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Dynamic Connectivity Under Metabolic Constraints

Primary Purpose

Insulin Resistance, Healthy, Diet Modification

Status
Recruiting
Phase
Phase 4
Locations
United States
Study Type
Interventional
Intervention
Ketones
Glucose
Sponsored by
Massachusetts General Hospital
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional basic science trial for Insulin Resistance focused on measuring exogenous ketone, insulin resistance, glucose, diet, aging

Eligibility Criteria

18 Years - 79 Years (Adult, Older Adult)All SexesAccepts Healthy Volunteers

Exclusion Criteria:

  • claustrophobia
  • history of neurological disease, heart attack, stroke, kidney disease, or myxedema
  • chronic usage of alcohol
  • current usage of psychotropic medication
  • Type 1 diabetes mellitus
  • Regular consumption of insulin, Metformin® or other medications (statins, NSAIDs, beta-blockers, glucocorticoids) that affect glucose and/or insulin utilization.
  • difficulty swallowing
  • pregnancy
  • breastfeeding
  • For PET: research imaging-related radiation exposure that exceeds current MGH Radiology Radiation Safety Commitee guidelines.

Inclusion Criteria:

  • BMI < 30
  • 20/20 vision or correctable to 20/20 with contact lenses
  • MRI compatible
  • For PET with Optional 150 ml Blood Sampling Only: Must weigh at least 110 lbs to minimize risks per PHRC guidelines.

Sites / Locations

  • Martinos Center for Biomedical Research, Building 149Recruiting
  • Bioengineering Building , Stony Brook University

Arms of the Study

Arm 1

Arm 2

Arm 3

Arm Type

Experimental

Experimental

Experimental

Arm Label

Metabolic Manipulation via Diet fMRI

Metabolic Manipulation via Ketone Supplement fMRI

Metabolic Manipulation via Ketone Supplement MR/PET

Arm Description

All subjects are tested three times, each in a different diet-induced metabolic state: glycolytic (glucose burning), fasting (8 hours no food), and ketotic (fat burning). While having their brains scanned with MRI, subjects are initially tested at rest, and then perform a task. Midway through the session, subjects are removed from the scanner and drink up to 75g glucose. Our data analyses quantify network reorganization in response to changing energy constraints (i.e., cognitive demand, fuel).

All subjects are tested twice, both times in a fasting condition (8 hours no food, unrestricted water). While having their brains scanned with MRI, subjects are initially tested at rest, and then perform a task. Midway through the session, subjects are removed from the scanner and drink either of two fuel sources. In the ketotic (ketone burning) session they will drink a ketone sports drink dosed at 395mg/kg. During the glycolytic (glucose burning) session the same subjects will drink a bolus of glucose, calorie-matched to the ketones. Our data analyses quantify network reorganization in response to changing energy constraints (i.e., cognitive demand, fuel).

All subjects are tested twice, both times in a fasting condition (8 hours no food, unrestricted water). For both sessions, we will intravenously administer the FDG radioisotope continuously throughout the scan. Thus, PET will map glucose uptake across the brain, while we simultaneously use MRS to measure production of the neurotransmitters glutamine and GABA. While having their brains scanned with MR/PET, subjects are initially tested at rest, and then perform a task. Subjects will drink a ketone sports drink dosed at 395mg/kg. During the glycolytic (glucose burning) session the same subjects will drink a bolus of glucose, calorie-matched to the ketones.

Outcomes

Primary Outcome Measures

fMRI stability measures: endogenous ketones vs exogenous glucose
BOLD signal measurements will be obtained at baseline and during either a glycolytic, fasting, or ketotic state. We hypothesize that ketones provide the brain with greater baseline access to energy, particularly as individuals age and become insulin resistant, and that subsequent ingestion of glucose disrupts this access. We also expect that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).
fMRI stability measures: exogenous ketones vs exogenous glucose
BOLD signal measurements will be obtained at baseline and following either a glucose or ketone supplement. We hypothesize that ketones provide the brain with greater baseline access to energy, particularly as individuals age and become insulin resistant, and that subsequent ingestion of glucose disrupts this access. We also expect that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).
PET: glucose uptake and neurotransmitter production with and without ketone supplement
During MR/PET scans, continuous FDG infusion will be used to measure glucose uptake both during rest and task. Magnetic resonance spectroscopy will be used to measure production of neurotransmitters. In individuals who are insulin resistant, we expect to find diminished neurotransmitter levels that will then be replenished through exogenous ketones. We also hypothesize that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).

