Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
International Journal of Implant Dentistry
Published in: International Journal of Implant Dentistry 1/2020

01-12-2020 | Research

Influence of the use of autogenous bone particles to close the access window after maxillary sinus floor augmentation: an experimental study in rabbits

Authors: Giacomo Favero, Jose Viña-Almunia, Carmen Carda, José Javier Martín de Llano, Berta García-Mira, David Soto-Peñaloza, Miguel Peñarrocha-Diago, Daniele Botticelli

Published in: International Journal of Implant Dentistry | Issue 1/2020

Login to get access

Abstract

Aim

To study the influence on the healing of the placement of particulate autogenous bone in the antrostomy and in the subjacent region after maxillary sinus elevation.

Material and methods

Sixteen New Zealand rabbits were undergone to bilateral maxillary sinus floor augmentation with 4 × 4 mm antrostomy dimension. The sinus mucosa was elevated, and the space obtained was filled with xenograft. In the test site (treated sites), autogenous bone was harvested from the tibia and was placed either in the antrostomy and the subjacent region while the control site was left untreated. Antrostomy was covered bilaterally with collagen membranes. Animals were euthanized after 1 and 8 weeks of healing, with 8 rabbits in each group. Histomorphometric evaluations were done. The Wilcoxon test is used for statistical analysis, for a 5% statistical significance.

Results

After 1 week of healing, the new bone proportion in the antrostomy was 7.7 ± 11.2% and 6.1 ± 6.4% in the treated and untreated sites, respectively. In the subjacent region (close-to-window region), hardly any new bone was assessed. In the elevated region, 2.7–2.8% of total new bone was found in both sites. In the antrostomy region, after 8 weeks of healing, 35.5 ± 20.9% of new bone in the treated sites, and 28.6 ± 24.1% in the untreated sites was observed (p = 0.499). In the close-to-window region, the respective proportions were 25.8 ± 16.1% and 17.6 ± 16.3% (p = 0.018). In the elevated region, the total new bone reached fractions of 27.9 ± 12.9% and 23.6 ± 15.2% in the treated and untreated sites, respectively (p = 0.128).

