Measurement Protocol. J Craniofac Surg 2021; 32:e171-4.
- Referans23. Gülec M., Taşsöker M, Ozcan S. Tıpta ve diş hekimliğinde
fraktal analiz. EU Dishek Fak Derg 2019;40:17-31.
- Referans24. Hayek E, Aoun G, Bassit R, Nasseh I. Correlating radiographic
fractal analysis at implant recipient sites with primary implant
stability: an in vivo preliminary study. Cureus 2020;12:e6539.
- Referans25. Veltri M, Balleri P, Ferrari M. Damping factor for monitoring
the bone interface at dental implants. Clin Oral Implants Res
2007;18:738-42.
- Referans26. Gaalaas L , Henn L, Gaillard PR, Ahmad M, Islam MS. Analysis
of trabecular bone using site-specific fractal values calculated
from cone beam CT images. Oral Radiol 2014;30:179–85.
- Referans27. Soylu E, Coşgunarslan A, Çelebi S, Soydan D, Demirbaş AE,
Demir O. Fractal analysis as a useful predictor for determining
osseointegration of dental implant? A retrospective study. Int J
Implant Dent 2021;7:14.
- Referans28. Öztürk K, Kış HC. Peri-implant bone microstructural analysis
and comparison of resonance frequency analysis before
prosthetic placement: a retrospective study. Clin Oral Investig
2022;26:4967-75.
- Referans29. González-Martín O, Lee EA, Veltri M. CBCT fractal dimension
changes at the apex of immediate implants placed using
undersized drilling. Clin Oral Implants Res 2012;23:954-7.
- Referans30. Magat G, Oncu E, Ozcan S, Orhan K. Comparison of conebeam
computed tomography and digital panoramic radiography
for detecting peri-implant alveolar bone changes using trabecular
micro-structure analysis. J Korean Assoc Oral Maxillofac Surg
2022;48:41-9.
Mandibulada posterior bölgeye uygulanan implantlarda preoperatif kemik kalitesi ve primer stabilite arasındaki korelasyon
Yıl 2024,
, 2 - 9, 26.01.2024
Sara Samur Ergüven
,
Elif Yıldızer
,
Aydın Ozkan
,
Zeynep Sena Şahin
,
Saliha Kübra Sarı
,
Fatih Peker
Öz
Amaç: Bu çalışmada mandibulada arka bölgeye uygulanmış implant bölgelerinde preoperatif konik ışınlı bilgisayarlı tomografi (KIBT) kesitlerinden elde edilmiş Hounsfield ünit ve Fraktal analiz skorlarının preoperatif kemik kalitesi anlamında değerlendirilmesi ve bu skorların implant yerleşiminden hemen sonra belirlenen rezonans frekans analizi değerleri ile karşılaştırılması amaçlanmaktadır.
Gereç ve yöntem: Toplamda 36 implant bölgesi retrospektif olarak değerlendirilmiştir. Temel sonuç değişkenleri Hounsfield ünit, fraktal analiz ve rezonans frekans analizi skorları olarak belirlenmiştir. Hounsfield ünit ve fraktal analiz skorları preoperatif KIBT kesitleri üzerinde hesaplanmıştır.
Bulgular: Ortalama Hounsfield ünit, fraktal analiz ve rezonans frekans analizi skorları sırasıyla; 76.44, 0.65 and 67.44 olarak belirlenmiştir. Hounsfield ünit, fraktal analiz ve rezonans frekans analizi skorları arasında anlamlı istatistiksel kolerasyon saptanmamıştır. (p>0.05). Rezonans frekans analizi (p=0.002) ve Hounsfield ünit (p=0.050) skorları erkeklerde anlamlı düzeyde yüksek belirlenmiştir. Yaş, rezonans frekans analizi skorları ile ilişkili olarak belirlenmiştir (r=0.445, p=0.007).
