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Fig. 1. Search strategy for BMAC : Maxillary sinus...

Fig. 1. Search strategy for BMAC Fig. 1. Search strategy for BMAC

Table 2 Characteristics of selected studies : Maxi...

Study Treatment groups No. of patients (age range) No. of maxillary sinuses evaluated Donor site for BMAC C...

Table 1 OHAT risk of bias assessment : Maxillary s...

  Study de Oliveira et al. [12] Pasquali et al. [7] Payer et al. [2] Sauerbier et al. [11] ...

About this article : Maxillary sinus augmentation ...

Ting, M., Afshar, P., Adhami, A. et al. Maxillary sinus augmentation using chairside bone marrow aspirate concentrates for implant site development: a systematic review of histomorphometric studies. Int J Implant Dent 4, 25 (2018). https://doi.org/10.1186/s40729-018-0137-3 Download citation Received: 20 February 2018 Accepted: 21 May 2018 Published: 03 September 2018 DOI:...

Rights and permissions : Maxillary sinus augmentat...

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...

Ethics declarations : Maxillary sinus augmentation...

This is a systematic review of published data; no patients were involved in the conduct of this review. Miriam Ting, Philip Afshar, Arik Adhami, Stanton M. Braid, and Jon B. Suzuki declare that they have no competing interests. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Author information : Maxillary sinus augmentation ...

Correspondence to Miriam Ting.

Author information : Maxillary sinus augmentation ...

Private practice in Periodontology, and Think Dental Learning Institute, Paoli, PA, 19301, USA Miriam Ting Temple University Kornberg School of Dentistry, 3223 North Broad Street, Philadelphia, PA, 19140, USA Philip Afshar & Arik Adhami Division of Oral and Maxillofacial Surgery, Department of Oral Medicine, Pathology and Surgery, Temple University Kornberg School of Dentistry, 3223 North Br...

Availability of data and materials : Maxillary sin...

All the data generated during this systematic review were included in this manuscript.

References : Maxillary sinus augmentation using ch...

Rooney AA, Boyles AL, Wolfe MS, Bucher JR, Thayer KA. Systematic review and evidence integration for literature-based environmental health science assessments. Environ Health Perspect. 2014;122(7):711–8. Sauerbier S, Rickert D, Gutwald R, Nagursky H, Oshima T, Xavier SP, et al. Bone marrow concentrate and bovine bone mineral for sinus floor augmentation: a controlled, randomized, single-blinded...

References : Maxillary sinus augmentation using ch...

Tatum H Jr. Maxillary and sinus implant reconstructions. Dent Clin N Am. 1986;30(2):207–29. Payer M, Lohberger B, Strunk D, Reich KM, Acham S, Jakse N. Effects of directly autotransplanted tibial bone marrow aspirates on bone regeneration and osseointegration of dental implants. Clin Oral Implants Res. 2014;25(4):468–74. Chaushu G, Vered M, Mardinger O, Nissan J. Histomorphometric analysis a...

Abbreviations : Maxillary sinus augmentation using...

Bone marrow aspirate concentrate Confidence limits Ethylenediaminetetraacetic acid Technique involving bone marrow-derived mononuclear cell isolation by synthetic polysaccharide Mononuclear cells Mesenchymal stem cells Office of Health Assessment and Translation Standard deviation

Conclusions : Maxillary sinus augmentation using c...

Within the limits of this systematic review, the chairside method to harvest BMAC is a viable option for maxillary sinus augmentation for implant site development. The implant survival of the BMAC group was similar to the laboratory FICOLL concentration of BMAC group, without the additional cost and time of laboratory cell isolation techniques. Single or double centrifugation of BMAC does not appe...

Discussion : Maxillary sinus augmentation using ch...

In addition, the parameters to evaluate new bone formation were variable. New bone formation and percentage of vital bone are different methods to measure bone formation, and the data from different methods could not be combined or analyzed together. Furthermore, the BMAC evaluated in test groups were prepared differently and were harvested from different sources (tibia or iliac). The control grou...

Discussion : Maxillary sinus augmentation using ch...

Although the variations of the materials and methods for BMAC preparation were discussed, this review was not aimed to compare materials and methods for BMAC preparation, but rather the end clinical result for new bone formation and implant survival. Although implant survival and new bone formation were not the only parameters to consider when evaluating sinus augmentation, these parameters were t...

Discussion : Maxillary sinus augmentation using ch...

It appears that BMAC offers no statistically significant advantage for regeneration of bone in the maxillary sinus for site preparation of dental implants. BMAC + bovine bone graft results in similar regeneration outcome measures histologically as alveolar bone alone at 3–4 months. Measured histomorphometrically MSCs treated by FICOLL–Hypaque centrifugation to consolidate osteogenic and osteo...

Discussion : Maxillary sinus augmentation using ch...

