Fig. 8. Photomicrographs of decalcified sections. a Untreated site. Woven bone formed from the sinus walls after 1 week of healing. b Treated site. After 8 weeks, woven bone was still found forming ridges towards residues of provisional matrix, showing that the healing was not completed yet. Scarlet-acid fuchsine and toluidine blue stain. a × 100 magnification. b × 20 magnification
...
Fig. 7. Box-plot representing the new bone percentage and standard deviations (whiskers) found in the various regions evaluated after 8 weeks of healing. (*), a statistical significant difference
Fig. 7. Box-plot representing the new bone percentage and standard deviations (whiskers) found in the various regions evaluated after 8 weeks of healing. (*), a statistical significant difference
Fig. 6. Photomicrographs of decalcified sections illustrating the healing after 8 weeks. a Treated site. Most of the antrostomies presented remaining defects in the outer contour. b, c Untreated sites. Two antrostomies of the treated sites and four of the untreated sites appeared not closed with corticalized bone and presented connective tissue interposed between the edges of the antrostomy. S...
Fig. 5. Photomicrographs of decalcified sections illustrating the healing after 8 weeks. Both at the treated (a) and untreated (b) sites, the antrostomy was closed in most cases, presenting residual defects of various dimensions in the outer side. New bone was connecting the lateral and medial sinus walls. The middle and sub-mucosa regions were not healed completely yet. Scarlet-acid fuchsine ...
Fig. 4. Photomicrographs of ground sections. a) Treated site. Bone residues (examples in yellow asterisks) included in soft tissue containing fibroblast-like cells and inflammatory cells. b) Untreated site. Xenograft residues (examples in red asterisks) surrounded by soft tissue rich in fibroblast-like cells. Scarlet-acid fuchsine and toluidine blue stain. a) 200 x magnification.; b) 100 x magni...
Fig. 3. Photomicrographs of decalcified sections illustrating the healing after 1 week. a Treated site. Bone strips occupying the antrostomy and the subjacent area (close-to-window region). b Untreated site. Note the new bone-forming from the sinus bone walls. Scarlet-acid fuchsine and toluidine blue stain. Images grabbed at × 20 magnification
Fig. 3. Photomicrographs of decalcified sect...
Fig. 2. The various regions evaluated at the histomorphometric analyses. Bone walls (red arrow); middle (white arrow); sub-mucosa (yellow arrow); close-to-window (orange arrow). The antrostomy region was also evaluated at the medial and lateral edges (dark green arrows) and in the middle aspect (light green arrow)
Fig. 2. The various regions evaluated at the histomorphometric analyses. Bone w...
Fig. 1. Clinical view of the surgical procedures. a Tibial bone exposed for autogenous bone harvesting using a bone scraper. b Antrostomies prepared. c Autogenous bone particles placed in the antrostomy. d Xenograft and bone particles (red arrow) at the antrostomies. e Collagen membranes placed on the antrostomies. f Wounds closed with sutures
Fig. 1. Clinical view of the surgical procedures....
AntrostomySinus regions EdgesCenterTotalClose-to-windowMiddleSub-mucosaBone wallsTotalNew boneTreated sites40.3 ± 21.337.8 (27.0;56.0)24.3 ± 23.222.0 (3.4;42.2)35.5 ± 20.927.7 (23.3;52.0)25.8* ± 16.122.9 (15.2;39.7)19.5 ± 16.711.7 (10.1;22.3)22.5 ± 11.620.4 (12.6;31.3)38.0 ± 15.044.8 (31.8;47.5)27.9 ± 12.930.1 (19.6;34.5)Untreated sites32.2 ± 22....
