Abstract

Identifying the neural substrates of schizophrenia is a key step in developing more targeted treatments or identifying molecular mechanisms. The tools of neuroimaging have substantially facilitated this search. For approximately the past decade, we have been exploring the hypothesis that patients with schizophrenia suffer from a """"""""misconnection syndrome"""""""": a disturbance in a widely distributed network of brain regions. This misconnection leads in turn to impairment in the ability to integrate information (""""""""thought disorder"""""""") that is the hallmark of schizophrenia. The proposed project examines both structural connectivity (using diffusion tensor imaging, or DTI) and functional connectivity using functional magnetic resonance imaging (fMR) to examine the """"""""default network"""""""" during random episodic silent thought (""""""""REST""""""""). We will employ both a cross-sectional and a longitudinal design in order to examine whether impairments in structural and functional connectivity progress over time, based on our preliminary work suggesting that this is the case. We will collect MR data at baseline in first episode patients, chronic patients, and healthy normal volunteers. A subset of the first episode patients will be studied when they are still neuroleptic naive. Follow-up MR data will be obtained at two time points. Only a few studies to date have examined first episode patients. Ours will be one of the first to compare first episode patients and chronic patients, using a matched control group. There are very few studies examining the issue of progression or of medication effects with DTI. Neuroleptic naive subjects have never been examined, nor has DTI been applied in a longitudinal design. DTI and fMR provide different and complementary data about the brain;additional power is provided if this information can be integrated in a single analysis. We will use novel statistical techniques for """"""""data fusion"""""""" to integrate the information from DTI measures of structural connectivity with fMR measures of functional connectivity. Thus the proposed work with is highly innovative.

Public Health Relevance

Identifying the neural substrates of schizophrenia is a key step in developing more targeted treatments or identifying molecular mechanisms. The proposed project explores both structural connectivity (using diffusion tensor imaging, or DTI) and functional connectivity using functional magnetic resonance imaging (fMR) to examine the default network during random episodic silent thought (REST). In this innovative study we will employ both a cross-sectional and a longitudinal design in order to examine whether impairments in structural and functional connectivity progress over time and the effects of medication on connectivity.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Research Project (R01)
Project #
5R01MH040856-24
Application #
8244523
Study Section
Neural Basis of Psychopathology, Addictions and Sleep Disorders Study Section (NPAS)
Program Officer
Rumsey, Judith M
Project Start
1985-09-01
Project End
2015-02-28
Budget Start
2012-03-01
Budget End
2013-02-28
Support Year
24
Fiscal Year
2012
Total Cost
$559,536
Indirect Cost
$163,787

  Institution

Name
University of Iowa
Department
Psychiatry
Type
Schools of Medicine
DUNS #
062761671
City
Iowa City
State
IA
Country
United States
Zip Code
52242

  Publications

Bijanki, Kelly Rowe; Hodis, Brendan; Magnotta, Vincent A et al. (2015) Effects of age on white matter integrity and negative symptoms in schizophrenia. Schizophr Res 161:29-35
Rudd, Danielle S; Axelsen, Michael; Epping, Eric A et al. (2014) A genome-wide CNV analysis of schizophrenia reveals a potential role for a multiple-hit model. Am J Med Genet B Neuropsychiatr Genet 165B:619-26
Parker, Krystal L; Andreasen, Nancy C; Liu, Dawei et al. (2013) Eyeblink conditioning in unmedicated schizophrenia patients: a positron emission tomography study. Psychiatry Res 214:402-9
Sui, Jing; He, Hao; Pearlson, Godfrey D et al. (2013) Three-way (N-way) fusion of brain imaging data based on mCCA+jICA and its application to discriminating schizophrenia. Neuroimage 66:119-32
Onwuameze, O E; Nam, K W; Epping, E A et al. (2013) MAPK14 and CNR1 gene variant interactions: effects on brain volume deficits in schizophrenia patients with marijuana misuse. Psychol Med 43:619-31
Andreasen, Nancy C; Liu, Dawei; Ziebell, Steven et al. (2013) Relapse duration, treatment intensity, and brain tissue loss in schizophrenia: a prospective longitudinal MRI study. Am J Psychiatry 170:609-15
Fusar-Poli, P; Smieskova, R; Kempton, M J et al. (2013) Progressive brain changes in schizophrenia related to antipsychotic treatment? A meta-analysis of longitudinal MRI studies. Neurosci Biobehav Rev 37:1680-91
Andreasen, N C; Wilcox, M A; Ho, B-C et al. (2012) Statistical epistasis and progressive brain change in schizophrenia: an approach for examining the relationships between multiple genes. Mol Psychiatry 17:1093-102
Parker, Krystal L; Andreasen, Nancy C; Liu, Dawei et al. (2012) Eyeblink conditioning in healthy adults: a positron emission tomography study. Cerebellum 11:946-56
Salinas, Joel; Mills, Elizabeth D; Conrad, Amy L et al. (2012) Sex differences in parietal lobe structure and development. Gend Med 9:44-55

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