Secondary Outcome Measures

Cognitive performance will be assessed and correlated with brain stability values and insulin resistance levels

Full Information

First Posted
April 7, 2021
Last Updated
January 11, 2023
Sponsor
Massachusetts General Hospital
Collaborators
Martinos Center for Biomedical Imaging
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1. Study Identification

Unique Protocol Identification Number
NCT04840095
Brief Title
Dynamic Connectivity Under Metabolic Constraints
Official Title
Dynamic Connectivity Under Metabolic Constraints
Study Type
Interventional

2. Study Status

Record Verification Date
January 2023
Overall Recruitment Status
Recruiting
Study Start Date
June 19, 2015 (Actual)
Primary Completion Date
September 2023 (Anticipated)
Study Completion Date
September 2023 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
Massachusetts General Hospital
Collaborators
Martinos Center for Biomedical Imaging

4. Oversight

Studies a U.S. FDA-regulated Drug Product
Yes
Studies a U.S. FDA-regulated Device Product
No
Product Manufactured in and Exported from the U.S.
No
Data Monitoring Committee
Yes

5. Study Description

Brief Summary
In this study, we investigate the impact of insulin resistance on the acceleration of brain aging, and test whether increased neuron insulin resistance can be counteracted by utilization of alternate metabolic pathways (e.g., ketones rather than glucose). This study has three Arms, which together provide synergistic data. For all three Arms, subjects are tested in a within-subjects design that consists of 2-3 testing sessions, 1-14 days apart, and counter-balanced for order. During each session we measure the impact of fuel (glucose in one session, ketones in the other) on brain metabolism and associated functioning. For Arms 1-2, our primary experimental measure is functional magnetic resonance imaging (fMRI), which we will use to trace the self-organization of functional networks following changes in energy supply and demand. Arm 1 tests the impact of endogenous ketones produced by switching to a low carbohydrate diet, while Arm 2 tests the impact of exogenous ketones consumed as a nutritional supplement. For Arm 3, we use simultaneous magnetic resonance spectroscopy/positron-emission tomography (MR/PET) to quantify the impact of exogenous ketones on production of glutamate and GABA, key neurotransmitters. Subjects will be given the option to participate in more than one of the Arms, but doing so is not expected nor required. Prior to scans, subjects will receive a clinician-administered History and Physical (H&P), which includes vital signs, an oral glucose tolerance test (OGTT), and the comprehensive metabolic blood panel. These will be used to assess diabetes, kidney disease, and electrolytes. If subjects pass screening, they will be provided the option to participate in one or more Arms, which include neuroimaging. To provide a quantitative measure of time-varying metabolic activity throughout the scan, based upon quantitative models of glucose and ketone regulation, as well as to be able to implement safety stopping rules (see below), we will obtain pin-prick blood samples three times: prior to the scan, following consumption of the glucose or ketone drink, and following completion of the scan. To assess effects of increased metabolic demand, we measure brain response to cognitive load, transitioning from resting-state to spatial reasoning through a Tetris task. To assess effects of increased metabolic supply, we measure brain response to glucose or ketone bolus.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Insulin Resistance, Healthy, Diet Modification, Aging
Keywords
exogenous ketone, insulin resistance, glucose, diet, aging

7. Study Design

Primary Purpose
Basic Science
Study Phase
Phase 4
Interventional Study Model
Crossover Assignment
Masking
Participant
Allocation
Randomized
Enrollment
80 (Anticipated)