AntrostomySinus regions EdgesCenterTotalClose-to-windowMiddleSub-mucosaBone wallsTotalNew boneTreated sites9.2 ± 10.6 4.6 (3.2;12.5)5.2 ± 13.90.0 (0.0;0.5)7.7 ± 11.22.7 (1.9;7.9)0.6 ± 1.00.0 (0.0;0.7)0.0 ± 0.00.0 (0.0;0.0)1.4 ± 1.80.8 (0.0;2.2)7.7 ± 6.38.2 (1.3;11.1)2.8 ± 2.62.2 (0.7;4.0)Untreated sites8.9 ± 8.5 6.2 (4.0;10.8)1.0 ± 2.70.0 (0....
Favero, G., Viña-Almunia, J., Carda, C. et al. Influence of the use of autogenous bone particles to close the access window after maxillary sinus floor augmentation: an experimental study in rabbits.
Int J Implant Dent 6, 9 (2020). https://doi.org/10.1186/s40729-020-0206-2
Download citation
Received: 20 October 2019
Accepted: 21 January 2020
Published: 04 March 2020
DOI:...
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 m...
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
The present research was approved by the Ethics Committee of Valencia University, Spain. Reference number: A1434714637496.
Not applicable.
Daniele Botticelli declares to be the co-owner of Ariminum Odontologica. Giacomo Favero, Jose Viña-Almunia, Carmen Carda, José Javier Martín de Llano, Berta García-Mira, David Soto-Peñaloza, Daniele Botticelli, and Miguel Peñarrocha-Diago declare that t...
You can also search for this author in
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GF participated in the concept/design, data analysis/interpretation, drafting of the article and surgical procedures. JV-A performed the surgical procedures, made the follow up of the animals, participated in the manuscript revision and ethical committee redaction and approval. BG-M and DS-P performed the surgi...
Private practice, London, UK
Giacomo Favero
Oral Surgery Unit. Department of Stomatology, Faculty of Medicine and Dentistry, Clinica Odontológica, University of Valencia, Valencia, Spain
Jose Viña-Almunia, Berta García-Mira, David Soto-Peñaloza & Miguel Peñarrocha-Diago
Department of Pathology and Health Research Institute of the Hospital Clínico (INCLIVA), Faculty of Medicine and De...
Funds from the present have been provided by ARDEC Academy, by Ariminum Odontologica s.r.l., Rimini, Italy and Tecnoss srl, Giaveno, Italy. The biomaterials use were provided free of charge by Tecnoss srl, Giaveno, Italy.
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.
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 eleva...
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.
Kawakami S, Lang NP, Iida T, Ferri M, Apaza Alccayhuaman KA, Botticelli D. Influence of the position of the antrostomy in sinus floor elevat...
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.
...
Animal Research Reporting In Vivo Experiments
Cone beam computed tomography
Deproteinized bovine bone mineral
Tricalcium phosphate
The datasets used or analyzed during the current study are available from the corresponding author on reasonable request.
The lower phylogenetic level of the animals compared to humans was the main limitation of the present study. An increased number of animals might allow reaching a statistical difference in favor of the treated sites also in the antrostomy region. Nevertheless, the outcomes obtained, allow to performing studies in humans that might demonstrate the advantages of applying autologous bone on the antro...
In both studies presented above on sinus floor elevation in sheep, all the lateral windows were prepared using a piezoelectric device. In an experiment in rabbits [21], the antrostomies were done with either a sonic instrument or drills to evaluate differences in bone formation in the antrostomy. Elevated space is filled with a collagenated porcine bone similar that used in the present experiment,...
The present experiment aimed to study the influence on the healing after the placement of autogenous bone on the antrostomy and in the subjacent region after maxillary sinus elevation. After 8 weeks of healing, in the antrostomy region, a trend of higher bone formation in the treated compared to the untreated sites was observed. No statistically significant difference was found. In the subjacent ...
After 1 week of healing (Table 1), in the close-to-window region, the proportions of xenograft were 21.3 ± 14.7% and 55.9 ± 19.0 (p = 0.012) in the treated and untreated sites, respectively. After 8 weeks of healing (Table 2), these values decreased to a similar percentage (15.5 ± 14.4% and to 15.5 ± 14.2%; p = 0.917, respectively).
After 1 week of healing (Table...
