Psychotic disorders such as schizophrenia have been associated with both frontal lobe dysfunction as well as abnormal regulation of subcortical regions. An innovative theory suggests that deficits in the system linking these two areas (the frontal-subcortical circuits; FSCs) may account for the wide range of symptoms and characteristics seen in psychotic disorders. Recent research detecting abnormal grey and white matter development in the frontal and medial temporal regions during the prodrome, a period proceeding formal onset of psychotic disorders, suggests that maturational changes are highly relevant in the etiology of psychotic disorders. Despite the evidence suggesting a prominent role of maturational factors in etiological conceptualizations of psychosis, it is unclear how neuromaturation in the FSC system may contribute to symptoms or characteristic behaviors of psychosis; to date no published studies have examined longitudinal grey and white matter changes in high-risk participants in this critical system. However, understanding the neural-reorganization preceding illness is integral as it stands to elucidate underlying pathogenic mechanisms prior to when widespread medication usage and neurotoxicity may confound clear understanding and further, within the context of detecting and treating high-risk adolescents, can lead to identifying biological markers of vulnerability- indicating which high-risk individuals are most likely to convert to psychosis. A strong line of evidence implicating that developmentally based FSC changes are tied to emerging psychosis, indicates that spontaneous movement abnormalities (SMAs) (i.e., dyskinesia and Parkinsonisms), presumed to reflect a compromised FSC system, become salient during adolescence, continue to progress in frequency/severity with age, are associated with symptoms, and predict eventual conversion to formal psychosis. However, to date it is unclear which particular maturational changes may underlie SMAs, or if these movements do indeed serve as a marker of progressive FSC dysfunction. Further, to date SMAs in high-risk populations have only been assessed with observer-based measures, and recent studies in psychotic populations, suggesting that instrumentally based measures of SMA are significantly more sensitive, hint at promise for a viable biomarker. The proposed study will test the hypothesis that irregular development in grey and connective white matter tracts among prodromal adolescents contributes to alterations in FSC, resulting in SMAs, prodromal symptoms, and eventually the onset of psychosis. We propose to utilize instrumental measures of SMAs (i.e., Force Variability and Velocity Scaling), magnetic resonance imaging (MRI), and diffusion tensor imaging (DTI), to examine structures and connective tracts comprising the FSC system, following groups of 75 adolescents with a prodromal syndrome (age 12-21), and 75 matched healthy controls over the period of one-year (baseline and on year follow-up) to determine the neurodevelopmental underpinnings of SMAs (if specific developmental patterns of grey and white matter in the FSC system characterize prodromal populations and result in dyskinesias and/or Parkinsonisms) and if developmental abnormalities in this system and SMAs (a potential biomarker that may directly reflect this pathology) predict a poorer course of illness. Project Description
|Effective start/end date||9/1/15 → 2/28/18|
- University of Colorado (1554305 // 5R01MH094650-05)
- National Institute of Mental Health (1554305 // 5R01MH094650-05)
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