Sonuç: Konik ışınlı bilgisayarlı tomografi üzerinde Hounsfield ünit veya fraktal analiz aracılığıyla ölçülen alveolar kemik bölgesindeki preoperatif kemik kalitesi değerlendirmesi başlangıç implant stabilitesinin belirlenmesinde yeterli bir parametre olmayabilir. İmplant stabilitesinin tahminine yönelik ilişkili parametrelerin değerlendirildiği ileri çalışmalara gereksinim vardır.
Kaynakça
- Referans1. Elani HW, Starr JR, Da Silva JD, Gallucci GO. Trends in dental
ımplant use in the U.S., 1999-2016, and projections to 2026. J
Dent Res 2018;97:1424-30.
- Referans2. Winitsky N, Olgart K, Jemt T, Smedberg JI. A retro-prospective
long-term follow-up of Brånemark single implants in the anterior
maxilla in young adults. Part 1: Clinical and radiographic
parameters. Clin Implant Dent Relat Res 2018;20:937-44.
- Referans3. Fuh LJ, Huang HL, Chen CS, Fu KL, Shen YW, Tu MG, Shen
WC, Hsu JT. Variations in bone density at dental implant sites in
different regions of the jawbone. J Oral Rehabil 2010;37:346-51.
- Referans4. Herrmann I, Lekholm U, Holm S, Kultje C. Evaluation of patient
and implant characteristics as potential prognostic factors for oral
implant failures. Int J Oral Maxillofac Implants 2005;20:220-30.
- Referans5. Ivanova V, Chenchev I, Zlatev S, Mijiritsky E. Correlation
between primary, secondary stability, bone density, percentage
of vital bone formation and ımplant size. Int J Environ Res Public
Health 2021;18:6994.
- Referans6. Farré-Pagés N, Augé-Castro ML, Alaejos-Algarra F, Mareque-
Bueno J, Ferrés-Padró E, Hernández-Alfaro F. Relation between
bone density and primary implant stability. Med Oral Patol Oral Cir
Bucal 2011;16:e62-7.
- Referans7. de Elío Oliveros J, Del Canto Díaz A, Del Canto Díaz M, Orea
CJ, Del Canto Pingarrón M, Calvo JS. Alveolar Bone Density
and Width Affect Primary Implant Stability. J Oral Implantol
2020;46:389-95.
- Referans8. Lekholm U, Zarb GA. Patient selection and preparation.
Branemark, Zarb, Albrektsson, editors. Tissue-integrated
Prostheses: Osseointegration in Clinical Dentistry. Chicago:
Quintessence Publishing Co; 1985. p.199-209.
- Referans9. Misch CE. Bone character: second vital implant criterion. Dent
Today 1988;7:39–40.
- Referans10. Misch CE. Rationale for dental implants. Misch CE editor.
Contemporary Implant Dentistry. St.Louis, Missouri: Mosby
Elsevier; 2008. p. 38-67.
- Referans11. Misch CE. Density of bone: effect on treatment plans, surgical
approach, healing and progressive bone loading. Int J Oral
Implantol 1990;6:23–31.
- Referans12. Fuster-Torres MÁ, Peñarrocha-Diago M, Peñarrocha-Oltra D,
Peñarrocha-Diago M. Relationships between bone density values
from cone beam computed tomography, maximum insertion
torque, and resonance frequency analysis at implant placement:
a pilot study. Int J Oral Maxillofac Implants 2011;26:1051-6.
- Referans13. Isoda K, Ayukawa Y, Tsukiyama Y, Sogo M, Matsushita Y,
Koyano K. Relationship between the bone density estimated by
cone-beam computed tomography and the primary stability of
dental implants. Clin Oral Implants Res 2012;23:832-6.
- Referans14. Kato CN, Barra SG, Tavares NP, Amaral TM, Brasileiro CB,
Mesquita RA, Abreu LG. Use of fractal analysis in dental images:
a systematic review. Dentomaxillofac Radiol 2020;49:20180457.