Biopsies could be harvested from all animals. However, histological sections could not be obtained from one rabbit of the 8 weeks group; therefore, eight and seven were achieved for the 1-week and 8-week periods, respectively.
After 1 week of healing, at the treated sites, the antrostomy and close-to-windows regions were occupied by a high proportion of residues of autogenous bone (Fig. 3a),...
Overlapping calibrated digital images of the tissues were recorded with Leica Applications Suite version 4.4.0 software from a bright field Leica DM4000 B microscope (Leica Microsystems GmbH, Wëtzlar, Germany) equipped with a 5× lens and DFC420 digital camera. Single images were pasted and merged to compose each elevated sinus using the program Photoshop (Adobe Photoshop CC 2015.0.0).
The histo...
Afterward, a trichotomy was performed in the nasal dorsum and, after disinfection of the experimental region using Betadine (MEDA Pharma®, Madrid, Spain), a sagittal incision was carried out. The skin and the periosteum were dissected and shifted laterally to expose the nasal bone. Antrostomies, 4 × 4 mm in dimensions, located about 3–4 mm laterally to the midline and about 10 mm in f...
Prior to the experiment, the protocol was approved by the Ethics Committee of Valencia University, Spain (A1434714637496). The guidelines indicated by the Council Directive of the European Union (53/2013; February 1, 2013) for animal experimentation and the ethical rules proposed by Royal Decree 223, March 14 and October 13, 1988, were fulfilled. The study was reported following the ARRIVE guideli...
Hence, the present experiment aimed to study the influence on healing, of the autogenous bone particle placement in the antrostomy and in the subjacent region after maxillary sinus elevation.
Maxillary sinus floor elevation through lateral access was first proposed in 1977 [1], while the technique was published in 1984 [2]. Several modifications in the surgical approach and the biomaterials used have been introduced over time [3,4,5]. In a systematic review with meta-analysis, it was concluded that the best survival rate was observed when implants with rough surface and membrane to cov...
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.
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 (tr...
Fig. 8. Photomicrographs of decalcified sections. a Untreated site. Woven bone formed from the sinus walls after 1 week of healing. b Treated site. After 8 weeks, woven bone was still found forming ridges towards residues of provisional matrix, showing that the healing was not completed yet. Scarlet-acid fuchsine and toluidine blue stain. a × 100 magnification. b × 20 magnification
...
Fig. 7. Box-plot representing the new bone percentage and standard deviations (whiskers) found in the various regions evaluated after 8 weeks of healing. (*), a statistical significant difference
Fig. 7. Box-plot representing the new bone percentage and standard deviations (whiskers) found in the various regions evaluated after 8 weeks of healing. (*), a statistical significant difference
Fig. 6. Photomicrographs of decalcified sections illustrating the healing after 8 weeks. a Treated site. Most of the antrostomies presented remaining defects in the outer contour. b, c Untreated sites. Two antrostomies of the treated sites and four of the untreated sites appeared not closed with corticalized bone and presented connective tissue interposed between the edges of the antrostomy. S...
Fig. 5. Photomicrographs of decalcified sections illustrating the healing after 8 weeks. Both at the treated (a) and untreated (b) sites, the antrostomy was closed in most cases, presenting residual defects of various dimensions in the outer side. New bone was connecting the lateral and medial sinus walls. The middle and sub-mucosa regions were not healed completely yet. Scarlet-acid fuchsine ...
Fig. 4. Photomicrographs of ground sections. a) Treated site. Bone residues (examples in yellow asterisks) included in soft tissue containing fibroblast-like cells and inflammatory cells. b) Untreated site. Xenograft residues (examples in red asterisks) surrounded by soft tissue rich in fibroblast-like cells. Scarlet-acid fuchsine and toluidine blue stain. a) 200 x magnification.; b) 100 x magni...
