OBJECTIVE: To use objective, nonverbal oculomotor tasks to assess executive function and infer the neural basis of impairments in preterm children. STUDY DESIGN: Cross-sectional study of preterm childrenage 9-16 years (n = 69; mean gestational age 29 weeks) and full-term controls (n = 43). Tasks assessed sensorimotor function (reflexive prosaccades); resistance to peripheral distracters (fixation); response inhibition, response preparation, and execution of a voluntary saccade (antisaccades); and spatial working memory (memory-guided saccades). Group differences were analyzed using ANOVA. We used linear regression to analyze the contributions of age, sex, gestational age, and white matter category to task performance. RESULTS:Preterm children did not differ from controls on basic sensorimotor function, response inhibition, and working memory. Compared with controls, preterm children showed greater susceptibility to peripheral distracters (P = .008) and were slower to initiate an inhibitory response (P = .003). Regression models showed contributions of age and white matter category to task performance. CONCLUSIONS:Preterm children show intact basic sensorimotor function and demonstrate difficulties in processes underlying executive control, including increased distractibility and prolonged response preparation. These limitations may reflect specific neural abnormalities in fronto-subcortical executive control of behavior.
RCT Entities:
OBJECTIVE: To use objective, nonverbal oculomotor tasks to assess executive function and infer the neural basis of impairments in preterm children. STUDY DESIGN: Cross-sectional study of preterm children age 9-16 years (n = 69; mean gestational age 29 weeks) and full-term controls (n = 43). Tasks assessed sensorimotor function (reflexive prosaccades); resistance to peripheral distracters (fixation); response inhibition, response preparation, and execution of a voluntary saccade (antisaccades); and spatial working memory (memory-guided saccades). Group differences were analyzed using ANOVA. We used linear regression to analyze the contributions of age, sex, gestational age, and white matter category to task performance. RESULTS: Preterm children did not differ from controls on basic sensorimotor function, response inhibition, and working memory. Compared with controls, preterm children showed greater susceptibility to peripheral distracters (P = .008) and were slower to initiate an inhibitory response (P = .003). Regression models showed contributions of age and white matter category to task performance. CONCLUSIONS: Preterm children show intact basic sensorimotor function and demonstrate difficulties in processes underlying executive control, including increased distractibility and prolonged response preparation. These limitations may reflect specific neural abnormalities in fronto-subcortical executive control of behavior.
Authors: Olena Chorna; Jessica E Solomon; James C Slaughter; Ann R Stark; Nathalie L Maitre Journal: Arch Dis Child Fetal Neonatal Ed Date: 2014-07-22 Impact factor: 5.747
Authors: K Sripada; K J Bjuland; A E Sølsnes; A K Håberg; K H Grunewaldt; G C Løhaugen; L M Rimol; J Skranes Journal: Sci Rep Date: 2018-10-22 Impact factor: 4.379