Introduction:Three-dimensional (3D) planning in oral and maxillofacial surgery has become a standard in the planification of a variety of conditions such as dental implants and orthognathic surgery. By using custom-made cutting and positioning guides, the virtual surgery is exported to the operating room, increasing precision and improving results.Materials and Methods:We present our experience in the treatment of craniofacial deformities with 3D planning. Software to plan the different procedures has been selected for each case, depending on the procedure (Nobel Clinician, Kodak 3DS, Simplant O&O, Dolphin 3D, Timeus, Mimics and 3-Matic). The treatment protocol is exposed step by step from virtual planning, design, and printing of the cutting and positioning guides to patients’ outcomes.Conclusions:3D planning reduces the surgical time and allows predicting possible difficulties and complications. On the other hand, it increases preoperative planning time and needs a learning curve. The only drawback is the cost of the procedure. At present, the additional preoperative work can be justified because of surgical time reduction and more predictable results. In the future, the cost and time investment will be reduced. 3D planning is here to stay. It is already a fact in craniofacial surgery and the investment is completely justified by the risk reduction and precise results.
Microtia has an incidence of 1 in 7000 to 8000 births. Ear reconstruction has 2 main aims: reconstructive and aesthetic, and a considerable number of patients ask for an earring at the end of their treatment. Herein, we explain our team’s modification to the Firmin technique, perforating the lowest part of the autologous cartilage framework (Parri’s modification). The orifice is cartilaginous and the skin covering both sides is easily perforable without contacting the rest of the framework. In conclusion, our modification for placing an earring is simple; it does not increase the surgical time and contributes to approach the perfection of auricular reconstructive surgery.
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