Dental Implants Clinical Trial
Official title:
The Accuracy of Partially or Fully Guided Dental Implantation Performed With Dental Implantological Surgical Guide as Compared to Freehand Dental Implantation
This is a prospective, adaptive, parallel study with four arms, which seeks to compare the accuracy of freehand and guided dental implantation surgeries. The basis of the comparison in each case is a digital plan, and that digital plan is compared to the actual postoperative status by computerized, three dimensional analysis.
Osseointegration of endosseous implants has long been the focus of research in dental
implantology, for obvious reasons. The use of Titanium became the standard quite soon, but it
took decades of research to come up with the ideal shapes and surface modifications (both
physical and chemical), so that today it is safe to assume that a properly placed
commercially available dental implant will osseointegrate. The issue of osseointegration can
thus be considered as practically resolved, and this traditional surface-oriented line of
implant research now focuses on modifications to prevent complications, such as
peri-implantitis (7). It must be seen, though, that for decades, the main goal was to keep
the inserted implant in place, which pushed other important issues aside, such as the three-
dimensional position of the inserted (and osseointegrated) implant in the bone. The lack of
adequate imaging technologies also contributed to the paucity of research in this direction
and clinicians - having no other option - started to plan implant positions in panoramic
radiograms and perform implant surgeries relying on their ability to mentally merge those
two- dimensional plans with patient anatomy. Today, this can be considered the standard
approach to dental implant surgery.
The optimal positioning of the implant in the patient's bone is, in many respects, an issue
of distinguished importance. First, the position of the implant has a profound impact on the
fit of and stress distribution on the superstructure (i.e. crown or bridge), which, in turn,
influences survival of the latter. The position of the implant also determines the
distribution of stress in the supporting bone, which, ultimately, influences the long-term
survival of the implant itself. In other words, a misplaced implant may be functional for
some time, but will not survive in the long run. Finally, a misplaced implant can cause
serious esthetic problems in the esthetic zone.
The rapid progress of information technology and digital image processing created a favorable
environment for what may be called digital dentistry, including the computer-assisted, three-
dimensional planning of implant surgery and the stereolithographic manufacturing of surgical
guides based on such digital plans. Various systems and procedures exist, but cone-beam
CT-based digital planning and the production of custom-made surgical guides are shared
features. The studied SMART Guide guided system is unique in the sense that the entire
process is digital, and no dental technical work is required.
The aim of such a guided system is to provide individualized patient care by a.) planning
implant position(s) considering the individual patient anatomy and b.) manufacturing a
custom-made surgical guide that serves to guide bone drills during the preparation of the
bony bed of the planned implant. The custom-made guide is manufactured according to the
digital plan. The result is a surgical accessory that exactly fits the remaining dentition of
the patient (thereby stabilizing it) and ensures that the bony bed of the implant is prepared
as planned. Meta-analyses show that these systems indeed allow highly accurate implant
placement as compared to the plan. But is this any better than the traditional, freehand way
of implant surgery and placement? Intuitively, one would answer yes, but, in fact, the
question is quite difficult to answer, given the almost complete lack of studies on the
accuracy of freehand implant placement. Therefore, one of the aims of this study is to make
such a comparison. A further point is that in the everyday practice, surgical guides are used
in either of the following three modalities: for the initiation of the bed preparation
("pilot"), for the initiation and the entire drilling process ("partial") and for the entire
process including the insertion of the implant ("full"). It is assumed that the more
extensively the guide is used, the more accurate the final implant position will be as
compared to the plan. However, this is only an assumption, as no direct comparison is
available. Therefore, it is also our aim to compare these modalities in terms of how accurate
implantation they allow as compared to the plan.
The investigators hypothesize that all three guidance modalities will allow significantly
more accurate implant placement than the freehand method. It is also hypothesized that the
three modalities will differ in the accuracy they allow. In general, the investigators
hypothesize that any form of guided implant surgery and placement yields significantly more
accurate results than the freehand approach.
Primary aim Comparison of the accuracy of partially and fully guided implantation as
indicated by angle deviation.
Secondary aims
The secondary aims of the study are as follows:
To compare the accuracy of the different methods as indicated by entry point deviation; To
compare the accuracy of the different methods as indicated by apical deviation; To compare
the accuracy of the different methods as indicated by volume overlap; To compare the
influence of position (maxilla or mandible) on the accuracy of implantation; To assess the
tolerability of implantation performed with surgical guide; To assess the safety of
implantation performed with surgical guide; To assess dentist satisfaction with the surgical
guide (custom questionnaire) To assess volunteer satisfaction (OHIP, custom questionnaire)
;
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