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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02474147
Other study ID # G251
Secondary ID
Status Completed
Phase N/A
First received June 2, 2015
Last updated March 26, 2018
Start date August 2015
Est. completion date December 2017

Study information

Verified date March 2018
Source Institute for Clinical and Experimental Medicine
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study is to

1. Compare effects of two isocaloric meals (processed meat hamburger vs. vegetarian sandwich) in response to the postprandial period by using functional brain imaging of reward circuitry implicated in food motivation and energy balance in patients with type 2 diabetes (T2D), obese subjects and healthy controls.

2. Characterize some of the pathophysiological mechanisms of action of different meals in obese and T2D subjects vs. in healthy controls (serum concentrations of glucose, FFA, IRI, C-peptide, gastrointestinal hormones, oxidative stress markers)


Description:

The mesolimbic dopaminergic system of the brain, which converges on the nucleus accumbens (part of the striatum), plays a central role in reward and craving, and this system appears to mediate hedonic food responses. In rodent studies, extracellular concentrations of dopamine and its metabolites in the nucleus accumbens increased more after the consumption of highly palatable food than standard rodent feed pellets. Furthermore, microinjections of opiate into the nucleus accumbens increased food intake and the reward value of food. Clinical studies that used functional brain imaging have reported greater activation in the nucleus accumbens or other regions of the striatum in obese than lean individuals after they viewed or consumed palatable, high-calorie food. Of particular interest, striatal dopamine D2 receptor availability was significantly lower in obese individuals than in nonobese matched controls, which raised the possibility that overeating may compensate for low dopaminergic activity. The recurrent activation of the striatum may down-regulate dopamine availability and further heighten the drive to overeat. However, the information on the exact effect of different foods and nutrients on the mesolimbic dopaminergic system is missing.

Preliminary findings that lead to the project

A positive association between high consumption of total and red meat, especially processed meat, and incidence of T2D has been demonstrated. Previous studies support the concept that increased oxidative stress may play an important role in T2D manifestation. Dietary fat quality has been proposed to be a critical factor. Several studies have suggested that a high intake of saturated fatty acids naturally present in meat contributes to the risk of glucose intolerance. In an intervention study, humans suffering from metabolic syndrome who were consuming a diet rich in saturated fats displayed higher oxidative stress markers postprandially. It is not clear if saturated fatty acids per se or via increased oxidative stress markers may activate the mesolimbic dopaminergic system.

In contrast, some intervention trials (including ours) demonstrated a greater improvement in insulin sensitivity, glycemic control and a reduction in oxidative stress markers in T2D patients consuming a vegetarian diet compared to a conventional diabetic diet. The effect of a vegetarian diet on the mesolimbic dopaminergic system has not been studied yet.

Aims and priorities of the project

The purpose of this study is to

1. Compare effects of two isocaloric meals (processed meat hamburger vs. vegetarian sandwich) in response to the postprandial period by using functional brain imaging of reward circuitry implicated in food motivation and energy balance in patients with type 2 diabetes (T2D), obese subjects and healthy controls.

2. Characterize some of the pathophysiological mechanisms of action of different meals in obese and T2D subjects vs. in healthy controls (serum concentrations of glucose, FFA, IRI, C-peptide, gastrointestinal hormones, oxidative stress markers)

Hypothesis

1. Obese and T2D subjects relative to lean healthy controls will show greater activation in the gustatory cortex and in somatosensory regions in response to the intake of processed meat hamburger (vs. a vegetarian sandwich). However, they will also show decreased activation in the caudate nucleus in response to consumption of processed meat hamburger (vs. a vegetarian sandwich).

2. Changes in serum concentrations of glucose, FFA, IRI, C-peptide, gastrointestinal hormones and oxidative stress markers will be involved in gut-brain axis signaling. The investigators hypothesise to find an association between postprandial changes in serum concentrations of FFA and postprandial changes in activation in the gustatory cortex and in somatosensory regions of the brain.

The actual need for this study The pandemic of obesity and diabetes especially in western countries calls for high-quality research and relevant action. A better understanding of the pathophysiological mechanisms of the stimulation of brain regions involved in reward and craving in response to processed meat, one of the most significant present risk factors for obesity and type 2 diabetes, is needed in order to develop more effective preventive and therapeutic strategies.


Recruitment information / eligibility

Status Completed
Enrollment 60
Est. completion date December 2017
Est. primary completion date July 2017
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Male
Age group 30 Years to 70 Years
Eligibility Inclusion Criteria:

Inclusion criteria for T2D:

1. Type 2 diabetes mellitus for at least one year

2. Treatment of T2D: diet or oral antidiabetic agents (stable drug therapy at least 3 month before the trial

3. The presence of metabolic syndrome - any three of the following symptoms:

- Abdominal obesity - waist circumf. in men> 102 cm, in women > 88 cm

- Diagnosis and treatment of type 2 diabetes or raised fasting plasma glucose level (FPG>5,6 mmol/l)

- Raised blood pressure (BP): systolic BP > 130 mm Hg or diastolic BP >85 mm Hg, or treatment of previously diagnosed hypertension

- Reduced HDL cholesterol in men < 1 mmol/l, in women < 1,3 mmol/l (or treatment)

- Raised triglycerides > 1,7 mmol/l (or treatment)

4. HbA1c (according to IFCC) =4.2 a =10.5%

5. Men and women aged 30-70 years

6. Body Mass Index (kg/m2) in the range of 25- 45

7. The signed informed consent

Exclusion Criteria:

Exclusion criteria for T2D:

1. Type 1 diabetes mellitus

2. Unstable drug therapy at least 3 month before the trial

3. Treatment with Byetta or Victosa

4. Pregnancy (positive ß-HCG test), breast feeding or trying to become pregnant

5. Presence of pacemaker or other metal implant in the body (MR)

6. Alcoholism or drug use

7. Significant weight loss (more than 5% of body weight) in previous 3 months before the screening

8. Presence of other medical condition, which occurs during physical examination, laboratory tests, ECG, including pulmonary, neurological or inflammatory disease, which would be considered by the examiner to distort the consistency of data

9. Metal in the body (fMRI)

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Processed meat hamburger
MacMuffin Fresh 300 ml Cafe Latte + 21 g sugar Energy: 513.6 kcal Carbohydrates 55g (44.8%) Proteins 20.5g (16.7%) Lipids 22 g (38.6%)
Vegan sandwich
Burger with tofu + 300 ml green tea Energy 514.9 kcal Carbohydrates 54.2 g (44%) Proteins 19.9 g (16.2%) Lipids 22.8 g (39.8%)

Locations

Country Name City State
Czechia Institute for Clinical and Experimental Medicine Prague Czech Republic

Sponsors (1)

Lead Sponsor Collaborator
Institute for Clinical and Experimental Medicine

Country where clinical trial is conducted

Czechia, 

Outcome

Type Measure Description Time frame Safety issue
Primary Functional brain imaging of reward circuitry fMRI (functional magnetic resonance imaging) of the brain pre- and postprandially simultaneously with both meal tests with the use of the modern method of arterial spin labeling (ASL) which allows quantification of the blood perfusion of the brain regions involved in craving and reward. 24 months
Secondary Serum concentrations of gastrointestinal hormones Plasma concentrations of selected gut hormones will be measured enzymatically using standard kits 24 months
Secondary Serum concentrations of oxidative stress markers Plasma concentrations of selected oxidative stress markers will be measured enzymatically using standard kits 24 months
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