Open Sinus Lift Surgery and the Importance of Preoperative Cone-Beam Computed Tomography Scan: A Review.
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Open sinus lift surgery is a form of pre-prosthetic surgery for increasing the quality and quantity of bone in the posterior region of the maxilla. Pre-operative assessment of the maxillary sinus is essential for the success of this surgery. PubMed search was carried out in English language literature for open sinus lift surgery and cone-beam computed tomography (CBCT). The results focused on anatomic variants, vascular anatomy, complications, osteotomy/ostectomy window dimensions and thickness of the Schneiderian Membrane. 59 articles were included in this review. Features other than the height and the width of the residual alveolar ridge that should be evaluated in preoperative CBCT scan include the thickness of the lateral maxillary sinus wall, the presence of the alveolar antral artery and its diameter, the maxillary sinus floor width and angulation, irregularity of sinus floor, intimate relation of Schneiderian membrane with the roots of the adjacent teeth, sinus septum, and the quality of subantral bone. Other conditions that occasionally may be observed in special situations are also explained. More than ten parameters should be checked in evaluating CBCT images of paranasal sinuses other than the width and the length of the residual ridge in the posterior region of the maxilla. Each of them may have a significant impact on the results of the open sinus lift surgery.Keywords:
Sinus lift
Sinus (botany)
Alveolar ridge
Osteotome
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Open sinus lift surgery is a form of pre-prosthetic surgery for increasing the quality and quantity of bone in the posterior region of the maxilla. Pre-operative assessment of the maxillary sinus is essential for the success of this surgery. PubMed search was carried out in English language literature for open sinus lift surgery and cone-beam computed tomography (CBCT). The results focused on anatomic variants, vascular anatomy, complications, osteotomy/ostectomy window dimensions and thickness of the Schneiderian Membrane. 59 articles were included in this review. Features other than the height and the width of the residual alveolar ridge that should be evaluated in preoperative CBCT scan include the thickness of the lateral maxillary sinus wall, the presence of the alveolar antral artery and its diameter, the maxillary sinus floor width and angulation, irregularity of sinus floor, intimate relation of Schneiderian membrane with the roots of the adjacent teeth, sinus septum, and the quality of subantral bone. Other conditions that occasionally may be observed in special situations are also explained. More than ten parameters should be checked in evaluating CBCT images of paranasal sinuses other than the width and the length of the residual ridge in the posterior region of the maxilla. Each of them may have a significant impact on the results of the open sinus lift surgery.
Sinus lift
Sinus (botany)
Alveolar ridge
Osteotome
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The objective was to establish a model in rabbits in which to study the healing events associated with localized indirect osteotome-mediated maxillary sinus floor elevation in conjunction with simultaneous placement of sintered porous-surfaced dental implants. On one side of the maxilla of each of 28 rabbits, a sintered porous-surfaced titanium alloy press-fit implant was placed without the use of a bone graft material, while on the collateral side an implant was placed after first adding Bio-Oss graft particles to the osteotomy. Specimens were retrieved for morphometric assessment of bone contact and bone ingrowth of the porous implant surface after 2, 4, 6 and 8 weeks of healing. All implants became osseointegrated by bone ingrowth into the porous implant surface. While the addition of graft particles did not result in a statistically significant increase in the parameters measured, a trend for greater bone contact and particularly bone ingrowth at the apices of the implants was seen as healing time increased. The rabbit maxillary sinus can be used to study healing following placement of sintered porous-surfaced dental implants using the indirect sinus elevation procedure.
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Abstract The sinus elevation procedure is a predictable technique to allow for placement of dental implants in the posterior maxilla when the height of the alveolar ridge is limited. The sinus elevation can be performed by various techniques. In the crestal approach, bone graft is utilized to hydraulically elevate the sinus membrane through an osteotomy prepared in the alveolar crest. The implant can be placed either immediately or at a later surgery. This is a case report of an oroantral communication that developed as a complication to a sinus elevation surgery performed with the crestal approach. A 54-year-old female patient presented for dental implant treatment. The patient reported sleep apnea and smoking. Full-thickness flap was reflected in the posterior maxilla and using trephines, an osteotomy was prepared, 1 mm short of the sinus. The trephined core of bone was pushed into the sinus using osteotomes. Particulate bone graft was introduced through the osteotomy to elevate the sinus membrane, and a collagen membrane was used over the bone graft. Six days after surgery, the patient returned to the clinic with an oroantral communication. The patient reported that she was using a positive-pressure breathing mask at night because of sleep apnea. A flap was extended to the tuberosity area and was rotated palatally to achieve closure. The use of the pressure breathing mask was discontinued. The oroantral communication was successfully closed. Relatively few complications have been reported using the osteotome sinus elevation technique. The use of a positive pressure mask may have complicated a sinus elevation surgery. Other factors that may have contributed to this complication include smoking and delayed healing of the area.
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Background: Various techniques of sinus floor elevation (SFE) are described. The elevation with osteotomes (OSFE) from a crestal approach is a relatively new technique. The aim of this systematic review and meta‐analysis was to evaluate the clinical outcome of implants placed into the maxillary sinus augmented with an OSFE technique. Methods: A systematic online and manual review of the literature identified articles dealing with OSFE. Applying rigid inclusion criteria, screening and data abstraction were performed independently by two reviewers. The follow‐up of loaded implants was a minimum of 6 months. The identified articles were analyzed regarding implant outcome and defined surgical aspects. Survival and success rates were estimated by Kaplan‐Meier curves. Results: Eight out of 44 articles dealing with osteotome sinus floor elevation met the inclusion criteria. Five of the studies met established success criteria. The survival and success rates were 95.7% and 96.0% after 24 months and 36 months, respectively. The median and mean follow‐up periods were 24 and 18.73 months for the survival rate and 24 and 19.7 months for the success rate. Regarding different surgical elements, i.e., osteotome techniques, implant types, and augmentation materials, the database was multivariate. Thus, no statistical analysis could be performed on these parameters. Conclusions: Short‐term clinical success/survival (≤3 years) of implants placed with an osteotome sinus floor elevation technique seems to be similar to that of implants conventionally placed in the partially edentulous maxilla. Controlled prospective clinical studies are needed to evaluate the long‐term outcome and various surgical modifications of OSFE. J Periodontol 2005; 76:1237‐1251 .
