Biological Principles and Physiology of Bone Regeneration under the Schneiderian Membrane after Sinus Lift Surgery: A Radiological Study in 14 Patients Treated with the Transcrestal Hydrodynamic Ultrasonic Cavitational Sinus Lift (Intralift).
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TLDR
The results of this paper prove the key role of the sinus membrane as the main carrier of bone reformation after sinus lift procedures as multiple experimental studies suggested and the importance of minimal invasive and rupture free sinuslift procedures is underlined and does not depend on the type of grafting material used.Abstract:
Introduction. Sinus lift procedures are a commonly accepted method of bone augmentation in the lateral maxilla with clinically good results. Nevertheless the role of the Schneiderian membrane in the bone-reformation process is discussed controversially. Aim of this study was to prove the key role of the sinus membrane in bone reformation in vivo. Material and Methods. 14 patients were treated with the minimal invasive tHUCSL-Intralift, and 2 ccm collagenous sponges were inserted subantrally and the calcification process followed up with CBCT scans 4 and 7 months after surgery. Results. An even and circular centripetal calcification under the sinus membrane and the antral floor was detected 4 months after surgery covering 30% of the entire augmentation width/height/depth at each wall. The calcification process was completed in the entire augmentation volume after 7 months. A loss of approximately 13% of absolute augmentation height was detected between the 4th and 7th month. Discussion. The results of this paper prove the key role of the sinus membrane as the main carrier of bone reformation after sinus lift procedures as multiple experimental studies suggested. Thus the importance of minimal invasive and rupture free sinuslift procedures is underlined and does not depend on the type of grafting material used.read more
Citations
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Volumetric changes of grafted volumes and the Schneiderian membrane after transcrestal and lateral sinus floor elevation procedures: A clinical, pilot study
Andy Temmerman,Jeroen Van Dessel,Simone Cortellini,Reinhilde Jacobs,Wim Teughels,Marc Quirynen +5 more
TL;DR: All SFE techniques provided sufficient graft volume for implant treatment and no statistical significant correlation between the post-operative swelling of the Schneiderian membrane and reduction in graft volume at 6 weeks could be obtained.
Journal ArticleDOI
Graft-free sinus augmentation procedure: a literature review.
TL;DR: It is clearly shown in the review that the potential of the maxillary sinus to heal and to form new bone without bone grafts or substitutes is of high nature.
Journal ArticleDOI
Biomechanical Stability of Dental Implants in Augmented Maxillary Sites: Results of a Randomized Clinical Study with Four Different Biomaterials and PRF and a Biological View on Guided Bone Regeneration
TL;DR: The use of SHB alone or combined with aPRF seems to be favourable to achieve a superior (bio)mechanical stable restored alveolar bone.
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Primary implant stability in augmented sinuslift-sites after completed bone regeneration: a randomized controlled clinical study comparing four subantrally inserted biomaterials.
TL;DR: Within the limits of this study the results suggest self-hardening solid-block-like bone-graft-materials to achieve significantly better DTV/ITV than loose granulate biomaterials for its suspected improvement of vascularization and mineralization of the subantral scaffold by full immobilized of the augmentation site towards pressure changes in the human sinus at normal breathing.
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Schneiderian membrane detachment using transcrestal hydrodynamic ultrasonic cavitational sinus lift: a human cadaver head study and histologic analysis.
TL;DR: The results of the present study suggest tHUCSL-INTRALIFT should be used to perform predictable and safe detachment of the periosteum from the bony sinus floor as a prerequisite for undisturbed and successful physiologic subantral bone regeneration.
References
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Bone reformation with sinus membrane elevation: a new surgical technique for maxillary sinus floor augmentation.
TL;DR: Investigating whether sinus membrane elevation and the simultaneous insertion of titanium implants without additional grafting material constitute a valid technique for bone augmentation of the maxillary sinus floor showed that there is great potential for healing and bone formation in the maxillian sinus without the use of additional bone grafts or bone substitutes.
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De novo bone induction by recombinant human bone morphogenetic protein-2 (rhBMP-2) in maxillary sinus floor augmentation
Philip J. Boyne,Leslie C. Lilly,Robert E. Marx,Peter K. Moy,Myron Nevins,Daniel B. Spagnoli,R. Gilbert Triplett +6 more
TL;DR: This first randomized controlled trial demonstrating de novo organ tissue growth in humans from a recombinant human protein safely induced adequate bone for the placement and functional loading of endosseous dental implants in patients requiring staged maxillary sinus floor augmentation.
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The Schneiderian membrane contains osteoprogenitor cells: in vivo and in vitro study.
TL;DR: A genuine osteogenic potential is associated with the hMSSM and can contribute to development of successful sinus augmentation techniques, and the biological background for understanding the observed clinical phenomena in sinus lifting is provided.
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The Use of Periosteum and Surgicel® For Bone Restoration in Congenital Clefts of the Maxilla: A Clinical Report and Experimental Investigation
TL;DR: New principles are introduced for the primary repair of the maxilla in congenital cleft deformities, founded on the assumption that periosteum and bone bordering the cleft possesses normal growth potential.