Paddenberg-Schubert Eva, Midlej Kareem, Krohn Sebastian, Lone Iqbal M, Zohud Osayd, Awadi Obaida, Masarwa Samir, Nashef Aysar, Kirschneck Christian, Watted Nezar, Proff Peter, Iraqi Fuad A
Department of Orthodontics, University Hospital of Regensburg, University of Regensburg, Regensburg 93047, Germany.
Department of Clinical Microbiology and Immunology, Faculty of Medicine and Health Sciences, Tel Aviv University, Tel Aviv 6997801, Israel.
Int J Dent. 2025 Aug 21;2025:9665260. doi: 10.1155/ijod/9665260. eCollection 2025.
The correct classification of orthodontic patients is essential in individualized diagnostics and treatment planning. However, due to the complexity of the craniofacial skeleton and differences related to gender, age, and ethnicity, cephalometric analysis can be prone to errors. This multicenter, cross-sectional study aimed to compare cephalometric measurements between skeletal class I and II in German orthodontic patients and analyze the effect of gender/age subgroups. In total, 556 German orthodontic patients were included and stratified into skeletal class I ( = 210) and II ( = 346), based on the individualized ANB of Panagiotidis and Witt (Calculated_ANB). Both classes presented a mean age of 13 with a range of 6.6-41 years and 5.4-53 years in classes I and II, respectively. Regarding the gender variations, most participants were females, = 194 (56%) among class I, and = 125 (60%) among class II. Cephalometric parameters were compared between classes and among age and gender-specific subgroups, followed by identifying correlations and performing principal component analysis (PCA). Class II patients presented a more considerable sagittal discrepancy between jaw bases than class I cases (Calculated_ANB 2.8° vs. 0.025°), a more horizontal growth pattern (Gonion angle 119° vs. 123°), and compensated inclinations of the incisors in the upper (+ 1/NL 71° vs. 68°) and lower jaw (-1/ML 84° vs. 80°). Correlations were found between sagittal, vertical, and dental cephalometric parameters, which were strongest in adult class II males. Finally, ML-NSL angle, SNPg angle, PFH/AFH ratio, and SNB angle are related to the variations of the first four components. The differences in cephalometric parameters between skeletal class I and II demonstrate certain configurations in vertical, sagittal, and dental parameters, and identifying these marks precisely will enable accurate diagnosis. In addition, the variations concerning gender and age highlight the possible influence of these factors on orthodontic diagnostics and treatment planning. Future studies with equal sample sizes among subgroups must validate these findings. Finally, the PCA results highlighted that the mandible's vertical and sagittal position has a strong influence on the diagnosis of skeletal class I/II, which highlights the importance of identifying the corresponding reference marks.
在个性化诊断和治疗计划中,对正畸患者进行正确分类至关重要。然而,由于颅面骨骼的复杂性以及与性别、年龄和种族相关的差异,头影测量分析可能容易出错。这项多中心横断面研究旨在比较德国正畸患者中骨骼I类和II类之间的头影测量值,并分析性别/年龄亚组的影响。总共纳入了556名德国正畸患者,并根据Panagiotidis和Witt的个体化ANB(计算ANB)分为骨骼I类(n = 210)和II类(n = 346)。两类患者的平均年龄均为13岁,I类患者年龄范围为6.6 - 41岁,II类患者年龄范围为5.4 - 53岁。关于性别差异,大多数参与者为女性,I类中有194名(56%),II类中有125名(60%)。对头影测量参数在两类之间以及年龄和性别特定亚组之间进行了比较,随后确定相关性并进行主成分分析(PCA)。II类患者的颌骨基底矢状差异比I类患者更大(计算ANB为2.8°对0.025°),生长模式更水平(下颌角为119°对123°),上切牙(+1/NL为71°对68°)和下切牙(-1/ML为84°对80°)有代偿性倾斜。在矢状、垂直和牙齿头影测量参数之间发现了相关性,在成年II类男性中最强。最后,ML - NSL角、SNPg角、PFH/AFH比值和SNB角与前四个成分的变化有关。骨骼I类和II类之间头影测量参数的差异表明在垂直、矢状和牙齿参数方面存在某些特征,精确识别这些特征将有助于准确诊断。此外,性别和年龄的差异突出了这些因素对正畸诊断和治疗计划可能产生的影响。未来在各亚组中样本量相等的研究必须验证这些发现。最后,PCA结果突出表明下颌骨的垂直和矢状位置对骨骼I/II类的诊断有很大影响,这突出了识别相应参考标志的重要性。
