Retrospective 25-year follow-up of treatment outcomes in angle Class III patients

Objectives To assess early versus late treatment of Class III syndrome for skeletal and dental differences. Methods Thirty-eight Class III patients treated with a chincup were retrospectively analyzed. Baseline data were obtained by reviewing pretreatment (T0) anamnestic records, cephalograms, and casts. The cases were assigned to an early or a late treatment group based on age at T0 (up to 9 years or older than 9 years but before the pubertal growth spurt). Both groups were further compared based on posttreatment data (T1) and long-term follow-up data collected approximately 25 years after treatment (T2). Results Early treatment was successful in 74% and late treatment in 67% of cases. More failures were noted among male patients. The late treatment group was characterized post therapeutically by significantly more pronounced skeletal parameters of jaw size relative to normal Class I values; in addition, a greater skeletal discrepancy between maxilla and mandible, higher values for mandibular length, Cond-Pog, ramus height, overjet, anterior posterior dysplasia indicator (APDI), lower anterior face height, and gonial angle were measured at T1. The angle between the AB line and mandibular plane was found to be larger at T0, T1, and T2, as well as more pronounced camouflage positions of the lower anterior teeth at T0. The early treatment group was found to exhibit greater amounts of negative overjet at T0 but more effective correction at T1. Conclusions Early treatment of Class III syndrome resulted in greater skeletal changes with less dental compensation.


Introduction
Already in early childhood, the growth of the skull reaches a very advanced stage that will only be followed by limited additional growth changes of certain structures in later years [20][21][22]. Therefore, to optimize skeletal outcome, it appears useful to perform treatment of Angle class III early during the primary or early mixed dentition stage. Several studies [5,12] have described greater skeletal and dental changes toward Class I by early orthodontic treatment than by later treatment, with early treatment resulting in gonial angle values similar to that found in Class I individuals while, in cases of late treatment, the skeletal disharmony was successfully corrected by camouflage [12]. Some amount of compensation for the differential growth of the maxilla and mandible occurs by the growth taking place at the spheno-occipital synchondrosis of the posterior cranial base. This growth-and the angle between the anterior and posterior cranial base-is capable of influencing the development of Class III [13,14].
Several authors recommended that chincup treatment of Class III cases should already be performed in the primary or early mixed dentition stage [5,8,16,19,25]. Wendell et al. [26] suggested an age of 5-13 years for treatment. According to Mitani and Fukazawa [13] and Mitani and Sakamoto [14], a chincup influences mandibular growth and morphology despite the underlying genetic control; the original pattern will subsequently return, but its extent will depend on the amount of residual growth and on the change already achieved by treatment. We designed this retrospective study of Class III patients to assess dental and skeletal differences between patient being treated early or late and the treatmentrelated changes of these parameters over time.

Materials and methods
Pre-and posttreatment anamnestic records, cephalograms, and casts were analyzed for this study, which comprised 38 female and male Class III patients who had received chincup therapy and were followed up after approximately 25 years. Only patients for whom complete pretreatment (T0), posttreatment (T1), and follow-up (T2) documentation was available and who had presented skeletal and dental Class III syndrome at T0 (negative overjet, Wits appraisal \-1 mm, negative ANB difference, Class III malocclusion) were included. Cleft disease or any other syndromes led to exclusion. The patients were required to wear the chincup at 600 g per side for 24 h/day whenever possible and, once a positive overjet was achieved, overnight. We assigned the patients to early or late treatment group based on their age at T0 (B9 years or [9 years but before the pubertal growth spurt). Table 1 lists the 36 linear and angular parameters evaluated on each patient's T0, T1, and T2 cephalograms for analysis and comparison. Traditional radiographs were used for the T0 and T1 tracings, as digital systems had not been available at that time. The tracings were performed independently by two experienced examiners on transparent tracing paper (item 17-222-11; Dentsply, York, PA, USA). For the T2 follow-up examinations, we used a digital 2D imaging system (ProMax 2D S2; Planmeca, Helsinki, Finland) with a magnification factor of 8%. The intraclass correlation coefficient (ICC) for errors of measurement, tracing and assignment committed by the two examiners was 0.986, thus, indicating high agreement.
All cephalograms were taken in a standardized fashion, with the help of a cephalostat, and were analyzed in accordance with the principle of Björk, Jarabak, Ricketts, Coben, and McNamara. Additional dental parameters were measured on the casts. Control data of untreated Class III or normal Class I patients were only needed to statistically calculate possible deviations from normal, considering that the study was mainly designed to compare two groups at different times. We therefore relied on normal values from the literature [3,6,17], deriving mean values for the relevant age groups. Criteria for treatment success were positive overjet and overbite (C1 mm) and no transverse crossbite. IBM SPSS Statistics Version 22'' (2013) was used for descriptive and explorative statistical analysis of data. Differences were considered significant at p B 0.05. We applied a t test for independent samples and one-way analysis of variance (ANOVA) to compare mean values and we calculated the ICC for each parameter to determine the tracing precision of the examiners.

