Does Abnormal Insulin Action in the Brain Underlie Cognitive and Metabolic Dysfunction in Schizophrenia
NCT ID: NCT05748990
Last Updated: 2025-08-05
Study Results
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Basic Information
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RECRUITING
NA
20 participants
INTERVENTIONAL
2023-04-01
2026-04-01
Brief Summary
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Detailed Description
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ii) Schizophrenia and metabolic dysfunction: Patients with SCZ also have exceedingly high rates of metabolic comorbidity. Almost half of patients are obese and the prevalence of type 2 diabetes is 3-9 fold higher than the general population. Patients with SCZ die on average 15-20 years earlier than the general population from cardiovascular disease. Thus, metabolic health represents another large unmet need.
iii) Association between cognitive and metabolic dysfunction: These two domains of dysfunction interact in an additive manner to worsen outcomes. Metabolic syndrome and diabetes are both associated with worse cognition among SCZ patients. Recent knowledge elucidating the interactions between metabolic health, cognition, and functioning have encouraged a reconceptualization of SCZ as both a metabolic and cognitive disorder, prompting search for treatment strategies that address abnormalities in both these aspects.
iv) Brain insulin as a unifying link: There has been recent recognition that insulin plays an important role in the brain. Brain insulin is implicated in several processes relevant to SCZ. Abnormal brain insulin action may help explain both cognitive and metabolic aberrations in patients with SCZ. Moreover, it is now clear that glucose uptake in the brain is partially dependent on insulin in brain regions relevant to SCZ, such as the hippocampus, hypothalamus, and striatum.
v) Evidence and promise in SCZ: There is preliminary evidence to suggest that brain insulin resistance is associated with worse cognition. A magnetic resonance spectroscopy (1H-MRS) study found higher brain glucose and lower glucose utilization in SCZ patients, suggesting brain insulin resistance, that were associated with memory impairment. Initial intervention studies using intranasal insulin have not been successful, likely because resistance to insulin in the brain prevents any benefits of intranasal insulin from accruing. However, this has not been conclusively demonstrated. This study seeks to answer this question directly.
vi) Role of 18-fluorodeoxyglucose (\[18F\]-FDG)-positron emission tomography (PET): 1H-MRS is an indirect and imprecise measure of glucose in the brain (it combines intra- and extracellular glucose). This is also true for other MRI based measures, which have recently been employed to indirectly study insulin action in the brain. Currently, there are no PET ligands able to reliably quantify insulin or its receptors in the brain. However, using \[18F\]-FDG PET, it is possible to measure differences in glucose uptake, with and without an insulin challenge, into insulin sensitive regions of the brain (e.g. hippocampus and striatum). This can serve as a surrogate marker of brain insulin action. This principle has already been used successfully in rodents and healthy humans, and offers a more direct method of quantifying brain insulin action.
In this study, \[18F\]-FDG PET will be employed to examine whether abnormal brain insulin action is a feature of SCZ. The study examines young SCZ patients. Insulin (160 IU; shown to be safe and effective previously) will be delivered intranasally as it has been shown to be reliable method of delivering insulin to the brain.
Primary hypothesis: SCZ patients will have reduced \[18F\]-FDG uptake, in response to an intranasal insulin challenge, compared to healthy controls.
Conditions
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Study Design
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RANDOMIZED
CROSSOVER
BASIC_SCIENCE
SINGLE
Study Groups
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Schizophrenia Group
Insulin (160IU) or placebo is administered intranasally 15 minutes prior to the PET scan.
Intranasal insulin
160 IU insulin (Humalog) is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Placebo
0.9% saline is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Healthy Control Group
Insulin (160 IU) or placebo is administered intranasally 15 minutes prior to the PET scan.
Intranasal insulin
160 IU insulin (Humalog) is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Placebo
0.9% saline is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Interventions
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Intranasal insulin
160 IU insulin (Humalog) is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Placebo
0.9% saline is administered intranasally using a metered spray bottle 15 minutes prior to the PET scan.
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
1. 17-45 years
2. both sexes;
3. Patients with first-episode schizophrenia spectrum illness: Primary DSM-5 diagnosis of schizophrenia, schizoaffective disorder, schizophreniform disorder, delusional disorder, brief psychotic disorder, psychotic disorder NOS, major depressive disorder with psychotic symptoms, bipolar I disorder, and bipolar II disorder, OR substance-induced psychosis, and antipsychotic treatment for schizophrenia, schizoaffective disorder, or other specified schizophrenia spectrum, other psychotic disorder, major depressive disorder with psychotic symptoms, bipolar I disorder, and bipolar II. (Diagnosis willbe confirmed via CAMH chart review).
4. BMI under or equal to 27
ii) Control group (healthy controls):
1. 17-45 years of age
2. sex-,
3. hand dominance -and
4. body mass index (BMI)-matched
5. Absence of DSM-5 diagnosis other than a specific phobia according to MINI
Exclusion Criteria
2. prediabetes, diabetes, or evidence of impaired glucose tolerance on screening OGTT
3. acute suicidal risk
4. use of weight, lipid, antidiabetic or blood pressure reducing agents
5. liver or kidney disease
6. pregnancy
7. nursing
8. pacemakers
9. metallic cardiac valves
10. magnetic material such as surgical clips, implanted electronic infusion pumps or any other conditions that would preclude the MRI scan
11. clinically significant claustrophobia (determined from MRI screening form; significance evaluated as per QI's discretion).
12. history of head trauma resulting in loss of consciousness \> 30 minutes that required medical attention;
13. size of head, neck, precluding to fit in the MRI or PET scanners
14. weight over 350lbs (limit for MRI scanner bed)
15. unstable physical illness
16. significant neurological disorder including a seizure disorder;
17. Received maximum allowed radiation in the past 12 months (20 mSv)
18. Completed more than 6 PET scans/ lifetime, that, together with the PET scanning procedures under this protocol will bring the total number of PET scans to more than the allowed/lifetime (8 PET scans per lifetime). These limits are set by the Centre for Addiction and Mental Health Brain Health Imaging Centre Guideline.
19. clinically relevant abnormality observed in medical history,
20. current intake of any medication that may interfere with participation in the study or may confound the results of PET imaging (e.g. anti-diabetic medication).
21. Disorders of coagulation, blood or ongoing use of anticoagulant medication
Control group: Exclusionary criteria are as listed above for participants, in addition to:
1\) First degree family member with primary psychotic disorder.
17 Years
45 Years
ALL
Yes
Sponsors
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Centre for Addiction and Mental Health
OTHER
Responsible Party
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Locations
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Centre for Addiction and Mental Health
Toronto, Ontario, Canada
Countries
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Central Contacts
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Facility Contacts
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Other Identifiers
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154-2020
Identifier Type: -
Identifier Source: org_study_id
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