摘要
目的:探索微种植体支抗结合多曲方丝弓非拔牙矫治骨性Ⅱ类错的临床疗效。方法:微种植体支抗结合多曲方丝弓对11例骨性Ⅱ类伴中度牙列拥挤患者采用非拔牙方法矫治,SPSS13.0统计软件对矫治前后的头影测量变化值进行两样本配对t检验。结果:矫治后Ⅱ类骨面型得到了不同程度的改善,ANB角平均减少2.14°,上颌磨牙平均远中后移4.16mm,下颌平面高度得到了较好控制。结论:微种植体支抗结合多曲方丝弓技术非拔牙矫治骨性Ⅱ类错牙合,可使上牙弓整体内收,上下颌骨关系得到改善,为建立正常稳定的前后牙咬合关系及协调、美观的正侧貌奠定了基础。
Objective Detected the corrective mechanics and clinic effects of nonextracted skeletal Class Ⅱ malocclusion in multiloop edgewise arch wire technique with microimplant anchorage. Methods 11 nonextracted skeletal Class Ⅱ malocclusion patient whose dentition were media crowdand were treated by combinning technique of straighe wire,multiloop edgewise arch wire with microimplant anchorage were recruited.Paired-Sample T test of cephalometric variables before and after treatment were done in Spss 13.0. Results Skeletal Class Ⅱ facial type had been improved after treatment.ANB diminished 2.14°in average,labial or lingual inclination of upper anterior teeth had tend to normal.Upper molar moved distally 4.16mm.Overbite and Overjet of anterior teeth was in the standard range. Relation of first molar was neutrol. Conclusion Multiloop edgewise arch wire technique with microimplant anchorage could obtain satisfied effect on the nonextracted correction of skeletal Class Ⅱ malocclusion,contribute to harmonious relation between bimaxilla, moving the whole upper dentition backward, limiting the exccessive labial and lingual inclination of upper anterior teeth, avoiding elongation of anterior crown for not using Class Ⅱ intermaxillary elastics during treatment, providing favourite occlusion of posterior teeth.This combining technique could improve the bimaxillary relation,lateral and positive facial, appearance,intercuspid occlusion,guide a new and successful nonextracted correction on skeletal Class Ⅱ malocclusion patient who should be treated with extracted or nonextracted treatment to us.
出处
《中国美容医学》
CAS
2013年第1期169-172,共4页
Chinese Journal of Aesthetic Medicine
基金
广西省卫生厅重点课题资助项目(编号:桂卫重2011123)
关键词
Ⅱ类骨性错[牙合]
非拔牙
微种植体支抗
多曲方丝弓技术
skeletal Class Ⅱ malocclusion
nonextract
microimplant anchorage
multiloop edgewise arch wire