Results
The relationship between the time of treatment and treatment success is shown in Table 2. Outcomes were successful in 74% of cases in the early versus 67% in the late treatment group. Clearly more failures were seen among male patients (80%). However, the early treatment group accounted for Tab. 4 Significant results (mean values ± SD) broken down by early versus late class III treatment and examination times, including pretreatment (T0), posttreatment (T1), and 25-year follow-up (T2) examinations. The p values on the right indicate statistically significant differences between early and late treatment based on a linear model with repeated measurements for between-subject (age) and within-subject (age 9 time) effects  Table 3. The late treatment group, due to these patient's more advanced age, showed greater lengths of the maxillary and cranial base already at T0. Also, this group showed higher values for mandibular length, Cond-Pog, ramus height, and lower face height at T0 and T1, larger APDI and gonial angles at T1, smaller angles from AB to mandibular plane at T0, T1, T2, less negative overjet at T0, less positive overjet at T1, and retrusive lower-incisor inclinations at T0 indicating dental compensation. The intergroup differences based on a linear model with repeated measurements, which yields fewer significant differences by looking at the observation period T0, T1, and T2 in its entirety, are summarized in Table 4. Based on the between-subject effect (age), very similar increases over time are seen in the table, but the distances between both ascending curves were significantly different (Fig. 1). Based on the within-subject effect (age 9 time), significantly different increases in Cond-A und S-N were seen between the two patient groups over time (Fig. 2). Table 5 lists the 95% confidence intervals (CI) and Table 6 the differences in mean values between T0, T1, and T2. The patients in the early treatment group showed more growth overall due to their younger age. These changes included more pronounced mandibular growth from T1 to T2, although with the absolute values being clearly lower than in the late treatment group. Similar growth developments were also noted for the maxilla and cranial base. No significant intergroup difference was, however, seen based on the absolute values at T2. Table 7 lists only those parameters for which significant differences were obtained between the late versus the early class III treatment groups relative to normal Class I values [6]. The late treatment group, at T1, showed higher values of the skeletal jaw parameters, greater skeletal discrepancies between the maxilla and mandible, higher APDI values by 7.8°, overall, some significantly increased vertical parameters (face-height relationship, gonial angle, upper gonial angle, angle from SN to mandibular plane) and steeper lower-incisor inclination by 9°relative to the Class I normal value at T0. Table 8 compares the 95% CI in both groups to the mean values of untreated Class III patients [3,17]. The late and the early class III treatment groups showed more regular jaw relationships (ANB) than those untreated patients at T1 and T2. The early treatment group showed clearly lower values for Wits appraisal and (unlike the late treatment group) mandibular length-as well as compensation by the lower incisors-at T1 and T2. The less late and the early class III treatment group showed   smaller amounts of lower face height, notably compared to the males among the untreated Class III patients. In both groups, the jaw-base angle was decreased at T2.

