正畸治疗后牙反合。
Orthodontic treatment for posterior crossbites.
机构信息
Department of Surgical and Diagnostic Sciences, University of Genoa, Genoa, Italy.
Orthodontic Department, Liverpool University Dental Hospital, Liverpool, UK.
出版信息
Cochrane Database Syst Rev. 2021 Dec 24;12(12):CD000979. doi: 10.1002/14651858.CD000979.pub3.
BACKGROUND
A posterior crossbite occurs when the top back teeth bite inside the bottom back teeth. The prevalence of posterior crossbite is around 4% and 17% of children and adolescents in Europe and America, respectively. Several treatments have been recommended to correct this problem, which is related to such dental issues as tooth attrition, abnormal development of the jaws, joint problems, and imbalanced facial appearance. Treatments involve expanding the upper jaw with an orthodontic appliance, which can be fixed (e.g. quad-helix) or removable (e.g. expansion plate). This is the third update of a Cochrane review first published in 2001.
OBJECTIVES
To assess the effects of different orthodontic treatments for posterior crossbites.
SEARCH METHODS
Cochrane Oral Health's Information Specialist searched four bibliographic databases up to 8 April 2021 and used additional search methods to identify published, unpublished and ongoing studies.
SELECTION CRITERIA
Randomised controlled trials (RCTs) of orthodontic treatment for posterior crossbites in children and adults.
DATA COLLECTION AND ANALYSIS
Two review authors, independently and in duplicate, screened the results of the electronic searches, extracted data, and assessed the risk of bias of the included studies. A third review author participated to resolve disagreements. We used risk ratios (RR) and 95% confidence intervals (CIs) to summarise dichotomous data (event), unless there were zero values in trial arms, in which case we used odds ratios (ORs). We used mean differences (MD) with 95% CIs to summarise continuous data. We performed meta-analyses using fixed-effect models. We used the GRADE approach to assess the certainty of the evidence for the main outcomes.
MAIN RESULTS
We included 31 studies that randomised approximately 1410 participants. Eight studies were at low risk of bias, 15 were at high risk of bias, and eight were unclear. Intervention versus observation For children (age 7 to 11 years), quad-helix was beneficial for posterior crossbite correction compared to observation (OR 50.59, 95% CI 26.77 to 95.60; 3 studies, 149 participants; high-certainty evidence) and resulted in higher final inter-molar distances (MD 4.71 mm, 95% CI 4.31 to 5.10; 3 studies, 146 participants; moderate-certainty evidence). For children, expansion plates were also beneficial for posterior crossbite correction compared to observation (OR 25.26, 95% CI 13.08 to 48.77; 3 studies, 148 participants; high-certainty evidence) and resulted in higher final inter-molar distances (MD 3.30 mm, 95% CI 2.88 to 3.73; 3 studies, 145 participants, 3 studies; moderate-certainty evidence). In addition, expansion plates resulted in higher inter-canine distances (MD 2.59 mm, 95% CI 2.18 to 3.01; 3 studies, 145 participants; moderate-certainty evidence). The use of Hyrax is probably effective for correcting posterior crossbite compared to observation (OR 48.02, 95% CI 21.58 to 106.87; 93 participants, 3 studies; moderate-certainty evidence). Two of the studies focused on adolescents (age 12 to 16 years) and found that Hyrax increased the inter-molar distance compared with observation (MD 5.80, 95% CI 5.15 to 6.45; 2 studies, 72 participants; moderate-certainty evidence). Intervention A versus intervention B When comparing quad-helix with expansion plates in children, quad-helix was more effective for posterior crossbite correction (RR 1.29, 95% CI 1.13 to 1.46; 3 studies, 151 participants; moderate-certainty evidence), final inter-molar distance (MD 1.48 mm, 95% CI 0.91 mm to 2.04 mm; 3 studies, 151 participants; high-certainty evidence), inter-canine distance (0.59 mm higher (95% CI 0.09 mm to 1.08 mm; 3 studies, 151 participants; low-certainty evidence) and length of treatment (MD -3.15 months, 95% CI -4.04 to -2.25; 3 studies, 148 participants; moderate-certainty evidence). There was no evidence of a difference between Hyrax and Haas for posterior crossbite correction (RR 1.05, 95% CI 0.94 to 1.18; 3 studies, 83 participants; moderate-certainty evidence) or inter-molar distance (MD -0.15 mm, 95% CI -0.86 mm to 0.56 mm; 2 studies of adolescents, 46 participants; moderate-certainty evidence). There was no evidence of a difference between Hyrax and tooth-bone-borne expansion for crossbite correction (RR 1.02, 95% CI 0.92 to 1.12; I² = 0%; 3 studies, 120 participants; low-certainty evidence) or inter-molar distance (MD -0.66 mm, 95% CI -1.36 mm to 0.04 mm; I² = 0%; 2 studies, 65 participants; low-certainty evidence). There was no evidence of a difference between Hyrax with bone-borne expansion for posterior crossbite correction (RR 1.00, 95% CI 0.94 to 1.07; I² = 0%; 2 studies of adolescents, 81 participants; low-certainty evidence) or inter-molar distance (MD -0.14 mm, 95% CI -0.85 mm to 0.57 mm; I² = 0%; 2 studies, 81 participants; low-certainty evidence). AUTHORS' CONCLUSIONS: For children in the early mixed dentition stage (age 7 to 11 years old), quad-helix and expansion plates are more beneficial than no treatment for correcting posterior crossbites. Expansion plates also increase the inter-canine distance. Quad-helix is more effective than expansion plates for correcting posterior crossbite and increasing inter-molar distance. Treatment duration is shorter with quad-helix than expansion plates. For adolescents in permanent dentition (age 12 to 16 years old), Hyrax and Haas are similar for posterior crossbite correction and increasing the inter-molar distance. The remaining evidence was insufficient to draw any robust conclusions for the efficacy of posterior crossbite correction.
