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Elevated Circulating FFA and Intrahepatic Lipid Content

Primary Purpose

Diabetes, Hepatic Steatosis

Status
Completed
Phase
Not Applicable
Locations
Netherlands
Study Type
Interventional
Intervention
exercise
Sponsored by
Maastricht University Medical Center
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional basic science trial for Diabetes focused on measuring FFA, Liver, steatosis, exercise

Eligibility Criteria

40 Years - 65 Years (Adult, Older Adult)MaleAccepts Healthy Volunteers

Inclusion Criteria:

  • Male sex
  • Age 40-65 years
  • Overweight/obese, BMI 25-35 kg/m2
  • Healthy
  • Stable dietary habits
  • No medication use

Exclusion Criteria:

  • Female sex
  • Fasting plasma glucose >6.1 mmol/l
  • Haemoglobin <7.8 mmol/l
  • Engagement in programmed exercise > 2 hours total per week
  • Elevated liver enzymes: ALAT > 45 U/L, ASAT > 35 U/L, ALP> 140 U/L, Gamma-GT > 70 U/L
  • Hypertension: blood pressure > 140 mmHg systolic or 90 mmHg diastolic
  • First degree relatives with history of liver disease and diabetes mellitus
  • Any medical condition requiring treatment and/or medication use
  • Alcohol consumption of more than 20 g per day (± 2 units)
  • Unstable body weight (weight gain or loss > 3 kg in the past three months)
  • Participation in another biomedical study within 1 month prior to the screening visit
  • Contraindications for MRI scan

Sites / Locations

  • Department of Human Biology, Maastricht University

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Other

Arm Label

Fasted

Glucose-fed

Arm Description

Two-hour cycling test, fasted condition

Two-hour cycling test, glucose-fed condition

Outcomes

Primary Outcome Measures

Intrahepatic lipid content (IHL) and hepatic ATP and PI concentrations
After a baseline MRI/MRS-scan, subjects will cycle for two hours, immediately after cycling another MRI/MRS-scan will be performed and again four hours post exercise. The baseline and the 4-hour post exercise MRI/MRS scans take about 1.5 hour, including both determination of IHL content, by 1H-MRS, and hepatic ATP and Pi concentrations, by 31P-MRS. The MRI/MRS scan performed directly after exercise will take about 45 min, because here only the IHL content will be determined.
Intrahepatic lipid content (IHL) and hepatic ATP and PI concentrations
After a baseline MRI/MRS-scan, subjects will cycle for two hours, immediately after cycling another MRI/MRS-scan will be performed and again four hours post exercise. The baseline and the 4-hour post exercise MRI/MRS scans take about 1.5 hour, including both determination of IHL content, by 1H-MRS, and hepatic ATP and Pi concentrations, by 31P-MRS. The MRI/MRS scan performed directly after exercise will take about 45 min, because here only the IHL content will be determined.

Secondary Outcome Measures

Substrate oxidation and blood plasma levels of FFA, triglycerides, glucose and catecholamines
Substrate oxidation and blood plasma levels of FFA, triglycerides, glucose and catecholamines

Full Information

First Posted
August 2, 2010
Last Updated
November 10, 2015
Sponsor
Maastricht University Medical Center
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1. Study Identification

Unique Protocol Identification Number
NCT01177332
Brief Title
Elevated Circulating FFA and Intrahepatic Lipid Content
Official Title
Effects of Acute Elevation of Circulating Fatty Acids on Hepatic Lipid Accumulation and Metabolism in Healthy Overweight and Obese Men
Study Type
Interventional

2. Study Status

Record Verification Date
November 2015
Overall Recruitment Status
Completed
Study Start Date
April 2010 (undefined)
Primary Completion Date
June 2013 (Actual)
Study Completion Date
June 2013 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Sponsor
Name of the Sponsor
Maastricht University Medical Center

