The primary objective of aesthetic dental treatment is to generate a natural, healthy appearance for an otherwise damaged dentition. The word “aesthetic” implies beauty, naturalness and a youthful appearance relative to one’s age, and aesthetic dentistry has been called the “art of the imperceptible” by McLaren and Rifkin. A pleasing dental appearance is the subjective appreciation of the shade, shape and arrangement of the teeth and their relationship to the gingiva, lips and facial features. Symmetry, the property of being symmetrical, with a correspondence in size, shape and relative position of parts on opposite sides of a dividing line or median plane or about a center or axis, plays a large part in the perception of dental aesthetics (Fig. 1). In a study by Dunn, when evaluating photographs of male and female smiles, 24 out of the 25 demographic groups picked the same attractive female smile, which was characterized by natural teeth having a light shade, a high lip line, a large display of teeth and radiating symmetry. Multiple studies show that society places a great amount of importance on appearance, with attractive people having more success, higher paying and more prestigious jobs, better luck in obtaining dates, more favorable jury verdicts and more positive responses, even from infants. The ability of the dentist to communicate the location and orientation of the patient’s facial landmarks to the dental technician will dictate the success of the esthetic outcome.
Figure 1: The facial midline, interpupillary line and incisal line should be in symmetrical harmony (note minor nasal asymmetry).
This article will look at the aesthetic parameters of dental midline position, incisal cant and incisal horizontal plane, and provide a simple methodology to relate these parameters to the dental technician when multiple anterior restorations are prepared. Of course, details of the smile arc, the curve formed by the incisal edges of the maxillary anterior teeth in relationship to the lower lip, need to be communicated to the laboratory technician. The maxillary incisal curve and the lower lip curve should be roughly parallel to one another and perpendicular to the vertical midline drawn between the maxillary central incisors (Fig. 2). For complicated cases, itis critical to give an accurate relationship of the casts in a sagittalor lateral axis when designing the curvature and angle of the smile line (bicuspids to molars), as the potential form is alignment of the casts increases with the number of restorations involved.
Figure 2: The smile arc shows the anteriors in harmony with the curvature of the lower lip.
Figure 3: The facial and dental midline should coincide for optimum esthetics.
Figure 4: This patient’s midlines do not coincide, thus the mandibular midline cannot be used as a reference point for the final restorations.
Figure 5: The patient in Figure 4 with temporaries in place.
Figure 6: The dental technician cannot use the mandibular midline to decide where to place the maxillary midline when multiple teeth are prepared.
The Dental Midline
Figure 7: A midline cant is consistently rated as unaesthetic.
Midline Cant or Oblique Midline
If the clinician is to transfer these important parameters of the maxillary dental midline, the lack of midline cant, and the incisal horizontal plane to the dental technician, which should all be referenced to the facial midline and interpupillary line, how is this reliably accomplished? In the past, classic stick bites, cotton swabs, pencils, plastic stir sticks and symmetry bites have been used to capture these dimensional relationships. 10 The limitations of these systems are many. All have limitations due to the short working time of many bite registration materials, so the clinician is forced to work quickly to center and place these before the material sets. If the stick bite or symmetry bite is slightly off, the whole process needs to be repeated. With fixed symmetry bites, the vertical and horizontal are fixed at 90 degrees to each other, assuming the horizontal incisal plane matches exactly to the interpupillary line and no correction is indicated or anticipated. A stick bite to the horizontal assumes the patient can keep his or her head perfectly still and upright. A simple solution to the transfer of the required data to the dental technician is the Onebite™ (Precision Dental Products; Draper, Utah) facial plane relator. There are a number of distinct advantages to the Onebite over other available systems. The bite fork portion is separate from the adjustable horizontal and vertical components, so that if the bite fork is placed slightly off center when placed into the bite material, the ability to move the components laterally eliminates the need for repeating the procedure. Figure 11–13 show the placement of the bite registration material Affinity™ Quick Bite (Clinician’s Choice; New Milford, Conn.) onto the anterior teeth, onto the bite fork and the intraoral placement of the bite fork. After the vertical and horizontal components were placed firmly into the bite fork slot, it can be seen (Fig. 14) that the bite fork was placed slightly off laterally to the patients left side. The bite fork placement does not have to be redone; Figure 15 shows the horizontal adjustment is easy to accomplish by loosening the screw, sliding the component laterally until centered to the patient facial midline and then securely tightening the locking screw. Another benefit of Onebite is that the vertical and horizontal component can be left in a locked 90-degree relationship to each other if the patient demonstrates symmetry of the midline, horizontal and interpupillary line, or the components can be unlocked by rotating the horizontal bar so the locking pins are facing the clinician, if there is a discrepancy with the interpupillary line. Figure 16 shows the patient’s right side horizontal portion of the Onebite is slightly lower than the interpupillary line. This can easily be adjusted by unlocking the components, rotating the horizontal bar until it is in harmony with the interpupillary line, securely tightening the locking screw and then fixing the components together by injecting temporary C&B material into the lateral slot and screw. For illustrative purposes, the rotation has been exaggerated in Figure 17 to show the wide range of adjustments that are easily managed by the Onebite. The components are then taken apart by placing lateral force on the locking screw, which facilitates transport to the laboratory. Another advantage of the Onebite is that in the laboratory, the vertical component can be reduced in length at the plastic cross supports to fit easily onto a semi-adjustable articulator.
Figure 11: Quick Bite is injected onto the anterior teeth
Figure 12: Quick Bite is injected onto the bite fork of the Onebite, and the bite fork is centered on the face when the patient closes.
Figure 14: When the components are mated, it can be seen that the bite fork is off center.
Figure 15: By loosening the screw and sliding the components to the patient’s right, the vertical bar now corresponds to the patient’s facial midline.
Figure 16: The horizontal bar does not line up with the interpupillary line and can be adjusted parallel to it by unlocking the bars, aligning the horizontal and tightening the locking screw.
Figure 17: For illustrative purposes, the angulation of the horizontal bar has been exaggerated and fixation is achieved with Temptation acrylic temporary material (Clinician’s Choice).
The rationale for the need of accurate communication by the dental clinician to the laboratory technician of the dental midline, incisal midline cant and incisal horizontal plane have been discussed. A simple technique that facilitates this communication has been presented and should minimize the need for expensive remakes for esthetically driven restorations.
A study by Chan quantifying a layperson’s ideal and maximum deviation of the midline found the smile became unattractive when the maxillary midline deviated 2.9 mm, or once the maxillary-mandibular midlines deviated 2.1 mm.
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Dr. Len Boksman is adjunct clinical professor at the Schulich School of Medicine and Dentistry and maintains a private practice in London, Ontario, Canada. He is also a paid part-time consultant to Clinical Research Dental Inc. and Clinician’s Choice. Contact him at email@example.com or 519-641-3066, ext. 292.
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