基于锥形束计算机断层扫描评估交替快速扩弓与缩弓对上颌前牵引时上颌三维变化的影响

[Evaluation of maxillary three-dimensional changes in maxillary protraction with alternating rapid palatal expansion and constriction based on the cone-beam computed tomography].

作者信息

Wang Y R, Zhou Y H, Wang X D, Wei S, Liu W T

机构信息

Department of Orthodontics, Peking University School and Hospital of Stomatology & National Clinical Research Center for Oral Diseases & National Engineering Laboratory for Digital and Material Technology of Stomatology & Beijing Key Laboratory of Digital Stomatology, Beijing 100081, China; Department of Pediatrics, Stomatological Hospital of Shandong University, Jinan 250012, China.

出版信息

Beijing Da Xue Xue Bao Yi Xue Ban. 2018 Aug 18;50(4):685-692.

PMID:30122772

Abstract

OBJECTIVE

To use the cone-beam computed tomography (CBCT) to evaluate the three-dimensional (3D) changes of maxillary landmarks in the maxillary protraction with alternating rapid palatal expansion and constriction and with rapid palatal expansion, and to provide some clinical suggestions for the early treatment of Class III malocclusion.

METHODS

A total of 36 maxillary retrusive patients were included and randomized in a 1:1 ratio to either the intervention group (alternating rapid palatal expansion and constriction group, RPE/C) or the control group (rapid palatal expansion group, RPE). Randomization was accomplished with permuted block randomization based on participation sequence. The patients in the RPE/C were treated for 10 weeks (0.5 mm/d) with the repetition of two-week palatal expansion and two-week palatal constriction. The patients in the RPE were taught to complete rapid palatal expansion for 2 weeks (0.5 mm/d ). The patients were instructed to come to the office for the follow-up to ensure the correct procedures. Damaged expanders were repaired (or replaced) and rebanded quickly. Sequential CBCT images including pretreatment (T1), post-expansion (T2) and post-protraction (T3) were required for 3D reconstruction, establishment of landmarks, measurement and analysis by Mimics 10.01.

RESULTS

There was significant forward movement of subspinale (A) in the RPE/C after the treatment with (3.06±1.29) mm, compared with RPE (2.16±1.27) mm, P<0.05. There were more symmetrical changes of the landmarks in the RPE/C and there was no statistic significance of the entire treatment time between the two groups. Moreover, the maxillary skeletal landmarks had the following 3D changes of a forward and downward movement during the expansion stages T2-T1, a forward and upward movement during the protraction stages T3-T2 and a forward and downward movement during the total treatments T3-T1 compared with the control group. And the width between the bilateral landmarks increased during the expansion stages T2-T1, narrowed down during the protraction stages T3-T2 and increased during the total treatments T3-T1.

CONCLUSION

The maxillary protraction with alternating rapid palatal expansion and constriction provided clinical benefits on maxillary advancement and symmetrical changes in the orthopedic treatment of the patients with maxillary retrognathism and it required further study on the orthodontic analysis and measurements of CBCT.

摘要

目的

运用锥形束计算机断层扫描（CBCT）评估上颌前牵引联合快速扩弓与缩弓以及单纯快速扩弓治疗过程中上颌标志点的三维（3D）变化，为Ⅲ类错牙合畸形的早期治疗提供临床建议。

方法

共纳入36例上颌后缩患者，按1:1比例随机分为干预组（快速扩弓与缩弓交替组，RPE/C）和对照组（快速扩弓组，RPE）。随机分组采用基于参与顺序的排列分组随机化方法。RPE/C组患者接受为期10周（0.5 mm/d）的治疗，每两周重复一次扩弓和缩弓。RPE组患者接受为期2周（0.5 mm/d）的快速扩弓治疗。指导患者到办公室进行随访以确保操作程序正确。对损坏的扩弓器进行快速修复（或更换）并重新固定。需要连续的CBCT图像，包括治疗前（T1）、扩弓后（T2）和前牵引后（T3），用于通过Mimics 10.01进行三维重建、标志点确立、测量和分析。

结果

治疗后，RPE/C组的前鼻棘点（A点）向前移动明显，移动距离为（3.06±1.29）mm，而RPE组为（2.16±1.27）mm，P<0.05。RPE/C组标志点的变化更对称，两组的整个治疗时间无统计学差异。此外，与对照组相比，上颌骨骼标志点在扩弓阶段T2 - T1有向前下方移动、前牵引阶段T3 - T2有向前上方移动、整个治疗阶段T3 - T1有向前下方移动的三维变化。并且双侧标志点之间的宽度在扩弓阶段T2 - T1增加，在前牵引阶段T3 - T2变窄，在整个治疗阶段T3 - T1增加。