Conclusions

The placement of autogenous bone in the antrostomy and the subjacent region after maxillary sinus elevation, slightly enhanced bone formation compared with sites only grafted with xenograft. Though, only the subjacent close-to-window region showed a statistical significance at 8 weeks of healing. Despite the limitations of the present study, due to its preclinical nature, findings should be extrapolated to humans with caution.
Literature
1.
Tatum, H., Jr. Maxillary sinus grafting for endosseous implants. Lecture presented at the Annual Meeting of the Alabama Implant Study Group (1977); cited in Smiler, D.G., Johnson, P.W., Lozada, J.L., Misch, C., Rosenlicht, J.L., Tatum, O.H. Jr. & Wagner J.R. Sinus lift grafts and endosseous implants. Treatment of the atrophic posterior maxilla. Dental clinics of North America. 1992;36:151–186.
2.
Boyne PJ, James RA. Grafting of the maxillary sinus floor with autogenous marrow and bone. J Oral Surg. 1980;38(8):613–6.PubMed
3.
Pjetursson BE, Tan WC, Zwahlen M, Lang NP. A systematic review of the success of sinus floor elevation and survival of implants inserted in combination with sinus floor elevation. J Clin Periodontol. 2008;35(8 Suppl):216–40.CrossRef
4.
Corbella S, Taschieri S, Del Fabbro M. Long-term outcomes for the treatment of atrophic posterior maxilla: a systematic review of literature. Clin Implant Dent Relat Res. 2015;17(1):120–32.CrossRef
5.
García-Denche JT, Wu X, Martinez PP, Eimar H, Ikbal DJ, Hernández G, López-Cabarcos E, Fernandez-Tresguerres I, Tamimi F. Membranes over the lateral window in sinus augmentation procedures: a two-arm and split-mouth randomized clinical trials. J Clin Periodontol. 2013;40(11):1043–51.CrossRef
6.
Tarnow DP, Wallace SS, Froum SJ, Rohrer MD, Cho SC. Histologic and clinical comparison of bilateral sinus floor elevations with and without barrier membrane placement in 12 patients: part 3 of an ongoing prospective study. Int J Periodontics Restorative Dent. 2000;20(2):117–25.PubMed
7.
Wallace SS, Froum SJ, Cho SC, Elian N, Monteiro D, Kim BS, Tarnow DP. Sinus augmentation utilizing anorganic bovine bone (bio-Oss) with absorbable and nonabsorbable membranes placed over the lateral window: histomorphometric and clinical analyses. Int J Periodontics Restorative Dent. 2005;25(6):551–9.PubMed
8.
Suárez-López Del Amo F, Ortega-Oller I, Catena A, Monje A, Khoshkam V, Torrecillas-Martínez L, Wang HL, Galindo-Moreno P. Effect of barrier membranes on the outcomes of maxillary sinus floor augmentation: a meta-analysis of histomorphometric outcomes. Int J Oral Maxillofac Implants. 2015;30(3):607–18.CrossRef
9.
Nosaka Y, Nosaka H, Arai Y. Complications of postoperative swelling of the maxillary sinus membrane after sinus floor augmentation. Journal of Oral Science & Rehabilitation. 2015;1:26–33.
10.
Kawakami S, Lang NP, Ferri M, Apaza Alccayhuaman KA, Botticelli D. Influence of the height of the antrostomy in sinus floor elevation assessed by cone beam computed tomography- a randomized clinical trial. Int J Oral Maxillofac Implants. 2019;34(1):223–32.CrossRef
11.
Kawakami S, Lang NP, Iida T, Ferri M, Apaza Alccayhuaman KA, Botticelli D. Influence of the position of the antrostomy in sinus floor elevation assessed with cone-beam computed tomography: a randomized clinical trial. J Investig Clin Dent. 2018;9(4):e12362.CrossRef
12.
13.
Lundgren S, Andersson S, Gualini F, Sennerby L. Bone reformation with sinus membrane elevation: a new surgical technique for maxillary sinus floor augmentation. Clin Implant Dent Relat Res. 2004;6(3):165–73.CrossRef
14.
Cricchio G, Sennerby L, Lundgren S. Sinus bone formation and implant survival after sinus membrane elevation and implant placement: a 1- to 6-year follow-up study. Clin Oral Implants Res. 2011;22(10):1200–12.CrossRef
15.
Moon YS, Sohn DS, Moon JW, Lee JH, Park IS, Lee JK. Comparative histomorphometric analysis of maxillary sinus augmentation with absorbable collagen membrane and osteoinductive replaceable bony window in rabbits. Implant Dent. 2014;23(1):29–36.CrossRef
16.
Omori Y, Ricardo Silva E, Botticelli D, Apaza Alccayhuaman KA, Lang NP, Xavier SP. Reposition of the bone plate over the antrostomy in maxillary sinus augmentation: a histomorphometric study in rabbits. Clin Oral Implants Res. 2018;29(8):821–34.CrossRef
17.
