INTRODUCTION

The most common skeletal problem in orthodontics is the Class II malocclusion characterized by mandibular retrognathia.1–5 In addition, most subjects with this type of malocclusion exhibit narrow maxillary arches.4,6

The effects and stability of early Class II treatment with functional appliances has been surrounded by much controversy and uncertainty. It has been shown in histologic studies with laboratory animals that when the mandible is brought forward there is an increase in cellular activity at the condylar head as well as an increase in mandibular length.7–10 Numerous studies have shown condylar and glenoid fossa remodeling following the use of various types of functional appliances.11–37 Questions that still remain are: (1) Are these findings substantiated with clinical research in humans; (2) Is the growth of the mandible different with functional treatment than that of similar controls; and (3) Is this treatment stable over the long-term?

There are multiple factors that influence the stability of early Class II treatment including mandibular rotational growth patterns,38,39 airway obstructions,40,41 proper manipulation of appliances, treatment timing,11,12 and retention.13–15 There are few investigators who have studied the long-term stability with functional appliances, and most have reported favorable findings with prolonged retention.11,14–16

The present study was designed to assess the treatment outcome of tooth-borne functional appliances (Bionator, acrylic splint Herbst, Twin Block, and mandibular anterior repositioning appliance [MARA]) and their stability over time and after fixed appliance therapy, when compared to each other and to untreated controls with similar Class II malocclusions.

MATERIALS AND METHODS

Cephalometric Analysis

Lateral cephalograms were manually traced and digitized by one investigator (Dolphin Imaging Version 9.0, Chatsworth, Calif). The data were generated and the magnification was corrected for the control and treatment groups. To determine the accuracy of the measurements, intraclass correlations were calculated for the various cephalometric measurements and ranged from 85% to 97% (Figures 1 and 2).

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RESULTS

Comparison of Starting Forms

No statistically significant differences were found in the craniofacial configuration at T₁ between the treatment and control groups in most of the measurements studied. Of the 25 measurements, 5 showed statistically significant differences, Table 1a,b.

Table 1a Comparison of Initial Angular Measurements^a

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Table 1b Comparison of Initial Linear Measurements^a

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Comparison of Treatment Effects

Comparison of the different treatment groups with the controls depicted no statistically significant difference in most of the measurements associated with growth at all time points studied. It is interesting to note that when significant differences were observed, they were all confined to the T₂–T₁ treatment span. Most of these differences dissipated long term (Tables 2 through 4).

Table 2 Linear Differences Among Control and Treatment Groups Annualized^a

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Table 3 Angular Differences Among Control and Treatment Groups Annualized^a

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Table 4 Soft Tissue Differences Among Control and Treatment Groups Annualized^a

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The overbite, overjet, and the Wits values were the only measurements that demonstrated significant differences at the end of the observation period, (T₃–T₁).

When comparing the treatment groups among themselves, the Herbst appliance, followed by the MARA, demonstrated a significant effect on restricted maxillary growth and produced a steeper occlusal plane. The Twin Block was most effective in controlling the mandibular plane angle and had the greatest long-term effect on the labial version of the mandibular incisors (Tables 5a,b and 6).

Table 5a Significant Angular Differences Between Treatment Groups Annualized^a

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Table 5b Significant Angular Differences Between Treatment Groups Annualized^a

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Table 6 Significant Linear Differences Between Treatment Groups Annualized^a

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DISCUSSION

The Bionator group showed significant opening of the gonial angle (Ar-Go-Me) after functional treatment. This 2.0° per year increase in the gonial angle was greater than any of the untreated and treated samples and is most likely attributed to the growth direction of the condyle11 and remodeling of the posterior border of the ramus. The significant reduction in the overbite in the Bionator group is to be anticipated, as the mandible migrates forward along the lingual inclines of the maxillary incisors. The greatest amount of lingual crown tipping of the maxillary incisors was shown in this treatment group and could be attributed to pressure from the labial bow. This finding has been reported by other investigators.18,19

The Herbst group had a significant decrease of the Wits over time, possibly due to maxillary growth restriction and change in the occlusal plane. Pancherz et al21 and Berger et al22 reported similar findings with forward and downward movement of pogonion (0.8° per year) and opening of the mandibular plane angle. The decrease in overbite and overjet was consistently significant at the end of treatment and parallels the findings of the previous studies.21,22 Although the Herbst appliance is a tooth-borne appliance, there were no adverse effects on the dentition. This can be directly associated with the full acrylic coverage splint design of the appliance used in this study.