Fig. 3. Photomicrographs of decalcified sections illustrating the healing after 1 week. a Treated site. Bone strips occupying the antrostomy and the subjacent area (close-to-window region). b Untreated site. Note the new bone-forming from the sinus bone walls. Scarlet-acid fuchsine and toluidine blue stain. Images grabbed at × 20 magnification
Fig. 3. Photomicrographs of decalcified sect...
Fig. 2. The various regions evaluated at the histomorphometric analyses. Bone walls (red arrow); middle (white arrow); sub-mucosa (yellow arrow); close-to-window (orange arrow). The antrostomy region was also evaluated at the medial and lateral edges (dark green arrows) and in the middle aspect (light green arrow)
Fig. 2. The various regions evaluated at the histomorphometric analyses. Bone w...
Fig. 1. Clinical view of the surgical procedures. a Tibial bone exposed for autogenous bone harvesting using a bone scraper. b Antrostomies prepared. c Autogenous bone particles placed in the antrostomy. d Xenograft and bone particles (red arrow) at the antrostomies. e Collagen membranes placed on the antrostomies. f Wounds closed with sutures
Fig. 1. Clinical view of the surgical procedures....
AntrostomySinus regions EdgesCenterTotalClose-to-windowMiddleSub-mucosaBone wallsTotalNew boneTreated sites40.3 ± 21.337.8 (27.0;56.0)24.3 ± 23.222.0 (3.4;42.2)35.5 ± 20.927.7 (23.3;52.0)25.8* ± 16.122.9 (15.2;39.7)19.5 ± 16.711.7 (10.1;22.3)22.5 ± 11.620.4 (12.6;31.3)38.0 ± 15.044.8 (31.8;47.5)27.9 ± 12.930.1 (19.6;34.5)Untreated sites32.2 ± 22....
AntrostomySinus regions EdgesCenterTotalClose-to-windowMiddleSub-mucosaBone wallsTotalNew boneTreated sites9.2 ± 10.6 4.6 (3.2;12.5)5.2 ± 13.90.0 (0.0;0.5)7.7 ± 11.22.7 (1.9;7.9)0.6 ± 1.00.0 (0.0;0.7)0.0 ± 0.00.0 (0.0;0.0)1.4 ± 1.80.8 (0.0;2.2)7.7 ± 6.38.2 (1.3;11.1)2.8 ± 2.62.2 (0.7;4.0)Untreated sites8.9 ± 8.5 6.2 (4.0;10.8)1.0 ± 2.70.0 (0....
Favero, G., Viña-Almunia, J., Carda, C. et al. Influence of the use of autogenous bone particles to close the access window after maxillary sinus floor augmentation: an experimental study in rabbits.
Int J Implant Dent 6, 9 (2020). https://doi.org/10.1186/s40729-020-0206-2
Download citation
Received: 20 October 2019
Accepted: 21 January 2020
Published: 04 March 2020
DOI:...
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 m...
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
The present research was approved by the Ethics Committee of Valencia University, Spain. Reference number: A1434714637496.
Not applicable.
Daniele Botticelli declares to be the co-owner of Ariminum Odontologica. Giacomo Favero, Jose Viña-Almunia, Carmen Carda, José Javier Martín de Llano, Berta García-Mira, David Soto-Peñaloza, Daniele Botticelli, and Miguel Peñarrocha-Diago declare that t...
You can also search for this author in
PubMed Google Scholar
GF participated in the concept/design, data analysis/interpretation, drafting of the article and surgical procedures. JV-A performed the surgical procedures, made the follow up of the animals, participated in the manuscript revision and ethical committee redaction and approval. BG-M and DS-P performed the surgi...
Private practice, London, UK
Giacomo Favero
Oral Surgery Unit. Department of Stomatology, Faculty of Medicine and Dentistry, Clinica Odontológica, University of Valencia, Valencia, Spain
Jose Viña-Almunia, Berta García-Mira, David Soto-Peñaloza & Miguel Peñarrocha-Diago
Department of Pathology and Health Research Institute of the Hospital Clínico (INCLIVA), Faculty of Medicine and De...