Al-Moraissi EA, Alkhutari AS, Abotaleb B, Altairi NH, Del Fabbro M. Do osteoconductive bone substitutes result in similar bone regeneration for maxillary sinus augmentation when compared to osteogenic and osteoinductive bone grafts? A systematic review and frequentist network meta-analysis. Int J Oral Maxillofac Surg. 2019 pii: S0901–5027(19)31163–4. doi: https://​doi.​org/​10.​1016/​j.​ijom.​2019.​05.​004.CrossRef
18.
Xu H, Shimizu Y, Asai S, Ooya K. Experimental sinus grafting with the use of deproteinized bone particles of different sizes. Clin Oral Implants Res. 2003;14(5):548–55.CrossRef
19.
Favero V, Lang NP, Canullo L, Urbizo Velez J, Bengazi F, Botticelli D. Sinus floor elevation outcomes following perforation of the Schneiderian membrane. An experimental study in sheep. Clin Oral Implants Res. 2016;27(2):233–40.CrossRef
20.
Scala A, Lang NP, Velez JU, Favero R, Bengazi F, Botticelli D. Effects of a collagen membrane positioned between augmentation material and the sinus mucosa in the elevation of the maxillary sinus floor. An experimental study in sheep. Clin Oral Implants Res. 2016;27(11):1454–61.CrossRef
21.
Masuda K, Silva ER, Botticelli D, Apaza Alccayhuaman KA, Xavier SP. Antrostomy preparation for maxillary sinus floor augmentation using drills or a sonic instrument: a microcomputed tomography and Histomorphometric study in rabbits. Int J Oral Maxillofac Implants. 2019;34(4):819–27.CrossRef
22.
Sohn DS, Kim WS, An KM, Song KJ, Lee JM, Mun YS. Comparative histomorphometric analysis of maxillary sinus augmentation with and without bone grafting in rabbit. Implant Dent. 2010;19(3):259–70.CrossRef
23.
Sbordone C, Toti P, Guidetti F, Califano L, Bufo P, Sbordone L. Volume changes of autogenous bone after sinus lifting and grafting procedures: a 6-year computerized tomographic follow-up. J Craniomaxillofac Surg. 2013;41(3):235–41.CrossRef
24.
Ozaki W, Buchman SR. Volume maintenance of onlay bone grafts in the craniofacial skeleton: micro-architecture versus embryologic origin. Plast Reconstr Surg. 1998 Aug;102(2):291–9.CrossRef
25.
Zins JE, Whitaker LA. Membranous versus endochondral bone: implications for craniofacial reconstruction. Plast Reconstr Surg. 1983;72(6):778–85.CrossRef
26.
Reissmann DR, Dietze B, Vogeler M, Schmelzeisen R, Heydecke G. Impact of donor site for bone graft harvesting for dental implants on health-related and oral health-related quality of life. Clin Oral Implants Res. 2013;24(6):698–705.CrossRef
27.
Nkenke E, Radespiel-Tröger M, Wiltfang J, Schultze-Mosgau S, Winkler G, Neukam FW. Morbidity of harvesting of retromolar bone grafts: a prospective study. Clin Oral Implants Res. 2002;13(5):514–21.CrossRef
28.
Galindo-Moreno P, de Buitrago JG, Padial-Molina M, Fernández-Barbero JE, Ata-Ali J, O Valle F. Histopathological comparison of healing after maxillary sinus augmentation using xenograft mixed with autogenous bone versus allograft mixed with autogenous bone. Clin Oral Implants Res. 2018;29(2):192–201.CrossRef
Metadata
Title
Influence of the use of autogenous bone particles to close the access window after maxillary sinus floor augmentation: an experimental study in rabbits
Authors
Giacomo Favero
Jose Viña-Almunia
Carmen Carda
José Javier Martín de Llano
Berta García-Mira
David Soto-Peñaloza
Miguel Peñarrocha-Diago
Daniele Botticelli
Publication date
01-12-2020
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Implant Dentistry / Issue 1/2020
Electronic ISSN: 2198-4034
DOI
https://doi.org/10.1186/s40729-020-0206-2

Other articles of this Issue 1/2020

International Journal of Implant Dentistry 1/2020 Go to the issue

Review

Effectiveness of the bone ring technique and simultaneous implant placement for vertical ridge augmentation: a systematic review

Research

Influence of rigidity of retainers on dynamic behavior of implant-supported removable partial dentures

Technical Advances Article

Inferior alveolar nerve repositioning and securing in conjunction with dental implant placement: a technical note

Research

Antibiotic prescribing habits of the clinicians dealing with dental implant surgery in Turkey: a questionnaire study

Research

Wetting properties of blood lipid fractions on different titanium surfaces

Research

Patient experience following iliac crest-derived alveolar bone grafting and implant placement