Fig. 7 Second stage surgery of patient in Fig. 1. a Vestibular depth reduction after augmentation and implant placement. b Partial thickness and apical repositioned flap. c CMX healing and soft tissue dehiscence with CCXBB exposure. d Dehiscence healing after re-contouring and buccal emergency profile. e Buccal aspect of the final restoration. f Buccal ridge contour
Fig. 6 Immunohistochemical analysis of slices from the same sample with four different markers. a TRAP. b OPN. c ALP. d OSC
ple. a Ground section stained with Levai-Laczkó. b Tissue identification of the ROI. c Closer view a bone and CCXBB. d Closer view of b
Fig. 5. Histomorphometric analysis of the same sample. a Ground section stained with Levai-Laczkó. b Tissue identification of the ROI. c Closer view a arrow pointing a cement line between new mineralized bone and CCXBB. d Closer view of b
Fig. 4. Histological samples. a CCXBB control without implantation. b Histologic samples with acute inflammatory infiltration. c Histologic sample with limited remaining CCXBB and large bone ingrowth
Fig. 4. Histological samples. a CCXBB control without implantation. b Histologic samples with acute inflammatory infiltration. c Histologic sample with limited remaining CCXBB and large bone ingr...
Fig. 3. Re-entry procedure of patient in Fig. 1. a Buccal aspect of the augmented region. b Horizontal bone augmentation. c Screws and pins removal and bone trephine sampling. d Implants placement and buccal bone width from the implant shoulder. e Primary flap closure. f Implants submerged healing
Fig. 3. Re-entry procedure of patient in Fig. 1. a Buccal aspect of the augmented region. b Ho...
Fig. 2. Lateral bone augmentation of the alveolar crest (a) atrophic ridge. b Perforations and adaptation of the cortical layer. c Shaping, pre-wetting and fixation of CCXBB with titanium screws. d Horizontal contour and peripheral gap between CCXBB and bone layer. e Outlying DBBM filling. f CM stabilized with pins
Fig. 2. Lateral bone augmentation of the alveolar crest (a) atrophic ridge. b ...
Fig. 1. Study chart and follow-up visits
Fig. 1. Study chart and follow-up visits
Differentiated tissues
Implant lost (Yes/no)
Mean
SD
Percentage
SD (%)
...
Patient
TRAP (%)
OPN (%)
ALP (%)
OSC (%)
1
...
Tissue type
Mean
Standard deviation
Median
CI 95%
Mineralized bone
...
Patient
Soft tissue dehiscence
Mineralized bone (%)
CCXBB (%)
Bone marrow (%)
Connect...
Ortiz-Vigón, A., Martinez-Villa, S., Suarez, I. et al. Histomorphometric and immunohistochemical evaluation of collagen containing xenogeneic bone blocks used for lateral bone augmentation in staged implant placement.
Int J Implant Dent 3, 24 (2017). https://doi.org/10.1186/s40729-017-0087-1
Download citation
Received: 21 March 2017
Accepted: 12 June 2017
Published: 21 Ju...
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...
ETEP Research Group, Facultad de OdontologÃa, Universidad Complutense de Madrid, Plaza Ramón y Cajal, 28040, Madrid, Spain
Alberto Ortiz-Vigón, Sergio Martinez-Villa, Iñaki Suarez, Fabio Vignoletti & Mariano Sanz
You can also search for this author in
PubMed Google Scholar
You can also search for this author in
PubMed Google Scholar
...
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
We wish to acknowledge the dedication and scientific advise of Prof. Dr. Tord Berglundh on the histological analysis as well as the diligent work in processing the histological samples to Estela Maldonado for the immunohistochemistry and Asal Shikhan and Fernando Muñoz for the histomorphometry. The work of Esperanza Gross on the statistical analysis is highly acknowledged.
This study was partial...
Patti A, Gennari L, Merlotti D, Dotta F, Nuti R. Endocrine actions of osteocalcin. Int J Endocrinol. 2013;2013:846480.
Schwarz F, Herten M, Sager M, Wieland M, Dard M, Becker J. Histological and immunohistochemical analysis of initial and early osseous integration at chemically modified and conventional SLA titanium implants: preliminary results of a pilot study in dogs. Clin Oral Implants Res. 2...
Araujo MG, Linder E, Lindhe J. Bio-Oss collagen in the buccal gap at immediate implants: a 6-month study in the dog. Clin Oral Implants Res. 2011;22:1–8.