Discussion
Mitani and Fukazawa [13] and Mitani and Sakamoto [14] found that different individuals respond differently to chincup therapy. Uner et al. [24] noticed successful outcomes of chincup treatment, in which overbite and overjet remained unchanged, but with the abnormal growth patterns tending to return to the original position once treatment had been discontinued. Other authors [1], too, were unable to find any statistically significant differences in skeletal and soft-tissue parameters between control and treatment groups except for overjet and overbite at the end of therapy.
Our study revealed distinct treatment effects between the early and late treated Class III groups versus Class I patients and differences between early and late treatment in Class III patients, which we found to persist even approximately 25 years after treatment. Yoshida et al. [28] reported that, compared to Class III patients with a Tab. 7 Parameters showing significant differences between the early versus late treated Class III group compared to age-matched normal Class I individuals [6]. Results  horizontal growth pattern, those with a vertical pattern showed higher pretreatment values for upper and lower face height, total anterior face height, occlusal plane, and gonial angle. After maxillary protraction and chincup treatment, both groups showed increases in SNA, ANB, and upper-jaw size, although with greater ventral displacement in the group with horizontal growth, while no difference existed in mandibular size. We also noted marked upper-jaw growth in both patient groups but, due to the limited number of cases, did not distinguish between growth types at T0. Sugawara et al. [20] observed in their early treatment group (aged 7 years at T0) a catch-up displacement of the mandible in a forward and downward direction. Ultimately there was no difference between the skeletal profiles in the early and late treatment group. This finding is not confirmed by our study, which demonstrates significant differences between early and late treatment at both T1 and T2. Chincup caused the gonial angle to decrease, improved the SNB and ANB angles, and reduced the lower face height [18]. We also observed these changes, including some significant intergroup differences. The early treatment group showed greater reductions in gonial angle (3.5°) at T2. Reductions in gonial angle were also reported in other studies comparing patients who underwent early or late treatment [4,9,10,11,19,25,26].
Many studies have reported reductions in SNB angle after chincup therapy [5,23,24]. We also made this observation but did not find a statistically significant difference in this regard between early and late treatment. SNB increased or decreased by 1°in our late or early treatment group, respectively, and SNA improved by around 1°in the long-term comparison in the early treatment group. The values for mandibular length and ramus height were distinctly higher in the late treatment group. The influence on ramus height, with a difference of approximately 6 mm, seems to be important in this context, since a horizontal growth direction has a negative effect on the prognosis of Class III. The values for lower anterior face height were higher by 4.7 mm in the late compared to the early treatment group. This difference was also found in previous studies [2,24].
We observed dental compensation mainly of the lower incisors, whose inclination was 83.7°in the late and 91.2°i n the early treatment group. This is consistent with previous studies, which also indicated more dental compensation in late treatment groups [2,24]. The values we measured for APDI, which is a good marker for Class III development, were clearly (by 7.8°) higher in the late treatment group. APDI, maxillomandibular differential, and ramus height are known to be good prognostic parameters for failure [27] and were clearly more pronounced in the late treatment group. Mandibular length, a parameter not readily influenced by treatment, showed higher values in the late treatment group at all three times (T0, T1, and T2).
Especially important about our study is its extremely long follow-up, with T2 following up treatment by approximately 25 years. The data emerging for our sample of Class III patients from this long-term observation can be used as a reference for further studies. However, our data should be interpreted with due consideration given to our limited number of cases, our use of literature-based data for untreated patients, and our retrospective study design [15].
Treatment with a facemask can likewise achieve favorable changes in maxillary and mandibular shape and size-parameters that again were more pronounced in cases of early treatment, which also revealed favorable growth changes in both jaws whereas late treatment influenced mandibular growth only [7,8]. While Yüksel et al. [29] reported contrary observations of no significant differences between early and late treatment with a facemask, they did achieve improvements in overjet, SNB angle, maxillomandibular differential, Con-A, and Wits appraisal compared to a control group.

Conclusions
Early initiation is an important prerequisite for successful outcome in the treatment of Class III syndrome. Compared to the outcome of late treatment, those of early treatment are characterized by significant skeletal changes, most importantly in terms of mandibular length, ramus height, and growth direction (gonial angle). Early treatment results in a better jaw relationship and less dental compensation.