8. Arms, Groups, and Interventions

Arm Title
Metabolic Manipulation via Diet fMRI
Arm Type
Experimental
Arm Description
All subjects are tested three times, each in a different diet-induced metabolic state: glycolytic (glucose burning), fasting (8 hours no food), and ketotic (fat burning). While having their brains scanned with MRI, subjects are initially tested at rest, and then perform a task. Midway through the session, subjects are removed from the scanner and drink up to 75g glucose. Our data analyses quantify network reorganization in response to changing energy constraints (i.e., cognitive demand, fuel).
Arm Title
Metabolic Manipulation via Ketone Supplement fMRI
Arm Type
Experimental
Arm Description
All subjects are tested twice, both times in a fasting condition (8 hours no food, unrestricted water). While having their brains scanned with MRI, subjects are initially tested at rest, and then perform a task. Midway through the session, subjects are removed from the scanner and drink either of two fuel sources. In the ketotic (ketone burning) session they will drink a ketone sports drink dosed at 395mg/kg. During the glycolytic (glucose burning) session the same subjects will drink a bolus of glucose, calorie-matched to the ketones. Our data analyses quantify network reorganization in response to changing energy constraints (i.e., cognitive demand, fuel).
Arm Title
Metabolic Manipulation via Ketone Supplement MR/PET
Arm Type
Experimental
Arm Description
All subjects are tested twice, both times in a fasting condition (8 hours no food, unrestricted water). For both sessions, we will intravenously administer the FDG radioisotope continuously throughout the scan. Thus, PET will map glucose uptake across the brain, while we simultaneously use MRS to measure production of the neurotransmitters glutamine and GABA. While having their brains scanned with MR/PET, subjects are initially tested at rest, and then perform a task. Subjects will drink a ketone sports drink dosed at 395mg/kg. During the glycolytic (glucose burning) session the same subjects will drink a bolus of glucose, calorie-matched to the ketones.
Intervention Type
Drug
Intervention Name(s)
Ketones
Intervention Description
Sports supplement that is administered mid-scan.
Intervention Type
Drug
Intervention Name(s)
Glucose
Intervention Description
Supplement is administered mid-scan.
Primary Outcome Measure Information:
Title
fMRI stability measures: endogenous ketones vs exogenous glucose
Description
BOLD signal measurements will be obtained at baseline and during either a glycolytic, fasting, or ketotic state. We hypothesize that ketones provide the brain with greater baseline access to energy, particularly as individuals age and become insulin resistant, and that subsequent ingestion of glucose disrupts this access. We also expect that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).
Time Frame
Within two weeks of enrollment completion
Title
fMRI stability measures: exogenous ketones vs exogenous glucose
Description
BOLD signal measurements will be obtained at baseline and following either a glucose or ketone supplement. We hypothesize that ketones provide the brain with greater baseline access to energy, particularly as individuals age and become insulin resistant, and that subsequent ingestion of glucose disrupts this access. We also expect that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).
Time Frame
Within two weeks of enrollment completion
Title
PET: glucose uptake and neurotransmitter production with and without ketone supplement
Description
During MR/PET scans, continuous FDG infusion will be used to measure glucose uptake both during rest and task. Magnetic resonance spectroscopy will be used to measure production of neurotransmitters. In individuals who are insulin resistant, we expect to find diminished neurotransmitter levels that will then be replenished through exogenous ketones. We also hypothesize that these effects will become more pronounced when metabolic demands are higher (i.e., task vs resting-state).
Time Frame
Within two weeks of enrollment completion
Secondary Outcome Measure Information:
Title
Cognitive performance will be assessed and correlated with brain stability values and insulin resistance levels
Time Frame
Within two weeks of enrollment completion

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Maximum Age & Unit of Time
79 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Exclusion Criteria: claustrophobia history of neurological disease, heart attack, stroke, kidney disease, or myxedema chronic usage of alcohol current usage of psychotropic medication Type 1 diabetes mellitus Regular consumption of insulin, Metformin® or other medications (statins, NSAIDs, beta-blockers, glucocorticoids) that affect glucose and/or insulin utilization. difficulty swallowing pregnancy breastfeeding For PET: research imaging-related radiation exposure that exceeds current MGH Radiology Radiation Safety Commitee guidelines. Inclusion Criteria: BMI < 30 20/20 vision or correctable to 20/20 with contact lenses MRI compatible For PET with Optional 150 ml Blood Sampling Only: Must weigh at least 110 lbs to minimize risks per PHRC guidelines.
Central Contact Person:
First Name & Middle Initial & Last Name or Official Title & Degree
Lilianne Mujica-Parodi, PhD
Phone
631-371-4413
Email
lilianne.strey@stonybrook.edu
First Name & Middle Initial & Last Name or Official Title & Degree
Antoine Hone-Blanchet, PhD
Email
ahone-blanchet@mgh.harvard.edu
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Lilianne Mujica-Parodi, PhD
Organizational Affiliation
Stony Brook University
Official's Role
Principal Investigator
Facility Information:
Facility Name
Martinos Center for Biomedical Research, Building 149
City
Charlestown
State/Province
Massachusetts
ZIP/Postal Code
02129
Country
United States
Individual Site Status
Recruiting
Facility Contact:
First Name & Middle Initial & Last Name & Degree
Botond Antal, MS
Email
botond.antal@stonybrook.edu
Facility Name
Bioengineering Building , Stony Brook University
City
Stony Brook
State/Province
New York
ZIP/Postal Code
11794
Country
United States
Individual Site Status
Active, not recruiting

12. IPD Sharing Statement

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Dynamic Connectivity Under Metabolic Constraints

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