Pasquali et al. [7], in eight patients compared BMAC + bovine bone graft (test group) with bovine bone graft alone (control group). New bone (55.15%) was reported in the test group compared with new bone (27.3%) in the control group based on histomorphometric analyses. This reported observation indicating statistically more new bone regeneration in the BMAC + bovine bone graft group compared with ...

Discussion : Maxillary sinus augmentation using ch...

Sauerbier et al. [14] further compared BMAC + bovine bone grafts (test group) with alveolar bone, autologous + bovine bone grafts (control group) for maxillary sinus site preparation. New bone (31.3%) for the test group compared with new bone (19.3%) for the control group statistically indicated equivalence in histomorphometric outcome. Histologic images showing impressive new bone formation were ...

Discussion : Maxillary sinus augmentation using ch...

Mesenchymal stem cells (MSCs) in BMAC have the potential to renew, experience clonal expansion, and differentiate into musculoskeletal tissues [16]. MSCs are also known to have an immunoregulatory role and may enhance the normal healing response and angiogenesis [10]. BMAC has been used in bone, cartilage, and tendon injuries with encouraging results [16]. BMAC is a minimally invasive procedure, a...

Results : Maxillary sinus augmentation using chair...

The search generated 797 reviews in PubMed, 114 in Web of Science, 97 in Cochrane Library, and 319 in Google Scholar (Fig. 1). The following were selected after the title and abstract screening: 18 were selected from PubMed, 23 from Web of Science, 6 from Cochrane Library, 2 from Google Scholar, and 2 from hand searching the reference list of the selected article. After the duplicates were remove...

Materials and methods : Maxillary sinus augmentati...

What are the histomorphometric outcomes of sinus augmentation with bone marrow aspirate concentrates obtained chairside? PubMed, Web of Science, Cochrane Library, and Google Scholar were searched up to January 2017. Google scholar was searched for gray literature. The following keywords were used: “bone marrow aspirate concentrates,” “stem cells,” “histomorphometric,” and “bone graf...

Review : Maxillary sinus augmentation using chairs...

Maxillary sinus augmentation is indicated when there is an inadequate vertical alveolar bone height to effectively support surgically placed dental implants. The sinus elevation procedure requires grafting bone material onto the sinus floor to regenerate sufficient vertical alveolar bone height [1, 2]. The ideal bone grafting material should be biocompatible, possess no risk of disease transmissio...

Abstract : Maxillary sinus augmentation using chai...

Maxillary sinus pneumatization following dental tooth extractions and maxillary alveolar bone resorption frequently leaves inadequate bone levels for implant placement. The objectives of this systematic review are to evaluate the effects of bone marrow aspirate concentrates (BMACs) used in maxillary sinus augmentation for implant site development. A systematic search was conducted using PubMed, E...

Figure 3. Erythroid, granulocytic, monocytic and l...

Figure 3. Erythroid, granulocytic, monocytic and lymphocytic series are illustrated, as well as megakaryocytes (hematoxylin and eosin, original magnification ×400)

Figure 2. Normal hematopoietic cells, fat cells an...

Figure 2. Normal hematopoietic cells, fat cells and bone trabeculae (hematoxylin and eosin, original magnification ×200)

Figure 1. The periapical radiograph revealed the p...

  Figure 1. The periapical radiograph revealed the presence of an extensive and poorly circumscribed osteoporotic area around the proximal implant

Focal osteoporotic bone marrow defect involving de...

Only few cases of the focal osteoporotic bone marrow defect associated with dental implants has been described in the English literature. Sençimen et al. (2011) reported a clinical case in which the focal osteoporotic bone marrow defect occurred 2 years postoperatively apical to a dental implant in posterior mandible region and the diagnosis was established based on the combination of clini...

Focal osteoporotic bone marrow defect involving de...

  Case presentation An 84-year-old white woman was referred to private dental clinic for an implant rehabilitation treatment. Intraoral examination revealed healthy mucosa and there was not any sign of infection. Her past medical history was unremarkable. The radiography of the molar region showed with a quite ill-defined radiolucent area presenting irregular borders associated to dental impl...

Focal osteoporotic bone marrow defect involving de...

Abstract In oral implantology, the most serious complications occur intraoperatively or within a short period. We describe an unusual case of focal osteoporotic bone marrow defect involving dental implant in the posterior mandibular region of the adult woman. Despite the fact that this condition requires no treatment, it could lead to the displacement of the dental implant. Additionally, th...

Ridge alterations: 8 week

Figure 49. Dimensional ridge alternation : 8 weeks At 8 weeks after tooth extraction, the entrance to the extraction site is bridged with cortical bone. The woven bone in the socket is replaced with bone marrow and some trabeculae of lamellar bone. At the crests of the buccal and lingual cortical plates, there are signs of ongoing bone resorption.