- Referans15. Zeytinoğlu M, İlhan B, Dündar N, Boyacioğlu H. Fractal analysis
for the assessment of trabecular peri-implant alveolar bone using
panoramic radiographs. Clin Oral Investig 2015;19:519-24.
- Referans16. Hayek E, Aoun G, Geha H, Nasseh I. Image-based bone
density classification using fractal dimensions and histological
analysis of ımplant recipient site. Acta Inform Med 2020;28:272-7.
- Referans17. Magat G, Ozcan Sener S. Evaluation of trabecular pattern of
mandible using fractal dimension, bone area fraction, and gray
scale value: comparison of cone-beam computed tomography
and panoramic radiography. Oral Radiol 2019;35:35-42.
- Referans18. Mishra S, Kumar M, Mishra L, Mohanty R, Nayak R, Das AC,
Mishra S, Panda S, Lapinska B. Fractal dimension as a tool for
assessment of dental ımplant stability-a scoping review. J Clin
Med 2022;11:4051.
- Referans19. Kim JH, Lim YJ, Kim B, Lee J. How do parameters of ımplant
primary stability correspond with ct-evaluated bone quality in
the posterior maxilla? A Correlation Analysis. Materials (Basel)
2021;14:270.
- Referans20. White SC, Rudolph DJ. Alterations of the trabecular pattern of
the jaws in patients with osteoporosis. Oral Surg Oral Med Oral
Pathol Oral Radiol Endod 1999;88:628-35.
- Referans21. Salimov F, Tatli U, Kürkçü M, Akoğlan M, Oztunç H, Kurtoğlu
C. Evaluation of relationship between preoperative bone density
values derived from cone beam computed tomography and
implant stability parameters: a clinical study. Clin Oral Implants
Res 2014;25:1016-21.
- Referans22. Al-Jamal MFJ, Al-Jumaily HA. Can the bone density estimated
by CBCT predict the primary stability of dental ımplants? A New
Measurement Protocol. J Craniofac Surg 2021; 32:e171-4.
- Referans23. Gülec M., Taşsöker M, Ozcan S. Tıpta ve diş hekimliğinde
fraktal analiz. EU Dishek Fak Derg 2019;40:17-31.
- Referans24. Hayek E, Aoun G, Bassit R, Nasseh I. Correlating radiographic
fractal analysis at implant recipient sites with primary implant
stability: an in vivo preliminary study. Cureus 2020;12:e6539.
- Referans25. Veltri M, Balleri P, Ferrari M. Damping factor for monitoring
the bone interface at dental implants. Clin Oral Implants Res
2007;18:738-42.
- Referans26. Gaalaas L , Henn L, Gaillard PR, Ahmad M, Islam MS. Analysis
of trabecular bone using site-specific fractal values calculated
from cone beam CT images. Oral Radiol 2014;30:179–85.
- Referans27. Soylu E, Coşgunarslan A, Çelebi S, Soydan D, Demirbaş AE,
Demir O. Fractal analysis as a useful predictor for determining
osseointegration of dental implant? A retrospective study. Int J
Implant Dent 2021;7:14.
- Referans28. Öztürk K, Kış HC. Peri-implant bone microstructural analysis
and comparison of resonance frequency analysis before
prosthetic placement: a retrospective study. Clin Oral Investig
2022;26:4967-75.
- Referans29. González-Martín O, Lee EA, Veltri M. CBCT fractal dimension
changes at the apex of immediate implants placed using
undersized drilling. Clin Oral Implants Res 2012;23:954-7.
- Referans30. Magat G, Oncu E, Ozcan S, Orhan K. Comparison of conebeam
computed tomography and digital panoramic radiography
for detecting peri-implant alveolar bone changes using trabecular
micro-structure analysis. J Korean Assoc Oral Maxillofac Surg
2022;48:41-9.