Chiapasco M, Colletti G, Coggiola A, Di Martino G, Anello T, Romeo E. Clinical outcome of the use of fresh frozen allogeneic bone grafts for the reconstruction of severely resorbed alveolar ridges: preliminary results of a prospective study. I...
Jeno L, Geza L. A simple differential staining method for semi-thin sections of ossifying cartilage and bone tissues embedded in epoxy resin. Mikroskopie. 1975;31:1–4.
Dias RR, Sehn FP, de Santana Santos T, Silva ER, Chaushu G, Xavier SP. Corticocancellous fresh-frozen allograft bone blocks for augmenting atrophied posterior mandibles in humans. Clin Oral Implants Res. 2016;27:39–46.
Nissan ...
Cremonini CC, Dumas M, Pannuti C, Lima LA, Cavalcanti MG. Assessment of the availability of bone volume for grafting in the donor retromolar region using computed tomography: a pilot study. Int J Oral Maxillofac Implants. 2010;25:374–8.
Nkenke E, Weisbach V, Winckler E, Kessler P, Schultze-Mosgau S, Wiltfang J, et al. Morbidity of harvesting of bone grafts from the iliac crest for preprosthetic...
Sanz M, Vignoletti F. Key aspects on the use of bone substitutes for bone regeneration of edentulous ridges. Dent Mater. 2015;31:640–7.
Benic GI, Hammerle CH. Horizontal bone augmentation by means of guided bone regeneration. Periodontology. 2014;66:13–40.
Beretta M, Cicciu M, Poli PP, Rancitelli D, Bassi G, Grossi GB, et al. A Retrospective Evaluation of 192 Implants Placed in Augmented Bon...
Alkaline phosphatase
Cone beam computed tomography
Collagen containing xenogeneic bone block
Native collagen membrane
Deproteinized bovine bone mineral
Etiology and Therapy of Periodontal Diseases
Osteopontin
Osteocalcine
Tartrate-resistant acid phosphatase
Within the limitations of this clinical study, we may conclude that the use of CCXBB in combination with DBBM particles and a native bilayer collagen membrane for staged lateral bone augmentation in severe atrophic alveolar crests achieved significant horizontal crestal width allowing for staged implant placement in most of the patients. Histological analysis and implant survival records indicate ...
The immune-histochemical results reported expression of osteopontin mainly at the border between mineralized vital bone (MVB) with CCXBB, what coincides with findings from previous reports [38,39,40]. Alkaline phosphatase (ALP) is considered as an early osteoblast differentiation marker [41]. ALP-positive cells were detectable, in all specimens on the periphery of MVB, associated to areas of new b...
When correlating the clinical results and the histological outcomes, there was a positive association between the presence of soft tissue dehiscence with CCXBB exposure and a diminished amount of new mineralized bone (p = 0.06). This lower amount of new bone within the xenogeneic graft suggests a lack of full graft integration and diminished vascular supply, what may have caused the soft tissu...
The purpose of this investigation was to evaluate histologically and immunohistochemically the behavior of CCXBB blocks when used for staged lateral bone augmentation in severe human horizontal residual bone defects. Six months after the regenerative intervention using the CCXBB blocks, the mean increase in bone width was 4.12Â mm and hence, this outcome allowed for the placement of dental implant...
The results from the histomorphometric measurements are depicted in Table 2. Bone biopsies were composed by 21.37% (SD 7.36) of residual CCXBB, 26.90% (SD 12.21) of mineralized vital bone (MVB), 47.13% (SD 19.15) of non-mineralized tissue and 0.92% of DBBM (Fig. 5b). Biopsies from patients who lost their implants had a statistical significant lower amount of MVB (p = 0.01u) and a statistical...
Twenty-eight CCXBB blocks were placed in 15 patients that fulfilled the selection criteria (12 women and 3 men) with a mean age of 54.5 (SD 8.34).
The detailed clinical and radiographical outcomes have been reported previously [21]. In brief, one patient experienced pain and soft tissue dehiscence leading to removal of the graft material 3Â days after the regenerative procedure. Another patient r...