Funds from the present have been provided by ARDEC Academy, by Ariminum Odontologica s.r.l., Rimini, Italy and Tecnoss srl, Giaveno, Italy. The biomaterials use were provided free of charge by Tecnoss srl, Giaveno, Italy.
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.
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 eleva...
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.
Kawakami S, Lang NP, Iida T, Ferri M, Apaza Alccayhuaman KA, Botticelli D. Influence of the position of the antrostomy in sinus floor elevat...
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.
...
Animal Research Reporting In Vivo Experiments
Cone beam computed tomography
Deproteinized bovine bone mineral
Tricalcium phosphate
The datasets used or analyzed during the current study are available from the corresponding author on reasonable request.
The lower phylogenetic level of the animals compared to humans was the main limitation of the present study. An increased number of animals might allow reaching a statistical difference in favor of the treated sites also in the antrostomy region. Nevertheless, the outcomes obtained, allow to performing studies in humans that might demonstrate the advantages of applying autologous bone on the antro...
In both studies presented above on sinus floor elevation in sheep, all the lateral windows were prepared using a piezoelectric device. In an experiment in rabbits [21], the antrostomies were done with either a sonic instrument or drills to evaluate differences in bone formation in the antrostomy. Elevated space is filled with a collagenated porcine bone similar that used in the present experiment,...
The present experiment aimed to study the influence on the healing after the placement of autogenous bone on the antrostomy and in the subjacent region after maxillary sinus elevation. After 8 weeks of healing, in the antrostomy region, a trend of higher bone formation in the treated compared to the untreated sites was observed. No statistically significant difference was found. In the subjacent ...
After 1 week of healing (Table 1), in the close-to-window region, the proportions of xenograft were 21.3 ± 14.7% and 55.9 ± 19.0 (p = 0.012) in the treated and untreated sites, respectively. After 8 weeks of healing (Table 2), these values decreased to a similar percentage (15.5 ± 14.4% and to 15.5 ± 14.2%; p = 0.917, respectively).
After 1 week of healing (Table...
Biopsies could be harvested from all animals. However, histological sections could not be obtained from one rabbit of the 8 weeks group; therefore, eight and seven were achieved for the 1-week and 8-week periods, respectively.
After 1 week of healing, at the treated sites, the antrostomy and close-to-windows regions were occupied by a high proportion of residues of autogenous bone (Fig. 3a),...
Overlapping calibrated digital images of the tissues were recorded with Leica Applications Suite version 4.4.0 software from a bright field Leica DM4000 B microscope (Leica Microsystems GmbH, Wëtzlar, Germany) equipped with a 5× lens and DFC420 digital camera. Single images were pasted and merged to compose each elevated sinus using the program Photoshop (Adobe Photoshop CC 2015.0.0).
The histo...
Afterward, a trichotomy was performed in the nasal dorsum and, after disinfection of the experimental region using Betadine (MEDA Pharma®, Madrid, Spain), a sagittal incision was carried out. The skin and the periosteum were dissected and shifted laterally to expose the nasal bone. Antrostomies, 4 × 4 mm in dimensions, located about 3–4 mm laterally to the midline and about 10 mm in f...
Prior to the experiment, the protocol was approved by the Ethics Committee of Valencia University, Spain (A1434714637496). The guidelines indicated by the Council Directive of the European Union (53/2013; February 1, 2013) for animal experimentation and the ethical rules proposed by Royal Decree 223, March 14 and October 13, 1988, were fulfilled. The study was reported following the ARRIVE guideli...
Hence, the present experiment aimed to study the influence on healing, of the autogenous bone particle placement in the antrostomy and in the subjacent region after maxillary sinus elevation.
Maxillary sinus floor elevation through lateral access was first proposed in 1977 [1], while the technique was published in 1984 [2]. Several modifications in the surgical approach and the biomaterials used have been introduced over time [3,4,5]. In a systematic review with meta-analysis, it was concluded that the best survival rate was observed when implants with rough surface and membrane to cov...
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.
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 (tr...