Treatment Response in Schizophrenia: Bridging Imaging and Postmortem Studies
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|ClinicalTrials.gov Identifier: NCT00937716|
Recruitment Status : Active, not recruiting
First Posted : July 13, 2009
Last Update Posted : April 22, 2019
|Condition or disease|
Our past brain imaging and Positron Emission Tomography (PET) studies have contributed to the understanding of specific brain regions related to treatment response to antipsychotic drugs in schizophrenia. We have found that treatment response to antipsychotic medication is related to blood-flow patterns in specific regions (such as the ventral striatum, anterior cingulate cortex, and hippocampus). In addition, functional changes in these regions following one week of antipsychotic drug therapy are predictive of treatment response. Dr. Roberts, a neuroanatomist, has studied the post mortem (after death) brains of patients with schizophrenia while working in association with the Maryland Brain Collection. Her studies have indicated an increased number of dopaminergic synapses (that is, neurons that produce the neurotransmitter dopamine) in these regions in patients who were known to have had a favorable response to antipsychotic drug therapy. In addition, from this post-mortem work we know the number of glutamate synapses in these regions were significantly different between good treatment responders and poor responders.
From these studies we have hypothesized that in schizophrenia an over-abundance of dopamine in the ventral striatum interferes with normal functioning by limiting the transmission of glutamate. Putatively, antipsychotic medications may decrease the symptoms of schizophrenia by restoring glutamatergic activity in the ventral striatum and projected areas, such as the anterior cingulate cortex and hippocampus. We have hypothesized that those individuals responding favorably to antipsychotic drug therapy will display greater glutamate activity in the ventral striatum (due to dopamine blockade) and the other regions receiving glutamate projections. This should lead to restored neuronal functioning in good responders when compared to treatment resistant and poor responders to antipsychotic drug treatment. We will test this hypothesis using complementary imaging and postmortem studies yielding data that will permit the formulation of a comprehensive model for antipsychotic drug responses in subjects with severe mental illness.
Magnetic Resonance is a technique for probing atoms and molecules based upon their interaction with an external magnetic field. Magnetic Resonance does not use ionizing radiation. The most familiar example of this is Magnetic Resonance Imaging (MRI). Another application of Magnetic Resonance is called functional Magnetic Resonance Imaging (fMRI). Functional Magnetic Resonance Imaging (fMRI) allows us to measure the Blood Oxygenation Level-Dependent (BOLD) response, a measure of blood flow in the brain that is known to correlate with neuronal activity. Another application of Magnetic Resonance is Magnetic Resonance Spectroscopy (MRS), which allows the measurements of specific metabolites such as N-acetyl aspartate (NAA), a measure of neuronal integrity, and Glutamate, which is involved in neurotransmission and metabolism. We will seek to replicate and extend our past Positron Emission Tomography (PET) findings with functional magnetic resonance imaging (fMRI) using cognitive tasks that are known to activate the hippocampus (Episodic memory task) and the anterior cingulate cortex (Stroop task). This aim will further seek to parse out the differential contribution of the hippocampus and the anterior cingulate cortex to treatment response. At the same time, N-acetylaspartate, a marker of neuronal integrity, and glutamate measurements obtained with magnetic resonance spectroscopy in the anterior cingulate cortex and hippocampus will directly probe in the living brain the relation between neuronal integrity, glutamate function, and treatment response. In parallel, the postmortem work of Dr. Roberts (UAB IRB exemption: NO70813001, IRB#F080306003) will concentrate on the study of the anterior cingulate cortex in post mortem brains of schizophrenic patients. These studies should allow the development of hypotheses about the pathophysiology of treatment response and provide a basis for the interpretation of functional imaging data. The overarching goal is to identify imaging markers that will predict treatment response, and to confirm or validate these biomarkers using anatomical studies of postmortem tissue. Early detection of drug response would yield specific treatment strategies that are tailored to the individual, thus improving both the quality of life of the patients and drastically reducing the costs associated with unsuccessful treatment strategies.
|Study Type :||Observational|
|Estimated Enrollment :||75 participants|
|Official Title:||Treatment Response in Schizophrenia: Bridging Imaging and Postmortem Studies|
|Study Start Date :||October 2008|
|Estimated Primary Completion Date :||December 31, 2019|
|Estimated Study Completion Date :||December 31, 2019|
Diagnosis of Schizophrenia
Patients with a diagnosis of schizophrenia that have been off antipsychotic medicine and would like to resume treatment will be enrolled in the study.
Healthy Volunteers without a psychiatric diagnosis, central nervous system condition, serious head injury, or current drug use will be matched on an individual basis to schizophrenic participants and used as a control population.
- To evaluate whether MRI signals (both fMRI and 1H-MRS) predictive of treatment response to antipsychotic therapy in schizophrenia. [ Time Frame: at conclusion of study ]
Biospecimen Retention: Samples With DNA
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Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT00937716
|United States, Alabama|
|University of Alabama at Birmingham, Department of Psychiatry, SC 501|
|Birmingham, Alabama, United States, 35294|
|Principal Investigator:||Adrienne C Lahti, MD||University of Alabama at Birmingham, Department of Psychiatry|