4. Oversight

Data Monitoring Committee
No

5. Study Description

Brief Summary
There is increasing evidence that hepatic lipid content (IntraHepatic Lipid, IHL) markedly increases the risk of metabolic complications, including insulin resistance and cardiovascular events. The investigators hypothesize that the liver is passively taking up free fatty acids (FFA) when the availability is high, thereby leading to an increased storage. To test this hypothesis, the investigators want to manipulate FFA levels, by means of a fasted exercise and recovery protocol, and monitor IHL content and hepatic Adenosine triphosphate (ATP) and inorganic phosphate (Pi) concentrations.
Detailed Description
In the Netherlands and worldwide, the number of individuals suffering from type 2 diabetes mellitus is rising steadily. As a consequence, a dramatic increase in diabetes-related morbidity and mortality can be expected over the next few decades. Accordingly, a concerted effort aimed at reducing diabetes rates and towards effective diabetes management is needed. One of the earliest hallmarks of type 2 diabetes is resistance of the peripheral tissues liver and muscle to the action of insulin, which is generally referred to as insulin resistance. Development of insulin resistance is strongly promoted by obesity. In fact obesity is the major risk factor for insulin resistance, and 80% of all type 2 diabetic patients are overweight or obese. Whereas obesity is by definition characterized by an excessive accumulation of fat in the body, it is specifically the accumulation of fat within peripheral tissues (called steatosis or ectopic fat accumulation), which is associated with the development of insulin resistance. Indeed, type 2 diabetic patients and their first-degree relatives are characterized by excessive accumulation of fat in skeletal muscle. Similarly, the presence of fatty liver in patients with type 2 diabetes and obesity has long been reported. This accumulation of fat in the liver markedly increases the risk for metabolic complications, including insulin resistance and cardiovascular events. Despite the well-known detrimental effects of ectopic fat accumulation, it is not completely understood why fat accumulates in muscle and liver. In recent years, non-invasive methods like proton magnetic resonance spectroscopy (1H-MRS) have been developed for quantifying lipid content in skeletal muscle and the liver, and were frequently applied by us and others. These measurements can be combined with other Magnetic Resonance techniques to investigate hepatic ATP- and Pi concentrations, determined by phosphorus magnetic resonance spectroscopy (31P-MRS). Furthermore, it has been shown that ATP- and Pi concentrations are lower in subjects with type 2 diabetes mellitus, who are characterized by hepatic lipid accumulation and hepatic insulin resistance. It has been suggested that a decreased ATP and Pi concentration may be an underlying factor for hepatic lipid accumulation. Human studies using hepatic 1H-MRS reported that intrahepatic lipid (IHL) content is associated with obesity, the metabolic syndrome and diabetes. Furthermore, a period of 36 hours of fasting increased IHL dramatically. These conditions are characterized by elevated plasma FFA levels. We hypothesize that an increased passive uptake of FFAs can lead to a mismatch between uptake and oxidation when FFA availability is high. Interestingly, results in skeletal muscle show that elevation of FFA levels by lipid infusion result in increased lipid content after 4 hours. Similarly, we showed that skeletal muscle lipid content is increased in the inactive arm muscle after prolonged cycling exercise in the fasted state, where FFA typically increase to up to 1450 mmol. These results suggest that high circulatory FFA levels lead to unrestrained uptake of these FA in skeletal muscle, independent of oxidative needs. Whether IHL accumulation is also the resultant of elevated plasma FFA levels is currently unknown. Please note that in the study cited above, whereas skeletal muscle lipid content increased in the inactive arm muscle, it decreased in the active vastus lateralis muscle, reflecting the use of intramuscular lipid stores as substrate during prolonged muscular activity. Whether intensified use of IHL during exercise also leads to a decrease in IHL is presently unknown.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Diabetes, Hepatic Steatosis
Keywords
FFA, Liver, steatosis, exercise

7. Study Design

Primary Purpose
Basic Science
Study Phase
Not Applicable
Interventional Study Model
Crossover Assignment
Masking
None (Open Label)
Allocation
Randomized
Enrollment
34 (Actual)

8. Arms, Groups, and Interventions

Arm Title
Fasted
Arm Type
Experimental
Arm Description
Two-hour cycling test, fasted condition
Arm Title
Glucose-fed
Arm Type
Other
Arm Description
Two-hour cycling test, glucose-fed condition
Intervention Type
Other
Intervention Name(s)
exercise
Intervention Description
2 hours cycling exercise at 50 % of maximal power output
Primary Outcome Measure Information:
Title
Intrahepatic lipid content (IHL) and hepatic ATP and PI concentrations
Description
After a baseline MRI/MRS-scan, subjects will cycle for two hours, immediately after cycling another MRI/MRS-scan will be performed and again four hours post exercise. The baseline and the 4-hour post exercise MRI/MRS scans take about 1.5 hour, including both determination of IHL content, by 1H-MRS, and hepatic ATP and Pi concentrations, by 31P-MRS. The MRI/MRS scan performed directly after exercise will take about 45 min, because here only the IHL content will be determined.
Time Frame
Day 1
Title
Intrahepatic lipid content (IHL) and hepatic ATP and PI concentrations
Description
After a baseline MRI/MRS-scan, subjects will cycle for two hours, immediately after cycling another MRI/MRS-scan will be performed and again four hours post exercise. The baseline and the 4-hour post exercise MRI/MRS scans take about 1.5 hour, including both determination of IHL content, by 1H-MRS, and hepatic ATP and Pi concentrations, by 31P-MRS. The MRI/MRS scan performed directly after exercise will take about 45 min, because here only the IHL content will be determined.
Time Frame
Day 8
Secondary Outcome Measure Information:
Title
Substrate oxidation and blood plasma levels of FFA, triglycerides, glucose and catecholamines
Time Frame
Day 1
Title
Substrate oxidation and blood plasma levels of FFA, triglycerides, glucose and catecholamines
Time Frame
Day 8

10. Eligibility

Sex
Male
Minimum Age & Unit of Time
40 Years
Maximum Age & Unit of Time
65 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion Criteria: Male sex Age 40-65 years Overweight/obese, BMI 25-35 kg/m2 Healthy Stable dietary habits No medication use Exclusion Criteria: Female sex Fasting plasma glucose >6.1 mmol/l Haemoglobin <7.8 mmol/l Engagement in programmed exercise > 2 hours total per week Elevated liver enzymes: ALAT > 45 U/L, ASAT > 35 U/L, ALP> 140 U/L, Gamma-GT > 70 U/L Hypertension: blood pressure > 140 mmHg systolic or 90 mmHg diastolic First degree relatives with history of liver disease and diabetes mellitus Any medical condition requiring treatment and/or medication use Alcohol consumption of more than 20 g per day (± 2 units) Unstable body weight (weight gain or loss > 3 kg in the past three months) Participation in another biomedical study within 1 month prior to the screening visit Contraindications for MRI scan
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Patrick Schrauwen, Doctor
Official's Role
Study Director
Facility Information:
Facility Name
Department of Human Biology, Maastricht University
City
Maastricht
ZIP/Postal Code
6200 MD
Country
Netherlands

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