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To determine the effects of aerobic exercise on hippocampal volumes and severity of psychotic symptoms in a population of psychosis patients compared to healthy age/gender matched volunteers. Psychosis patients often suffer from a number of cognitive difficulties, including poor memory function, poor problem-solving capacity and difficulties with attention and concentration. Poor fitness and associated neurovascular deficits may arise from various sources, including poor mental health, adverse side effects of antipsychotic medications and independent cardiovascular deficits that may be due to neurodevelopmental abnormalities in patients with schizophrenia. These factors are likely contributing to markedly increased stroke risk and early mortality. These problems are not well addressed by current clinical treatments, nor is neurovascular stroke risk readily or accurately detected in clinic.In contrast, evidence from aging research strongly suggests that increased cardiovascular fitness may provide numerous cognitive benefits by promoting brain growth, particularly in the frontal lobes and the hippocampi, while reducing the risk of stroke. The current study will measure the effects of aerobic exercise on brain volumes in a population of chronic psychosis patients to determine if 1) hippocampal volumes increase in response to exercise and 2) if parallel improvements in cognitive functioning occur. Additionally, baseline and follow-up stroke risk will be assessed using a novel non-invasive approach of retinal imaging to determine the presence of underlying neurovascular pathology.
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This is a 12-week, randomized trial with two parallel groups. Throughout the trial, subjects will be treated on their prescribed dose of medication. Once informed consent is obtained, subjects and healthy volunteers will be randomly assigned to either an aerobic or a resistance exercise program (N = 30 per diagnostic group in each of two exercise conditions). Patients will continue to receive their antipsychotics and other prescribed medications. Healthy volunteer data will be used to establish normal exercise-induced neuroplasticity in a non-psychiatric, non-medicated population and to establish differences in retinal vessel integrity between patients and healthy volunteers. All training will be conducted at the UBC Hospital and at dedicated exercise training facilities at the University of British Columbia. All fitness assessments (based on the initial 6-minute walk test) and exercise sessions will be monitored by trained research assistants (RAs) under the guidance of the Canadian Society for Exercise Physiology-Certified Exercise Physiologists (CSEP-CEPs). The RAs will receive pre-study exercise training from the CSEP-CEPs. During the course of the study, the training intensity will be changed according to the individual participant's response and needs via the CSEP-CEPs and RAs.
Clinical data (current medications, current diagnoses, symptom profiles, resting heart rate, blood pressure, weight) will be collected on the hospital wards at baseline and follow-up. Neuroimaging and retinal imaging will be ascertained at the UBC MRI Research Centre at baseline and follow-up. Concurrent baseline assessments of executive functioning, memory capacity and crystallized IQ will be performed at baseline. Cognitive measures, excluding IQ, will be re-assessed at follow-up. Follow-up measures will only be collected in cases were patients are still available and willing to participate in study activities.
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Donna J Lang, PhD
Data sourced from clinicaltrials.gov
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