The Twin Block, Herbst, and MARA patients showed an increase in mandibular length of 1.5 mm per year, 1.2 mm per year, and 0.94 mm per year, respectively. Similar trends were noted by Baccetti et al,12 Wieslander et al,15 and Berger et al22 for these appliances. It has been suggested that the most effective timing for treatment with the Bionator,11 Twin Block,12 and Herbst23 appliances is during or slightly after the onset of the pubertal peak in growth velocity. The mean age of the patients in this study at the start of functional appliance treatment was 10 years 7 months for the Bionator group and 10 years 11 months for the Twin Block group. The Herbst and MARA groups began 1–2 years thereafter. This difference in chronologic age could not be explain the larger increments of growth experienced with the Twin Block, Herbst and MARA, since all of the patients were matched by their growth maturation status. The greatest change in mandibular length occurred during functional appliance treatment when compared with the controls. After this initial growth surge, only the MARA patients sustained a longer mandibular growth length of 1.0 mm per year when compared with the controls. This finding is in agreement with that reported by Livieratos and Johnston25 who suggested that functional appliances place a mortgage on mandibular growth. Control clinical trials26 also found no significant alteration of mandibular length long term with the utilization of functional appliances.

The maxillary length measurement was significantly larger when comparing the Herbst and MARA groups to the Twin Block sample at T₁. Therefore, it can be appreciated as to how much restriction of maxillary growth occurred during treatment with the Herbst appliance when compared with the Twin Block, MARA, and control groups. Temporary restriction in maxillary growth by the Herbst appliance is well documented in multiple investigations.15,22,27–29 and may be due to the posterior direction of the force generated by the pistons on the maxilla. In addition, the posterior direction of force caused the maxilla to rotate in a clockwise manner, as demonstrated in this study and by von Bremen and Pancherz.23 The Herbst group also demonstrated the most upper lip retrusion compared with any group after appliance wear, as previously reported by Pancherz and Anehus-Pancherz.30

The Twin Block group demonstrated stability of the skeletal changes as exhibited through the decrease in the Wits appraisal and the displacement of pogonion in a more anterior position. After appliance therapy, the ANB angle decreased (−0.6° per year), while the SNB angle increased (0.9° per year) when compared with the controls. These findings are consistent with multiple studies, which noted the favorable changes in ANB.31,32 Patel et al33 noted forward movement of B-point and pogonion while Baccetti et al12 found pogonion to move forward 2.5 mm per year with Twin Block therapy. The Twin Block group exhibited the best vertical control when compared with all treatment groups, especially taking into account that the mean SN-GoGn angle was initially greater in this group at the outset. The Twin Block also showed clockwise rotation of the occlusal plane after phase II therapy and the most flaring of the mandibular incisors at the end of treatment. These findings could be explained by the bite block effect of the appliance on the buccal segments and pressure of the lingual acrylic on the lower incisors. Possibly, this side effect could have been prevented using a labial bow to support the lower anteriors as designed by McNamara and Brudon.44 Mills and McCulloch13 reported similar findings. The Twin Block appliance also decreased the overbite and overjet significantly over the long term when compared with the controls, showing the stability of the treatment effect.

The MARA group illustrated a combination of skeletal and dentoalveolar changes that were stable over time. The flaring of the maxillary and mandibular incisors was only temporary after phase I therapy and was resolved at the end of edgewise treatment. The decrease in SNA could be due to the distal remodeling at A-point caused by the initial flaring of the upper incisors; therefore, it could not be solely attributed to restriction of maxillary growth. Co-Apt did not decrease over time. This finding contrasts with that of Pangrazio-Kulbersh et al34 who reported significant restriction of maxillary growth with MARA treatment. Remodeling at A-point, resulting in a decrease in SNA, has been reported by Mills and McCulloch13 and Illing et al.32 The changes in Co-Apt did not correlate with the decrease in SNA. Posterior condylar growth expressed during MARA treatment could have influenced the total maxillary length masking the true effect of the appliance on maxillary growth. The decrease in SNB is most likely due to the increase in the vertical dimension, which was significant when compared with the controls. This vertical increase is most likely related to growth and changes in the occlusal plane.

Overall, there were no significant soft tissue changes in any of the groups studied. This contrasts the findings of Berger et al22 who reported significant improvement of the facial contour after functional appliance treatment. The difference in findings is most likely attributed to tracing error. The soft tissue of the control sample was not always clear due to the aged cephalograms. Pancherz and Anehus-Pancherz30 reported that the profile changes exhibited by patients who were treated with Herbst therapy were variable and unpredictable.

CONCLUSIONS

• No significant long-term dento-skeletal differences were observed between the various treatment groups and matched controls.

• When comparing the treatment groups among themselves, the Herbst and MARA appliances significantly restricted maxillary growth and produced a steeper occlusal plane.

• The Twin Block was most effective in controlling the mandibular plane angle and had the greatest effect long term on labial version of the mandibular incisors.