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Inside Dentistry
September 2016
Volume 12, Issue 9
Peer-Reviewed

Restorative Advances in the Digital Era of Implantology

Diagnostic and treatment planning process based on the complexity of the case

Bradley DeGroot, DDS, MS | George A. Mandelaris, DDS, MS

Advances in implant dentistry have continued to raise the proverbial bar by which success is measured. In in the early days of dental implants, it was enough that implants were immobile, painless, had minimal (<0.2 mm) annual bone loss, and a 10-year survival rate of 80%.1 Few practitioners today, however, would be satisfied with these tenets of success. With the advent of the roughened-surface implant, survival rates have become consistently greater than 95% over a 5- to 10-year period.2 New innovations in implant body and placement protocols have driven the profession forward. Platform switching may minimize crestal bone loss, immediate implant placement reduces treatment time, and guided surgery improves placement accuracy—all without compromising implant survival.3-7 Thus, mere survival of an implant is no longer sufficient to differentiate between success and failure. An esthetic and functional final restoration is paramount and should be the driving force in most implant therapy.

The incorporation of 3-dimensional (3D) imaging into implant dentistry has been a major contributing factor in the rapidity of its advancement. Cone-beam computed tomography (CBCT) imaging enables the identification and evaluation of key anatomic structures such as the inferior alveolar nerve and the maxillary sinus.8-10 It allows clinicians to analyze alveolar ridges before implant placement or augmentation and evaluate hopeless teeth to determine if they may be candidates for immediate implant placement.11,12 CBCT imaging increases the amount of available information exponentially. However, all of the information that can be obtained by imaging is relatively meaningless without “restorative leadership.”

Personalized Treatment

Implant therapy is a prosthetically driven treatment modality. Contemporary implant therapy requires a combination of 3D imaging within a team context guided by the restorative goals. The role of surgical therapy is to support these goals. By embracing the concept of “collaborative accountability,” those providing implants are better able to ensure consistent results.13 Providers often need to do more than replace teeth. The shape and contour of the teeth, their emergence from the gingiva, and the volume and appearance of the soft tissue need to be considered in each case. These evaluations should be incorporated into the CBCT imaging to maximize the 3D information and allow for meaningful treatment planning of the case. A personalized diagnostic and treatment pathway should be developed for the patient in order to optimize interdisciplinary communication between the restorative dentist/prosthodontist, surgeon, and laboratory technician.

The scope of the diagnostic and treatment planning process is different for each patient and depends on the complexity of his or her case. Mecall proposed five “case types,” each requiring varying levels of diagnostic workup and treatment planning (Table 1).14 Once a patient’s case has been classified, the corresponding workup follows a formulaic pattern: create an ideal diagnostic wax-up and transfer the information to the CBCT planning.

Case Type 1

Type 1 cases are the least complicated because both the dental and surgical anatomies are within normal limits (ie, appropriate space is available for tooth replacement, adequate bone is available for ideal implant placement, and gingival esthetics are ideal). Replacement of a tooth (or teeth) can be completed without any modification of the surrounding architecture (Figure 1 through Figure 3). Thus, a diagnostic wax-up for these cases comprises the missing tooth or teeth alone. The information from this wax-up can then be transferred to the patient’s 3D planning through either the fabrication of a scanning appliance or optical imaging of the diagnostic wax-up and merging it into the 3D plan.

Case Type 2

In these types of cases the dental anatomy is within normal limits, but minor adjustments to the surgical anatomy are required. If there is early loss of the facial bone, the ideal wax-up needs to be fully contoured (replace both teeth and soft tissue). Conversely, if the phenotype is thin/discolored but spacially correct, a tooth-form wax-up may suffice. This information is then used to complete the patient’s 3D planning.

Case Type 3

Cases that are type 3 present with surgical anatomy that requires alteration while the dental anatomy remains mostly within normal limits. Often these cases require horizontal ridge augmentation and/or soft-tissue augmentation to correct the anatomic limitations and, therefore, require a fully contoured wax-up. After transferring this wax-up to the 3D image, the providers are better able to identify the most appropriate surgical and prosthetic treatment modalities.

Case Type 4

Type 4 cases are relatively complex because they involve the modification of both the dental and surgical anatomies. Such cases may present with a combination of vertical and horizontal bone loss with supraeruption, altered occlusal vertical dimension (OVD), or inappropriate space for ideal tooth form. These cases often require some vertical augmentation of the residual ridge in addition to the horizontal augmentation. As such, they require a fully contoured diagnostic wax-up at a minimum but may benefit from a trial tooth set-up if the discrepancy between actual and ideal anatomy exists in both arches (Figure 4 and Figure 5).

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