For the immunohistochemical analysis, the semi-thin sections were incubated over night with primary antibodies at 4 °C (Santa Cruz Biotechnology Inc., Santa Cruz, Calif., USA). The antibody dilutions used were alkaline phosphatase (ALP) 1:100, osteopontin (OPN) 1:100, osteocalcin (OSC) 1:100, and tatrate resistant acid phosphatase (TRAP) 1:100.
The obtained semi-thin sections were evaluated wit...
Twenty-six weeks after the regenerative procedure the patient returned for the re-entry intervention for placement of dental implants. After raising full-thickness flaps, the augmented area was exposed and horizontal crestal width measurements were performed. Then, the surgeon evaluated the bone availability and if implant placement was considered possible, a core bone biopsy was harvested with th...
CCXBB (Bio-Graft® Geistlich Pharma) is a bone substitute material in a natural block form. The dimensions of the Bio-Graft block are 10 mm in height, 10 mm in length and 5 mm in width. It consists of a natural cancellous bone structure of hydroxyapatite and endogenous collagen type I and III, equine origin and is a class III medical device according to the Medical Device Directive 93/42 EECsâ€...
The present manuscript reports the histological outcomes of a prospective single arm study evaluating the safety and clinical performance of CCXBB blocks when used as replacement bone grafts for lateral bone augmentation prior to staged implant placement. The results of the clinical and radiographic outcomes have been reported in a previous publication [21]. For correlation of the histological wit...
Different techniques and grafting materials have been used for the horizontal reconstruction of deficient alveolar processes before implant placement, resulting in different degrees of predictability and clinical outcomes [1]. Among the grafting materials, particulated xenogeneic materials have been extensively studied in both experimental and clinical studies and when combined with porcine-derive...
The osteoconductive properties of collagen containing xenogeneic bone blocks (CCXBB) remain unclear. The aim of this prospective single-arm clinical study was to assess the histological outcomes of CCXBB blocks used as bone replacement grafts for lateral bone augmentation procedures.
In 15 patients with severe horizontal alveolar ridge resorption, lateral augmentation procedures were performed us...
Fig. 8. Soft tissue dehiscence (a) CCXBB exposure 15Â weeks after bone augmentation, the dehiscence healed 2Â weeks later after reducing the graft exposure (b) after soft tissue augmentation and abutment connection leading to the loss of the mesial implant. After partial removal of the bone graft and place a connective tissue graft the area healed properly and a month later it was possible to re...
Fig. 7. Second stage surgery of patient in Fig. 1. a Vestibular depth reduction after augmentation and implant placement. b Partial thickness and apical repositioned flap. c CMX healing and soft tissue dehiscence with CCXBB exposure. d Dehiscence healing after re-contouring and buccal emergency profile. e Buccal aspect of the final restoration. f Buccal ridge contour
Fig. 7. Second stage sur...
Fig. 6. Immunohistochemical analysis of slices from the same sample with four different markers. a TRAP. b OPN. c ALP. d OSC
Fig. 6. Immunohistochemical analysis of slices from the same sample with four different markers. a TRAP. b OPN. c ALP. d OSC
section stained with Levai-Laczkó. b Tissue identification of the ROI. c Closer view aized bone and CCXBB. d Closer view of b
Fig. 5. Histomorphometric analysis of the same sample. a Ground section stained with Levai-Laczkó. b Tissue identification of the ROI. c Closer view a arrow pointing a cement line between new mineralized bone and CCXBB. d Closer view of b
Fig. 4. Histological samples. a CCXBB control without implantation. b Histologic samples with acute inflammatory infiltration. c Histologic sample with limited remaining CCXBB and large bone ingrowth
Fig. 4. Histological samples. a CCXBB control without implantation. b Histologic samples with acute inflammatory infiltration. c Histologic sample with limited remaining CCXBB and large bone ingr...
Fig. 3. Re-entry procedure of patient in Fig. 1. a Buccal aspect of the augmented region. b Horizontal bone augmentation. c Screws and pins removal and bone trephine sampling. d Implants placement and buccal bone width from the implant shoulder. e Primary flap closure. f Implants submerged healing
Fig. 3. Re-entry procedure of patient in Fig. 1. a Buccal aspect of the augmented region. b Ho...
Fig. 2. Lateral bone augmentation of the alveolar crest (a) atrophic ridge. b Perforations and adaptation of the cortical layer. c Shaping, pre-wetting and fixation of CCXBB with titanium screws. d Horizontal contour and peripheral gap between CCXBB and bone layer. e Outlying DBBM filling. f CM stabilized with pins
Fig. 2. Lateral bone augmentation of the alveolar crest (a) atrophic ridge. b ...
