新生儿脑磁共振成像与极早产儿长期神经发育障碍的关联
Associations of Newborn Brain Magnetic Resonance Imaging with Long-Term Neurodevelopmental Impairments in Very Preterm Children.
作者信息
Anderson Peter J, Treyvaud Karli, Neil Jeffrey J, Cheong Jeanie L Y, Hunt Rodney W, Thompson Deanne K, Lee Katherine J, Doyle Lex W, Inder Terrie E
机构信息
Monash Institute of Cognitive and Clinical Neurosciences, Monash University, Melbourne, Victoria, Australia; Clinical Sciences, Murdoch Childrens Research Institute, Melbourne, Victoria, Australia.
Clinical Sciences, Murdoch Childrens Research Institute, Melbourne, Victoria, Australia; Department of Psychology and Counseling, La Trobe University, Melbourne, Victoria, Australia.
出版信息
J Pediatr. 2017 Aug;187:58-65.e1. doi: 10.1016/j.jpeds.2017.04.059. Epub 2017 Jun 2.
OBJECTIVE
To determine the relationship between brain abnormalities on newborn magnetic resonance imaging (MRI) and neurodevelopmental impairment at 7 years of age in very preterm children.
STUDY DESIGN
A total of 223 very preterm infants (<30 weeks of gestation or <1250 g) born at Melbourne's Royal Women's Hospital had a brain MRI scan at term equivalent age. Scans were scored using a standardized system that assessed structural abnormality of cerebral white matter, cortical gray matter, deep gray matter, and cerebellum. Children were assessed at 7 years on measures of general intelligence, motor functioning, academic achievement, and behavior.
RESULTS
One hundred eighty-six very preterm children (83%) had both an MRI at term equivalent age and a 7-year follow-up assessment. Higher global brain, cerebral white matter, and deep gray matter abnormality scores were related to poorer intelligence quotient (IQ) (Ps < .01), spelling (Ps < .05), math computation (Ps < .01), and motor function (Ps < .001). Higher cerebellum abnormality scores were related to poorer IQ (P = .001), math computation (P = .018), and motor outcomes (P = .001). Perinatal, neonatal, and social confounders had little effect on the relationships between the MRI abnormality scores and outcomes. Moderate-severe global abnormality on newborn MRI was associated with a reduction in IQ (-6.9 points), math computation (-7.1 points), and motor (-1.9 points) scores independent of the other potential confounders.
CONCLUSIONS
Structured evaluation of brain MRI at term equivalent is predictive of outcome at 7 years of age, independent of clinical and social factors.
目的
确定极早产儿出生时磁共振成像(MRI)显示的脑异常与7岁时神经发育障碍之间的关系。
研究设计
共有223名在墨尔本皇家妇女医院出生的极早产儿(孕周<30周或出生体重<1250克)在足月等效年龄时接受了脑部MRI扫描。扫描结果采用标准化系统评分,该系统评估脑白质、皮质灰质、深部灰质和小脑的结构异常。在7岁时对儿童进行一般智力、运动功能、学业成绩和行为方面的评估。
结果
186名极早产儿(83%)在足月等效年龄时接受了MRI检查,并进行了7年的随访评估。较高的全脑、脑白质和深部灰质异常评分与较低的智商(IQ)(P<0.01)、拼写(P<0.05)、数学计算能力(P<0.01)和运动功能(P<0.001)相关。较高的小脑异常评分与较低的智商(P=0.001)、数学计算能力(P=0.018)和运动结果(P=0.001)相关。围产期、新生儿期和社会混杂因素对MRI异常评分与结果之间的关系影响很小。新生儿MRI显示的中度至重度全脑异常与智商降低(-6.9分)、数学计算能力降低(-7.1分)和运动评分降低(-1.9分)相关,且不受其他潜在混杂因素的影响。
结论
足月等效年龄时对脑部MRI进行结构化评估可预测7岁时的预后,且不受临床和社会因素的影响。
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