This study was conducted to examine the volume of the basal ganglia in individuals with autism and to evaluate whether performance on specific motor tasks correlated with the volume of these structures. Volumetric measurements of the caudate nucleus and putamen were obtained from magnetic resonance images (MRI) of 40 non-mentally retarded individuals with autism and 41 healthy controls. Motor performance was assessed in these subjects by using the Finger Tapping Test, the Grooved Pegboard Test, and the measurement of Grip Strength. No volumetric differences of the basal ganglia were found between the two groups after adjusting for brain volume. The autistic subjects' performance was slower on the Grooved Pegboard Test and weaker on Grip Strength. Our findings suggest that the motor deficits observed in autism may not be related to structural abnormalities of the basal ganglia, and other brain regions, such as the cerebellum and the frontal lobe, may be involved in the pathophysiology of motor disturbances in autism.
The orbitofrontal cortex is involved in multiple psychologic functions, such as emotional and cognitive processing, learning, and social behavior. These functions are variably impaired in individuals with autism. The present study examined the size of the orbitofrontal cortex, and its medial and lateral subdivisions, using magnetic resonance imaging (MRI) scans obtained from 40 non-mentally retarded individuals with autism and 41 healthy controls. No differences were observed between the two groups on any of the orbitofrontal cortex measurements. However, when compared with controls, a smaller right lateral orbitofrontal cortex was observed in children and adolescents with autism, whereas a larger right lateral orbitofrontal cortex was found in adult patients. Interestingly, a positive relationship was found in the patient group between circumscribed interests and all orbitofrontal cortex structures. The present study suggests the absence of global volumetric abnormalities in the orbitofrontal cortex in autism and indicates that the functional disturbances in this structure might not be related to anatomic alterations.
Establishing a diagnosis of multiple endocrine neoplasia type 1 (MEN1) especially in children, adolescents, and young adults can be challenging because of phenotypic heterogeneity even among family members. We report an adolescent girl diagnosed to have MEN1 following presentation with multiple collagenomas. Histological evaluation of her cutaneous lesions revealed >70 collagenomas. Hormonal evaluation included calcium, phosphate, and parathormone measurements. Exons 2-10 of the MEN1 gene and flanking intron-exon borders were sequenced and revealed a novel nonsense mutation, Y222X. Following the identification of the cutaneous lesions as collagenomas by the pathologist, the patient was referred for an endocrine evaluation which revealed asymptomatic primary hyperparathyroidism. The patient elected to have surgery at which time she was found to have parathyroid hyperplasia. This case emphasizes the usefulness of cutaneous findings for the diagnosis and management of MEN1.
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