Fig. 1. Study chart and follow-up visits
Fig. 1. Study chart and follow-up visits
Differentiated tissues
Implant lost (Yes/no)
Mean
SD
Percentage
SD (%)
...
Patient
TRAP (%)
OPN (%)
ALP (%)
OSC (%)
1
...
Tissue type
Mean
Standard deviation
Median
CI 95%
Mineralized bone
...
Patient
Soft tissue dehiscence
Mineralized bone (%)
CCXBB (%)
Bone marrow (%)
Connect...
Ortiz-Vigón, A., Martinez-Villa, S., Suarez, I. et al. Histomorphometric and immunohistochemical evaluation of collagen containing xenogeneic bone blocks used for lateral bone augmentation in staged implant placement.
Int J Implant Dent 3, 24 (2017). https://doi.org/10.1186/s40729-017-0087-1
Download citation
Received: 21 March 2017
Accepted: 12 June 2017
Published: 21 Ju...
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...
ETEP Research Group, Facultad de OdontologÃa, Universidad Complutense de Madrid, Plaza Ramón y Cajal, 28040, Madrid, Spain
Alberto Ortiz-Vigón, Sergio Martinez-Villa, Iñaki Suarez, Fabio Vignoletti & Mariano Sanz
You can also search for this author in
PubMed Google Scholar
You can also search for this author in
PubMed Google Scholar
...
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
We wish to acknowledge the dedication and scientific advise of Prof. Dr. Tord Berglundh on the histological analysis as well as the diligent work in processing the histological samples to Estela Maldonado for the immunohistochemistry and Asal Shikhan and Fernando Muñoz for the histomorphometry. The work of Esperanza Gross on the statistical analysis is highly acknowledged.
This study was partial...
Patti A, Gennari L, Merlotti D, Dotta F, Nuti R. Endocrine actions of osteocalcin. Int J Endocrinol. 2013;2013:846480.
Schwarz F, Herten M, Sager M, Wieland M, Dard M, Becker J. Histological and immunohistochemical analysis of initial and early osseous integration at chemically modified and conventional SLA titanium implants: preliminary results of a pilot study in dogs. Clin Oral Implants Res. 2...
Araujo MG, Linder E, Lindhe J. Bio-Oss collagen in the buccal gap at immediate implants: a 6-month study in the dog. Clin Oral Implants Res. 2011;22:1–8.
Chiapasco M, Colletti G, Coggiola A, Di Martino G, Anello T, Romeo E. Clinical outcome of the use of fresh frozen allogeneic bone grafts for the reconstruction of severely resorbed alveolar ridges: preliminary results of a prospective study. I...
Jeno L, Geza L. A simple differential staining method for semi-thin sections of ossifying cartilage and bone tissues embedded in epoxy resin. Mikroskopie. 1975;31:1–4.
Dias RR, Sehn FP, de Santana Santos T, Silva ER, Chaushu G, Xavier SP. Corticocancellous fresh-frozen allograft bone blocks for augmenting atrophied posterior mandibles in humans. Clin Oral Implants Res. 2016;27:39–46.
Nissan ...
Cremonini CC, Dumas M, Pannuti C, Lima LA, Cavalcanti MG. Assessment of the availability of bone volume for grafting in the donor retromolar region using computed tomography: a pilot study. Int J Oral Maxillofac Implants. 2010;25:374–8.
Nkenke E, Weisbach V, Winckler E, Kessler P, Schultze-Mosgau S, Wiltfang J, et al. Morbidity of harvesting of bone grafts from the iliac crest for preprosthetic...
Sanz M, Vignoletti F. Key aspects on the use of bone substitutes for bone regeneration of edentulous ridges. Dent Mater. 2015;31:640–7.
Benic GI, Hammerle CH. Horizontal bone augmentation by means of guided bone regeneration. Periodontology. 2014;66:13–40.
Beretta M, Cicciu M, Poli PP, Rancitelli D, Bassi G, Grossi GB, et al. A Retrospective Evaluation of 192 Implants Placed in Augmented Bon...