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The sinus floor elevation (sinus lift) is a procedure used for treating patients with very large pneumatisation of the maxillary sinus and thereby with severe atrophic maxilla (height of the residual alveolar bone between 5 and 8 mm). A modification of this technique is the osteotome sinus floor elevation: this is a less invasive method of creating sites with osteotomes by crestal approach in locations with insufficient bone for insertion of oral implants. With larger osteotomes, bone graft substitutes are placed through the osteotomy site to provide a sinus floor elevation and an augmentation of the crestal bone. Therefore, via the osteotome technique, longer oral implants can be inserted.
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A novel technique for transcrestal guided sinus lift elevation (TGSL), is described underlining the step by step surgical protocol.TGSL modified osteotome technique was planned by the NobelProcera(®) Software Planning Programm (Nobel Guide, Nobel Biocare AB) and performed by stereolitographic template. The depth of the planned osteotomy was determined precisely via cross-sectional images of the elevation site to facilitate puncture of the bony sinus floor without risk of perforation of the adherent sinus membrane. A customized drilling-osteotome protocol is used to raise the Schneiderian membrane to the final implant length.The sinus membrane is successfully elevated in all sites without any iatrogenic perforation.The TGSL modified osteotome technique may provide a new option for minimally invasive transcrestal sinus surgery and may represent a safe method to increase bone volume in the atrophic posterior maxilla. The results of the present study would suggest that this new surgical technique may reduce patient morbidity and extend the indications for transcrestal maxillary sinus floor elevation.
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Abstract This report demonstrated the management of combined ridge defect and maxillary sinus pneumatization with simultaneous implant placement. One case with vertical and horizontal ridge deficiency and sinus pneumatization in the maxillary premolar area was indicated for ridge augmentation and sinus elevation before implant placement. Implant osteotomy was enlarged using a ridge expansion osteotome to 1 mm short of the sinus floor; sinus elevation was performed using sinus lift osteotomes; the implant was placed; bone graft and resorbable membrane were used to augment the remaining defect. The second stage was done after 6 months, followed by final restoration. The patient was reevaluated for 36 months following the final prosthesis. The surgical site healed without complication following implant placement. During the second stage, the implant was completely surrounded by bone, with bone covering the buccal aspect of the cover screw. The X-ray showed a 5 mm apical shift of the sinus floor at 6 months post surgery. At 12 months post loading, crestal bone loss to the level of the first thread was noted; no changes were observed at the sinus or surrounding teeth. Pocket depth ranged from 3–4 mm. No further bone loss or soft tissue contour change was noted at 18, 24, 30, and 36 months post loading. The combination of these three techniques with simultaneous implant placement as described in this report seems to be successful. Further research is needed to evaluate whether the combination of these techniques with simultaneous implant placement offers similar results when compared with the stage approach.
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Implant placement in the posterior region of the maxilla might be problematic due to poor regional bone quality. The aim of this study was to clinically and radiologically evaluate implants which were placed in the posterior region of the maxilla (with insufficient bone height) with osteotome sinus lift technique after 19-month follow-up.Twenty-four patients with posterior maxillary alveolar height ranging from 5 to 8 mm were chosen for this prospective study. After breaking of the cortical bony sinus floor, sufficient bone substitute was placed, and sinus floor was elevated. In this way, a new sinus floor was created, which was designated for further implants placement. Fifty implants were placed immediately after osteotomy sinus lift technique. The mean clinical and radiological follow-up period was 19 months (with a range of 14-24 months). Success factors such as the absence of mobility, pain, infection, and the amount of crestal bone loss were determined in this study. For data analyzing, Kruskal-Wallis and Mann-Whitney tests were used.After 19 months, results showed 96% success rate. Two out of fifty implants failed due to mobility. The mean depth of implants in sinus, mean height of residual crestal bone before surgery, and the mean rate of crestal bone loss were 3.8, 7.9, and 0.71 mm, respectively.Osteotome sinus lift technique is a noninvasive surgical method for enhancing a desired length. Furthermore, implants insertion was successful after osteotome sinus lift technique in cases with insufficient bone height.
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Objective To evaluate the effects and the characteristics of maxillary sinus lift by internal sinus floor elevation with simultaneous placement of implants. Methods 56 patients underwent internal sinus floor elevation by extruding alveolar ridge crest of maxillary bone and simultaneously received 64 implants,and the implants were detected by clinical observation and X-ray radiography. Results All cases had renovated with artifical teeth 6 months later. Follow-up was taken after restoration from 8 to 60 months (the average was 19.4 months),and 3 patients suffered from cavitas nasi-rrhage,but no implant loosed or exfoliated. It was found that bone height of sinus floor on implants was elevated about 3.85±0.12mm,no shadowes were observed in peri-implants,and the alveolar bone was well osteointegrated with the implants. Conclusion Compared with orthodox sinus floor elevation,the internal sinus floor elevation could have simpler operating procedures and shorter operating time,and reduce the discomfort of the operation,so it should be widlly applied.
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