Objectives: Recombinant human (rh)BMP-2 is known to induce bone formation by stimulating osteoblast differentiation. Mussel adhesive proteins (MAPs) secreted from mussels have been suggested as suitable adhesives for tissue engineering and medicine. In this study, rMAP was used to immobilise rhBMP-2 on a titanium mesh (Ti-mesh) surface, and the osteoinductivity of the BMP-2/rMAP on Ti-mesh surfaces was investigated in vitro and in vivo. Methods: (i) Expression and purification of rMAP: Hybrid rMAP was expressed in Escherichia coli and the proteins were harvested for purification after centrifugation. The rMAP was extracted using 25% (vol/vol) acetic acid, and endotoxin was removed by sequential purification. The purity of rMAP was assessed by 12% (wt/vol) sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). (ii) BMP-2 immobilisation using rMAP on Ti-mesh surfaces: For in vitro analysis, surfaces were coated with 50µg/cm2 of rMAP solution after removing all organic molecules from the Ti-mesh surface. To immobilise BMP-2 on Ti-mesh surfaces, rMAP solution was mixed with 50µg/mL of rhBMP-2 in sodium bicarbonate (pH 0.8), and coated on the mesh surfaces as described previously. (iii) Animal surgery for in vivo bone regeneration ability assays: Each kind of Ti-mesh surface was tested on male Sprague-Dawley rats (n = 6) weighing 250–300g. The rat calvaria were exposed through skin and periosteum incisions using a #15 surgical blade, and circular bone defects were punched using a 8-mm diameter trephine drill under saline irrigation. Two short screws were used to fix each Ti-mesh (prepared just before surgery) over the defect. (iv) Radiographic and histological assessment was made of in vivo bone regeneration. (v) In vitro cell attachment and proliferation assays were performed. (vi) In vitro osteoblast differentiation assays included phenotypic differentiation assays and osteogenic gene expression analysis. Results: Through micro-CT analysis and histological evaluation, the BMP-2/rMAP-coated titanium surfaces displayed improved new bone formation in the rat calvarial defect model compared to rMAP-coated and uncoated surfaces. In addition, cellular behaviours (e.g. adhesion and proliferation) of mouse pre-osteoblast MC3T3-E1 cells were significantly increased on Ti-mesh surfaces coated with BMP-2/rMAP and rMAP. The BMP-2/rMAP-coated surface showed the highest degree of osteogenic differentiation. Messenger RNA expression of osteogenic differentiation marker genes was upregulated in MC3T-E1 cells on BMP-2/rMAP-coated Ti-mesh surfaces. Conclusions: Recombinant MAP is a promising biomaterial for BMP-2 immobilisation on titanium surfaces and guided bone regeneration with enhanced osteoinductivity

Procedure: - Extraction of upper front teeth not suitable for preservation - Immediate loading of four NobelPerfectTM implants - Intraoperative registration of implant position - Flap-free Vestibular Bone Augmentation - Connective Tissue Graft for Periodontal Regeneration - Immediate Loading of temporary implants on the day of surgery - Definitive restoration 6 months later Materials: NobelPerfect Groovy Implants RP and NP; NobelPerfect Temporary Abutments RP and NP; NobelPerfect Implant Replicas RP and WP; Ribbond, Bondable Reinforcement Ribbon; Ethilon 5-0 FS3 Suture Material; Astra Bonetrap Bone Collector.

Procedure: Delayed loading of dental implants in the esthetic zone of the maxilla. Guided bone regeneration (GBR) for compensatory augmentation with subsequent exposure after healing. Contents: Soft and hard tissue loss leads to esthetic problems, even in patients with successful implant osseointegration. Delayed loading of dental implants in the esthetic zone is frequently indicated in dental practice, for example, in patients with congenital absence of the lateral incisors. Dental implants can solve this problem. Depending on the extent of hard tissue loss, it may be necessary to perform guided bone regeneration (GBR) in order to achieve better esthetic results. Depending on the degree of atrophy, GBR may be performed before or simultaneous with implantation. Correct implant placement is essential to achieving the end goal: an esthetically pleasing and natural result. In this film and in the presentation, we will demonstrate in detail the procedure for placing implants in this esthetically sensitive region. In addition, we will demonstrate a method of impression-taking that provides dental laboratories a better foundation for achieving excellent esthetic results.