Detailed descriptions of cortical anatomy in youth with Down syndrome (DS), the most common genetic cause of intellectual disability (ID), are scant. Thus, the current study examined deviations in cortical thickness (CT) and surface area (SA), at high spatial resolution, in youth with DS, to identify focal differences relative to typically developing (TD) youth. Participants included 31 youth with DS and 45 age- and sex-matched TD controls (mean age ∼16 years; range = 5-24 years). All participants completed T1-weighted ASSET-calibrated magnetization prepared rapid gradient echo scans on a 3-T magnetic resonance imaging scanner. Replicating prior investigations, cortical volume was reduced in DS compared with controls. However, a novel dissociation for SA and CT was found-namely, SA was reduced (predominantly in frontal and temporal regions) while CT was increased (notably in several regions thought to belong to the default mode network; DMN). These findings suggest that reductions in SA rather than CT are driving the cortical volume reductions reported in prior investigations of DS. Moreover, given the link between DMN functionality and Alzheimer's symptomatology in chromosomally typical populations, future DS studies may benefit from focusing on the cortex in DMN regions, as such investigations may provide clues to the precocious onset of Alzheimer's disease in this at-risk group.
Synopsis
The clinical severity, impact on development, and poor prognosis of Childhood Onset Schizophrenia (COS) may represent a more homogeneous group. Positive symptoms in children are necessary for the diagnosis and hallucinations are more often multi modal. Both in healthy children, as well as in children with a variety of other psychiatric illnesses, hallucinations are not uncommon [1] and diagnosis should not be based on these alone. COS is an extraordinarily rare illness which is poorly understood but appears continuous with the adult onset disorder. Additionally, as seen in other areas of medicine, early onset populations have more prominent progressive brain changes, and genetic risk factors [2].
Diagnosing a child with schizophrenia has profound effects on the treatment course, including the potential for neglecting another disorder, as psychosis often becomes the primary focus. Since onset is almost always insidious, the “episodes” so common in later onset disorder are rarely seen. The gold standard for diagnosis remains the use of unmodified DSM criteria, based on extensive collateral information. Once a diagnosis is affirmed, aggressive medication treatment, in majority of cases with Clozapine, combined with family education and individual counseling may defer further deterioration.
Neuroimaging studies of childhood onset schizophrenia (COS), a rare yet severe form of schizophrenia with an onset before the age of 13 years, have shown continuity with adult onset schizophrenia. Previous research in adult patients has shown reduced sleep spindle activity, transient oscillations in the sleep electroencephalogram (EEG) generated through thalamocortical loops. The current study examines sleep spindle activity in patients with COS. Seventeen children and adolescents with COS (16 years ± 6.6) underwent overnight sleep EEG recordings. Sleep spindle activity was compared between patients with COS and age and gender matched controls and correlated with clinical symptom severity. We found pronounced deficits in sleep spindle amplitude, duration, density and frequency in patients with COS (effect size = 0.61 to 1.96; dependent on metric and EEG derivation). Non-rapid eye movement (NREM) sleep EEG power and coherence in the sigma band (11)(12)(13)(14)(15)(16) corresponding to spindle activity were also markedly diminished in patients with COS as compared to controls. Furthermore, the degree of deficit in power and coherence of spindles was strongly associated with clinician rated hallucinations and positive symptoms over widespread cortical regions. Our finding of diminished spindle activity and its association with hallucinations likely reflect dysfunction of the thalamocortical circuits in children and adolescents with COS. Given the relative ease of sleep EEG recordings in vulnerable populations, this study highlights the potential of such recordings to characterize brain function in schizophrenia.
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