A healthy smile is a complex work of art, with every tooth playing a unique role. But when one of your teeth is missing, this harmony can be disrupted.
The titanium or alloys of titane usually used to manufacture dental implants have physical properties that differ from those of the os alveolaire, which increases the risk of micro-fractures. MagiCore has been designed to have similar properties as those of the os alveolaire, decreasing this risk.
Minimally Invasive Technology
Advancements in surgical techniques have enabled surgeons to perform more operations using minimally invasive methods. By accessing your organs through smaller portals, minimally invasive procedures reduce complications and speed recovery.
The MagiCore implant has a thin machined neck that allows it to be placed without lifting a flap. This allows the placement of implants in complex anatomical situations that involve thin crestal bone, extending the indication of the implant to patients who were previously contraindicated for implant placement.
This method of insertion also reduces the risk of complications like peri-implant diseases. It also improves the quality of the osseointegration, since it is done in a controlled environment and less stress is put on the bone. Additionally, it makes the insertion of the screw easier and more stable, decreasing the possibility of abutment fracture.
90% Bone 10% Titanium
The current implant materials, especially the porous hydroxyapatite scaffolds, have known limitations in repairing critical bone defects and achieving true osseointegration. Titanium foam has great potential to provide a more bioactive surface and reduce stress-shielding effects in the bone-implant interface.
The Magic Core implant has been designed with full restoration in mind. This means it has a minimal 2mm post height that allows for more flexible connection between the fin threads and alveolar bone, decreasing micro-fractures.
The cytocompatibility of the Magic Core implant and gold standard Nobel parallel implants has been evaluated in a preclinical animal model using indirect contact tests with gingival fibroblast and osteoblast cells and a morphometric evaluation at the bone-implant interface. Both implants showed no cytotoxicity in indirect contact and low cytotoxicity in direct contact with both cell types. The titanium alloys (grade 5) of both implants showed no release of aluminum or vanadium. These elements are known to cause severe disruption of enzymatic reactions and lead to diverse cellular immune deficiencies.
Matching Elasticity
With the right specifications, a nonlinearity in the matching function can drive large fluctuations in the law of motion of unemployment and job finding rates. However, there is substantial uncertainty in the estimates of the time-varying matching elasticity. This makes it difficult to assess the impact of nonlinearities in this parameterization on the data.매직코어임플란트
The DRW matching function generates stronger nonlinearities because of its gross complementarity between vacancies and unemployed workers and its procyclical vacancy creation elasticity. As a consequence, changes in the vacancy creation rate amplify positive productivity shocks and dampen negative ones. This generates significant skewness and kurtosis in job finding rates and unemployment.
The MagiCore implant uses a thin machined neck, which allows the implant to be placed without lifting a flap in complex anatomical situations. It also features a fin thread that minimizes bone compression. This prevents peri-implant inflammation and leads to quicker healing. This is important because reducing inflammation in the area surrounding an implant is essential to preserving bone health.IBS매직코어임플란트
Easy Placement
The MagiCore implant has been engineered to not only solve complex implant problems but also to prevent them in the future. Its design produces minimal shearing force in the bone os alveolaire, and its unique Fin Thread reduces the difference in elasticity between the implant and the surrounding bone, thus significantly decreasing the risk of micro-fractures.
Additionally, the MagiCore implant’s cuff design eliminates the pumping action of typical two-piece implants, which can cause interface micro-movement. This minimizes the inflammatory zone and promotes healthier periodontal conditions.
The implant’s titanium surface naturally fuses to the jawbone, a process known as osseointegration. This results in a strong and sturdy foundation for your new replacement tooth. When you get an implant at Alpen Implants & Periodontics, you’ll be able to smile with confidence knowing your new tooth is securely anchored in place. To ensure optimal results, you should follow the recommended recovery timeline and seek care from a qualified professional.