Speltz Matthew L, Wallace Erin R, Collett Brent R, Heike Carrie L, Luquetti Daniela V, Werler Martha M
Seattle, Wash.; and Boston, Mass.
From the Departments of Psychiatry and Behavioral Sciences and Pediatrics, University of Washington; the Centers for Child Health, Behavior and Development, Clinical and Translational Research, and Developmental Biology and Regenerative Medicine, Seattle Children's Research Institute; the Craniofacial Center, Seattle Children's Hospital; and the Department of Epidemiology, Boston University School of Public Health.
Plast Reconstr Surg. 2017 Sep;140(3):571-580. doi: 10.1097/PRS.0000000000003584.
The authors compared the IQ and academic achievement of adolescents with craniofacial microsomia (cases) and unaffected children (controls). Among cases, the authors analyzed cognitive functioning by facial phenotype.
The authors administered standardized tests of intelligence, reading, spelling, writing, and mathematics to 142 cases and 316 controls recruited from 26 cities across the United States and Canada. Phenotypic classification was based on integrated data from photographic images, health history, and medical chart reviews. Hearing screens were conducted for all participants.
After adjustment for demographics, cases' average scores were lower than those of controls on all measures, but the magnitude of differences was small (standardized effect sizes, -0.01 to -0.3). There was little evidence that hearing status modified case-control group differences (Wald p > 0.05 for all measures). Twenty-five percent of controls and 38 percent of cases were classified as having learning problems (adjusted OR, 1.5; 95 percent CI, 0.9 to 2.4). Comparison of cases with and without learning problems indicated that those with learning problems were more likely to be male, Hispanic, and to come from lower income, bilingual families. Analyses by facial phenotype showed that case-control group differences were largest for cases with both microtia and mandibular hypoplasia (effect sizes, -0.02 to -0.6).
The highest risk of cognitive-academic problems was observed in patients with combined microtia and mandibular hypoplasia. Developmental surveillance of this subgroup is recommended, especially in the context of high socioeconomic risk and bilingual families. Given the early stage of research on craniofacial microsomia and neurodevelopment, replication of these findings is needed.
CLINICAL QUESTION/LEVEL OF EVIDENCE: Risk, II.
作者比较了患有颅面短小畸形的青少年(病例组)和未受影响儿童(对照组)的智商和学业成绩。在病例组中,作者按面部表型分析了认知功能。
作者对从美国和加拿大26个城市招募的142例病例和316名对照进行了智力、阅读、拼写、写作和数学的标准化测试。表型分类基于摄影图像、健康史和病历审查的综合数据。对所有参与者进行了听力筛查。
在对人口统计学因素进行调整后,病例组在所有测量指标上的平均得分均低于对照组,但差异幅度较小(标准化效应量为-0.01至-0.3)。几乎没有证据表明听力状况会改变病例组与对照组之间的差异(所有测量指标的Wald p>0.05)。25%的对照组和38%的病例组被归类为有学习问题(校正后的比值比为1.5;95%置信区间为0.9至2.4)。有学习问题和无学习问题的病例组比较表明,有学习问题的病例更可能为男性、西班牙裔,且来自低收入、双语家庭。按面部表型分析显示,患有小耳畸形和下颌发育不全的病例组与对照组之间的差异最大(效应量为-0.02至-0.6)。
在合并小耳畸形和下颌发育不全的患者中观察到认知-学业问题的风险最高。建议对该亚组进行发育监测,尤其是在社会经济风险高和双语家庭的背景下。鉴于颅面短小畸形与神经发育的研究尚处于早期阶段,需要重复这些研究结果。
临床问题/证据水平:风险,II级。