背景
后牙反颌是指上颌后牙咬在下颌后牙的里面。后牙反颌的患病率约为 4%和 17%,分别在欧洲和美洲的儿童和青少年中。已经推荐了几种治疗方法来纠正这个问题,这些方法与牙齿磨损、颌骨发育异常、关节问题和面部不平衡等有关。治疗方法包括用正畸矫治器扩展上颌,正畸矫治器可以是固定的(例如四叉簧)或可摘的(例如扩张板)。这是 2001 年首次发表的 Cochrane 综述的第三次更新。
目的
评估不同的正畸治疗后牙反颌的效果。
检索策略
Cochrane 口腔卫生信息专家对四个数据库进行了检索,截至 2021 年 4 月 8 日,并使用了额外的检索方法来确定已发表、未发表和正在进行的研究。
入选标准
针对儿童和成人后牙反颌的正畸治疗的随机对照试验(RCT)。
数据收集和分析
两位综述作者独立并重复筛选电子检索的结果,提取数据,并评估纳入研究的偏倚风险。第三位综述作者参与解决分歧。我们使用风险比(RR)和 95%置信区间(CI)来总结二分类数据(事件),除非试验臂中存在零值,在这种情况下,我们使用优势比(OR)。我们使用均数差值(MD)和 95%CI 来总结连续数据。我们使用固定效应模型进行荟萃分析。我们使用 GRADE 方法评估主要结局的证据确定性。
主要结果
我们纳入了 31 项研究,共纳入了约 1410 名参与者。其中 8 项研究的偏倚风险较低,15 项研究的偏倚风险较高,8 项研究的偏倚风险不明确。
干预与观察
对于儿童(7 至 11 岁),四叉簧在治疗后牙反颌方面优于观察(OR 50.59,95%CI 26.77 至 95.60;3 项研究,149 名参与者;高确定性证据),并导致最终的磨牙间距离增加(MD 4.71mm,95%CI 4.31 至 5.10;3 项研究,146 名参与者;中确定性证据)。对于儿童,扩张板在治疗后牙反颌方面也优于观察(OR 25.26,95%CI 13.08 至 48.77;3 项研究,148 名参与者;高确定性证据),并导致最终的磨牙间距离增加(MD 3.30mm,95%CI 2.88 至 3.73;3 项研究,145 名参与者,3 项研究;中确定性证据)。此外,扩张板还导致犬齿间距离增加(MD 2.59mm,95%CI 2.18 至 3.01;3 项研究,145 名参与者;中确定性证据)。Hyrax 用于治疗后牙反颌可能有效,与观察相比(OR 48.02,95%CI 21.58 至 106.87;93 名参与者,3 项研究;中确定性证据)。其中两项研究集中在青少年(12 至 16 岁),发现 Hyrax 与观察相比增加了磨牙间距离(MD 5.80,95%CI 5.15 至 6.45;2 项研究,72 名参与者;中确定性证据)。
干预 A 与干预 B:当比较儿童的四叉簧与扩张板时,四叉簧在后牙反颌矫正方面更有效(RR 1.29,95%CI 1.13 至 1.46;3 项研究,151 名参与者;中确定性证据),最终的磨牙间距离(MD 1.48mm,95%CI 0.91mm 至 2.04mm;3 项研究,151 名参与者;高确定性证据),犬齿间距离(0.59mm 更高(95%CI 0.09mm 至 1.08mm;3 项研究,151 名参与者;低确定性证据)和治疗时间(MD -3.15 个月,95%CI -4.04 至 -2.25;3 项研究,148 名参与者;中确定性证据)。Hyrax 与 Haas 在后牙反颌矫正方面没有差异(RR 1.05,95%CI 0.94 至 1.18;3 项研究,83 名参与者;中确定性证据)或磨牙间距离(MD -0.15mm,95%CI -0.86mm 至 0.56mm;2 项研究,青少年 46 名参与者;中确定性证据)。Hyrax 与牙骨支抗式扩弓器在后牙反颌矫正方面没有差异(RR 1.02,95%CI 0.92 至 1.12;I² = 0%;3 项研究,120 名参与者;低确定性证据)或磨牙间距离(MD -0.66mm,95%CI -1.36mm 至 0.04mm;I² = 0%;2 项研究,65 名参与者;低确定性证据)。Hyrax 与骨支抗式扩弓器在后牙反颌矫正方面没有差异(RR 1.00,95%CI 0.94 至 1.07;I² = 0%;2 项研究,青少年 81 名参与者;低确定性证据)或磨牙间距离(MD -0.14mm,95%CI -0.85mm 至 0.57mm;I² = 0%;2 项研究,81 名参与者;低确定性证据)。
作者结论
对于早期混合牙列期(7 至 11 岁)的儿童,四叉簧和扩张板比不治疗更有利于矫正后牙反颌。扩张板还增加了犬齿间距离。四叉簧在矫正后牙反颌和增加磨牙间距离方面比扩张板更有效。四叉簧的治疗时间比扩张板短。对于恒牙期(12 至 16 岁)的青少年,Hyrax 和 Haas 在矫正后牙反颌和增加磨牙间距离方面相似。其余证据不足以得出后牙反颌矫正效果的可靠结论。
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