Alkaline phosphatase
Cone beam computed tomography
Collagen containing xenogeneic bone block
Native collagen membrane
Deproteinized bovine bone mineral
Etiology and Therapy of Periodontal Diseases
Osteopontin
Osteocalcine
Tartrate-resistant acid phosphatase
Within the limitations of this clinical study, we may conclude that the use of CCXBB in combination with DBBM particles and a native bilayer collagen membrane for staged lateral bone augmentation in severe atrophic alveolar crests achieved significant horizontal crestal width allowing for staged implant placement in most of the patients. Histological analysis and implant survival records indicate ...
The immune-histochemical results reported expression of osteopontin mainly at the border between mineralized vital bone (MVB) with CCXBB, what coincides with findings from previous reports [38,39,40]. Alkaline phosphatase (ALP) is considered as an early osteoblast differentiation marker [41]. ALP-positive cells were detectable, in all specimens on the periphery of MVB, associated to areas of new b...
When correlating the clinical results and the histological outcomes, there was a positive association between the presence of soft tissue dehiscence with CCXBB exposure and a diminished amount of new mineralized bone (p = 0.06). This lower amount of new bone within the xenogeneic graft suggests a lack of full graft integration and diminished vascular supply, what may have caused the soft tissu...
The purpose of this investigation was to evaluate histologically and immunohistochemically the behavior of CCXBB blocks when used for staged lateral bone augmentation in severe human horizontal residual bone defects. Six months after the regenerative intervention using the CCXBB blocks, the mean increase in bone width was 4.12Â mm and hence, this outcome allowed for the placement of dental implant...
The results from the histomorphometric measurements are depicted in Table 2. Bone biopsies were composed by 21.37% (SD 7.36) of residual CCXBB, 26.90% (SD 12.21) of mineralized vital bone (MVB), 47.13% (SD 19.15) of non-mineralized tissue and 0.92% of DBBM (Fig. 5b). Biopsies from patients who lost their implants had a statistical significant lower amount of MVB (p = 0.01u) and a statistical...
Twenty-eight CCXBB blocks were placed in 15 patients that fulfilled the selection criteria (12 women and 3 men) with a mean age of 54.5 (SD 8.34).
The detailed clinical and radiographical outcomes have been reported previously [21]. In brief, one patient experienced pain and soft tissue dehiscence leading to removal of the graft material 3Â days after the regenerative procedure. Another patient r...
For the immunohistochemical analysis, the semi-thin sections were incubated over night with primary antibodies at 4 °C (Santa Cruz Biotechnology Inc., Santa Cruz, Calif., USA). The antibody dilutions used were alkaline phosphatase (ALP) 1:100, osteopontin (OPN) 1:100, osteocalcin (OSC) 1:100, and tatrate resistant acid phosphatase (TRAP) 1:100.
The obtained semi-thin sections were evaluated wit...
Twenty-six weeks after the regenerative procedure the patient returned for the re-entry intervention for placement of dental implants. After raising full-thickness flaps, the augmented area was exposed and horizontal crestal width measurements were performed. Then, the surgeon evaluated the bone availability and if implant placement was considered possible, a core bone biopsy was harvested with th...
CCXBB (Bio-Graft® Geistlich Pharma) is a bone substitute material in a natural block form. The dimensions of the Bio-Graft block are 10 mm in height, 10 mm in length and 5 mm in width. It consists of a natural cancellous bone structure of hydroxyapatite and endogenous collagen type I and III, equine origin and is a class III medical device according to the Medical Device Directive 93/42 EECsâ€...
The present manuscript reports the histological outcomes of a prospective single arm study evaluating the safety and clinical performance of CCXBB blocks when used as replacement bone grafts for lateral bone augmentation prior to staged implant placement. The results of the clinical and radiographic outcomes have been reported in a previous publication [21]. For correlation of the histological wit...
Different techniques and grafting materials have been used for the horizontal reconstruction of deficient alveolar processes before implant placement, resulting in different degrees of predictability and clinical outcomes [1]. Among the grafting materials, particulated xenogeneic materials have been extensively studied in both experimental and clinical studies and when combined with porcine-derive...
The osteoconductive properties of collagen containing xenogeneic bone blocks (CCXBB) remain unclear. The aim of this prospective single-arm clinical study was to assess the histological outcomes of CCXBB blocks used as bone replacement grafts for lateral bone augmentation procedures.
In 15 patients with severe horizontal alveolar ridge resorption, lateral augmentation procedures were performed us...