Balance Deficit and Brain Connectivity in Children with Attention-Deficit/Hyperactivity Disorder

• Published in: Psychiatry investigation Vol. 14; no. 4; pp. 452 - 457
• Main Authors: Kim, Sun Mi, Hyun, Gi Jung, Jung, Tae-Woon, Son, Young Don, Cho, In-Hee, Kee, Baik Seok, Han, Doug Hyun
• Format: Journal Article
• Language: English
• Published: Korea (South) Korean Neuropsychiatric Association 01.07.2017; 대한신경정신의학회
• Subjects: Original; 정신과학; Cerebellum; Middle frontal gyrus; Attention-deficit/hyperactivity disorder; Resting-state functional magnetic resonance imaging; Gait balance
• ISSN: 1738-3684; 1976-3026
• DOI: 10.4306/pi.2017.14.4.452

We aimed to assess disturbances in postural and gait balance and functional connectivity within the brain regions controlling balance in children with attention-deficit/hyperactivity disorder (ADHD). Thirteen children with ADHD and 13 age- and sex-matched controls were recruited. Gait balance was assessed by the difference in the center of pressure (COP) between the left and right foot, as well as the difference in plantar pressure between the left and right foot during gait. Neuroimaging data were acquired using a 3.0 Tesla MRI scanner. Functional connectivity between the vermis of the cerebellum and all other brain regionswas assessed. The difference in plantar pressure between the left foot and right foot in the ADHD group was greater than that observed in the control group. The average COP jerk score of the right foot in the ADHD group was higher than that observed in the control group. A higher functional connectivity between the cerebellum and the right middle frontal gyrus (premotor cortex) and medial frontal gyrus (cingulate gyrus) was observed in the control group relative to the ADHD group. In the ADHD group, the difference in plantar pressure between the left and right foot was also negatively correlated with the beta-value within the middle frontal gyrus. Children with ADHD had disturbance of balance as assessed by plantar pressure. Decreased brain connectivity from the cerebellum to the premotor cortex and anterior cingulate was associated with disturbances of posture and balance in children with ADHD.