References : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
Boyne PJ, James RA. Grafting of the maxillary sinus floor with autogenous marrow and bone. J Oral Maxillofac Surg. 1980;38:613–6.
Jensen OT, Shulman LB, Block MS, et al. Report of the sinus consensus conference of 1996. Int J Oral Maxillofac Implants. 1998;13:11–45.
Artzi Z, Weinreb M, Givol N, et al. Biomaterial resorption rate and healing site morphology of inorganic bovine bone and β-tricalcium phosphate in the canine: a 24-month longitudinal histologic study and morphometric analysis. Int J Oral Maxillofac Implants. 2004;19:357–68.
Umanjec-Korac S, Wu G, Hassan B, et al. A retrospective analysis of the resorption rate of deproteinized bovine bone as maxillary sinus graft material on cone beam computed tomography. Clin Oral Impl Res. 2014;25:781–5.
Kim ES, Moon SY, Kim SG, et al. Three-dimensional volumetric analysis after sinus grafts. Implant Dent. 2013;22:170–4.
Zheng X, Teng M, Zhou F, et al. Influence of maxillary sinus width on transcrestal sinus augmentation outcomes: radiographic evaluation based on Cone Beam CT. Clin Implant Dent Relat Res. 2015; Feb 26. Epub ahead of print.
Szabo G, Huys L, Coulthard P, et al. A prospective multicenter randomized clinical trial of autogenous bone versus β-tricalcium phosphate graft alone for bilateral sinus elevation: histologic and histomorphometric evaluation. Int J Oral Maxillofac Implants. 2005;20:371–81.
Suba Z, Takacs D, Matusovits D, et al. Maxillary sinus floor grafting with β-tricalcium phosphate in humans: density and microarchitecture of the newly formed bone. Clin Oral Impl Res. 2006;17:102–8.
Zijderveld SA, Zerbo IR, van den Bergh JPA, et al. Maxillary sinus floor elevation using a β-tricalcium phosphate (Cerasorb) alone compared to autogenous bone grafts. Int J Oral Maxillofac Implants. 2005;20:432–40.
Serial posts:
- Abstract : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Background : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [1]
- Background : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
- Methods : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [1]
- Methods : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
- Methods : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [3]
- Results : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [1]
- Results : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
- Discussion : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [1]
- Discussion : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
- Conclusions : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- References : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [1]
- References : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography [2]
- Acknowledgements : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Author information : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Additional information : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Rights and permissions : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- About this article : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 1 Age groups of the 30 patients : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 2 Observation period : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 3 The number of implants according to site : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 4 The distribution of CBCT examination after 2.5 years : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 5 Radiographic examination of BV (volumetric changes in graft bone over time) : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 6 Radiographic examination of BH (changes in bone height surrounding the implant) : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 7 The radiographic measurements of liner parameters at immediately after surgery (RBH, IL, SW) : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Table 8 Examination of the impact of RBH, IL, SW, and iBH in the height from the implant tip to the bone integration site (BH) : Long-term radiographic assessment of maxillary sinus floor augmentation using beta-tricalcium phosphate: analysis by cone-beam computed tomography
- Fig. 1. Treatment protocol for the present study. Postoperative CBCT was performed a minimum of three times, i.e., immediately, 6 months, and 2.5 years after implant placement : Long-term radiographic assessment of maxillary sin
- Fig. 2. Radiographic examination of the volume of the bone graft (BV): Calculation of area on the frontal plane prior to and immediately after surgery using polygon tool. The polygon tool is included in the CT device, which was dragged around the perimeter of the target site to measure area. Graft volume calculation method (sum of the area and calculation of volume). Volume cm3 = area cm2 × n (number of images) : Long-term radiographic assessment of maxillary sin
- Fig. 3. Radiographic examination of the height of the bone surrounding the implant (BH): Measurement of changes in the height of the implant tip to the bone fixation part over time in the frontal plane: the distance measured from the intersecting point of the long axis of the implant and the maxillary sinus floor to the implant tip: +maxillary side, −alveolar crest side. The liner valuables: residual bone height (RBH), implant length (IL), and width of sinus (SW) : Long-term radiographic assessment of maxillary sin
- Fig. 4. Clinical findings of the second surgery on biopsy at 6 months. The degree of residual grafting materials varied depending on the patient. a most of the β-TCP remained. b Replacement of the β-TCP by new bone had progressed : Long-term radiographic assessment of maxillary sin
- Fig. 5. Radiographic examination (long-term changes in bone height surrounding the implant) n = 20 Number of implants. A total of 5 CBCT scans were taken prior to surgery, immediately after surgery, 6 months after surgery, 1–2 years after surgery, and 3–5 years after surgery : Long-term radiographic assessment of maxillary sin
- Fig. 6. Radiographic examination: The relationship between changes in the maxillary sinus floor associated with a reduction in the grafted bone and the implant tip (a immediately after surgery, b 5 years after surgery) : Long-term radiographic assessment of maxillary sin