Patient Reviews
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Digital implant planning is a cutting-edge approach that leverages advanced imaging and software technology to design and execute precise dental implant procedures. Using 3D data from Cone Beam Computed Tomography (CBCT) scans and digital impressions, dentists can create a virtual model of the patient’s oral anatomy. This allows for detailed analysis of bone density, tooth positioning, and critical structures like nerves and sinuses. With this comprehensive view, dentists can plan the ideal implant placement, angle, and depth, ensuring optimal stability and functionality. The digital workflow also facilitates the creation of customized surgical guides, which enhance accuracy during the procedure. Digital implant planning not only reduces surgical risks and complications but also shortens treatment times and improves patient comfort. By combining advanced technology with personalized care, this approach delivers predictable outcomes and ensures long-lasting results, setting a new standard for precision and efficiency in dental implantology.
The dentist captures high-quality 3D scans (CBCT) and digital impressions to create an accurate virtual model of the patient’s oral anatomy.
Using specialized software, the dentist plans the optimal implant placement, considering bone density, positioning, and critical anatomical structures.
A custom surgical guide is designed based on the digital plan, ensuring precise implant placement during the surgery for improved accuracy and safety.
Digital implant planning uses advanced 3D imaging and specialized software to create a precise, personalized plan for placing dental implants, ensuring optimal positioning and reducing surgical risks.
Yes, digital implant planning is beneficial for most patients, including those with complex cases such as insufficient bone density or proximity to critical structures like nerves and sinuses.
The planning process usually takes a few hours to a day, depending on the complexity of the case, but the procedure is faster and more accurate than traditional implant planning methods.
