ABSTRACT
PURPOSE: Children with attention-deficit/hyperactivity disorder (ADHD) often perform poorly during cognitive tests. We sought to evaluate cortisol as potential moderator of performance in mentally challenging tasks in children with ADHD. MATERIALS AND METHODS: Ninety clinic-referred children with ADHD were studied. Cortisol contents in saliva were measured before and after administration of a continuous performance test (CPT). RESULTS: Pre and post CPT cortisol levels were similar in 68 children. Children whose cortisol level increased after testing ( n = 22 ) displayed a significantly longer response time and increased response time variability scores as compared to children who did not display increase of cortisol after the CPT test. Even after controlling for the effects of response time and anxiety, the changes in cortisol levels were associated with effect on response time variability. CONCLUSION: The patients who showed an increased cortisol level after stress displayed a higher variability in response time than the patients who showed no change or a decreased cortisol level. The result of the current study suggests that stress-induced high norepinephrine (NE) release may accompany poorer attention performance in patients with ADHD.
Subject(s)
Adolescent , Child , Female , Humans , Male , Attention Deficit Disorder with Hyperactivity/metabolism , Hydrocortisone/metabolism , Norepinephrine/metabolism , Reaction Time/physiology , Saliva/chemistry , Stress, Psychological/physiopathologyABSTRACT
CONTEXTO: A desatenção no transtorno de déficit de atenção e hiperatividade (TDAH) é principalmente associada à hipoatividade dopaminérgica mesocortical. Contudo, variações dopaminérgicas mesotalâmicas também afetam o controle da atenção e, possivelmente, originam alterações atencionais no TDAH. OBJETIVO: Elaboração de um modelo neurocomputacional a partir do conhecimento do funcionamento bioquímico dos sistemas dopaminérgicos mesocortical e mesotalâmico, a fim de investigar a influência dos níveis de dopamina na via mesotalâmica sobre o circuito tálamo-cortical e suas implicações nos sintomas de desatenção do TDAH. MÉTODO: Através de um conjunto de equações modelamos propriedades fisiológicas de neurônios talâmicos. A seguir, simulamos computacionalmente o comportamento do circuito tálamo-cortical variando os níveis de dopamina nas vias mesotalâmica e mesocortical. RESULTADOS: Em relação à via mesotalâmica, a hipoatividade dopaminérgica dificulta o deslocamento do foco de atenção, e a hiperatividade dopaminérgica acarreta desfocalização atencional. Quando tais situações são acompanhadas de hipoatividade dopaminérgica mesocortical, surge uma incapacidade em perceber estímulos, devido à competição sem vencedores entre regiões talâmicas pouco ativadas. A desatenção no TDAH também se origina em desequilíbrios dopaminérgicos na via mesotalâmica, que levam à focalização excessiva ou à desfocalização da atenção. CONCLUSÃO: O nosso experimento in silico sugere que no TDAH a desatenção relaciona-se com alterações dopaminérgicas, que não se restringem à via mesocortical.
BAKGROUND: Inattention symptoms observed in patients with attention deficit hyperactivity disorder (ADHD) are mostly related to a hipoactivity in the mesocortical dopaminergic pathway. However, mesothalamic dopaminergic variations also affect the attentional control, and possibly lead to attention alterations in ADHD. PURPOSE: Elaborating a neurocomputational model from biochemical knowledge of mesocortical and mesotalamic dopamine systems, to investigate how different levels of mesothalamic dopamine influence the thalamocortical loop, leading to some attention deficits observed in ADHD. METHOD: First, we model physiological properties of thalamic neurons with a set of mathematical equations. Next, we simulate computationally the modeled thalamocortical loop under different levels of mesothalamic dopamine, and also the mesocortical dopaminergic decrease. RESULTS: Low levels of mesothalamic dopamine hinders the attentional shift and, high levels of such neuromodulator lead to distraction. When such alterations occur together with a decrease in the mesocortical dopamine level, the attention deficit turns into incapacity of perceiving environmental stimuli, due to a no winner competition between low activated thalamic areas. Inattention in ADHD also has its origins in dopaminergic disturbs throughout the mesothalamic pathway, which enhance a high focusing or do not allow the attention focus consolidation. CONCLUSION: In ADHD, the inattention is related to dopaminergic alterations that are not restricted to the mesocortical system.
Subject(s)
Humans , Attention Deficit Disorder with Hyperactivity/metabolism , Dopamine/metabolism , Models, Neurological , Thalamus/metabolism , Attention Deficit Disorder with Hyperactivity/physiopathology , Computer Simulation , Dopamine/physiology , Time Factors , Thalamus/physiopathologyABSTRACT
PURPOSE: To investigate the general characteristics of glucose metabolism distribution and the functional deficit in the brain of children with developmental language delay (DLD), we compared functional neuroradiological studies such as positron emission tomography (PET) of a patient group of DLD children and a control group of attention- deficit hyperactivity disorder (ADHD) children. PATIENTS AND METHODS: Seventeen DLD children and 10 ADHD children under 10 years of age were recruited and divided into separate groups consisting of children less than 5 years of age or between 5 and 10 years of age. The PET findings of 4 DLD children and 6 control children whose ages ranged from 5 to 10 years were compared by Statistical Parametric Mapping (SPM) analysis. RESULTS: All of the DLD children revealed grossly normal findings in brain MRIs, however, 87.5% of them showed grossly abnormal findings in their PET studies. Abnormal findings were most frequent in the thalamus. The patient group showed significantly decreased glucose metabolism in both frontal, temporal and right parietal areas (p < 0.005) and significantly increased metabolism in both occipital areas (p < 0.05) as compared to the control group. CONCLUSION: This study reveals that DLD children may show abnormal findings on functional neuroradiological studies, even though structural neuroradiological studies such as a brain MRI do not show any abnormal findings. Frequent abnormal findings on functional neuroradiological studies of DLD children, especially in the subcortical area, suggests that further research with quantitative assessments of functional neuroradiological studies recruiting more DLD children and age-matched normal controls could be helpful for understanding the pathophysiology of DLD and other disorders confined to the developmental disorder spectrum.