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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT03227497
Other study ID # EO120/2017
Secondary ID
Status Completed
Phase N/A
First received July 17, 2017
Last updated July 21, 2017
Start date April 21, 2017
Est. completion date July 15, 2017

Study information

Verified date July 2017
Source University of Belgrade
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This cross-over study investigates health effects of dietary intake of whole walnuts towards cardiovascular risk factors in adults under low cardiovascular risk.

Investigators hypothesize that daily intake of whole nuts as a replacement meal, would improve cardiovascular risk factors, including traditional risk factors and molecular biomarkers.

The participants are randomly assigned to receive either study treatment, or no treatment, and are crossed after five weeks.

The study subjects are instructed to continue with their habitual diet and physical activity.


Description:

Recent literature data raise important questions on the beneficial effect of dietary fats. Dietary intake of nuts, although with high caloric burden, is however characterized with high intake of fatty acids with known beneficial health effects. Those fatty acids include mono- (MUFA) and polyunsaturated fatty acids (PUFA), to whom beneficial health effects are ascribed.

Among nuts, walnuts are characterized with comparatively high levels of MUFA and PUFA, especially content of alpha-linolenic PUFA, considered essential fatty acid, since not synthesized endogenously in humans. Dietary intake of alpha-linolenic acid is shown to be inversely related with cardiovascular risk factors, both in interventional studies and epidemiological cohorts. Molecular background of alpha-linolenic actions is bidirectional, and includes the action itself, as well as beneficial endogenous conversion towards long-chain fatty acids, including eicosapentaenoic and docosahexaenoic fatty acid.

Although high caloric intake is indicated with intake of walnuts, literature data suggest that consumption of walnuts does not increase body weight.

Dietary intake of walnuts has been shown to decrease cholesterol fractions, triglycerides and apolipoproteins in adult population. Also, consumption of walnuts was associated with decrease in blood pressure.

The study design is cross-over, controlled, randomized nutritional intervention. The participants are randomly assigned to receive either study treatment, or no treatment, and are crossed after five weeks.

The study subjects are instructed to continue with their habitual diet and physical activity. Additionally, study subjects are instructed to avoid walnuts and nuts other then study treatment, during the complete study period of 10 weeks.

Sample size calculation was conducted by use of online calculators, and was based on the low density lipoprotein (LDL) cholesterol. Namely, in order to achieve decrease in 0.5 mmol/L, in a sample with projected standard deviation of 0.7 mmol/L, and type I and II errors being 0.2 and 0.05, respectively, 62 subjects are needed.


Recruitment information / eligibility

Status Completed
Enrollment 52
Est. completion date July 15, 2017
Est. primary completion date July 15, 2017
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 30 Years to 70 Years
Eligibility Inclusion Criteria:

Presence of at least one of the following criteria, formerly assessed through routine medical examination:

- dyslipidemia, defined as the presence of either: elevated total cholesterol (>5.2 mmoL/L), and/or elevated LDL-cholesterol (>3.4 mmoL/L), and/or elevated triglycerides (>1.7 mmoL/L), and/or decreased HDL-cholesterol (<1.6 mmoL/L)

- elevated blood pressure (systolic/diastolic =120/80 mmHg), or regular anti-hypertension therapy

Exclusion Criteria:

- presence of allergy on any nuts

- presence of any chronic disease, excluding following conditions: hypertension and diabetes mellitus type 2

- smoking

- statin therapy

- pregnancy and/or lactation

Study Design


Intervention

Dietary Supplement:
Whole Walnuts
Intervention arm includes whole walnuts taken as dietary replacement meal during the day, and between breakfast and lunch, and/or lunch and dinner. Importantly, none of the main meals, including breakfast, lunch and dinner are to be replaced by study intervention, and the study subjects are instructed to do so. Walnuts are provided with the same producer at the Belgrade market.

Locations

Country Name City State
Serbia Center of Research Excellence in Nutrition and Metabolism, Institute for Medical Research, University of Belgrade Belgrade

Sponsors (2)

Lead Sponsor Collaborator
University of Belgrade Centre of Research Excellence in Nutrition and Metabolism

Country where clinical trial is conducted

Serbia, 

Outcome

Type Measure Description Time frame Safety issue
Primary Changes in LDL-cholesterol Changes in LDL-cholesterol measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Primary Changes in Systolic Blood Pressure Changes in Systolic Blood Pressure, from baseline to endpoint, measured office-based at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Primary Changes in Diastolic Blood Pressure Changes in Diastolic Blood Pressure from baseline to endpoint, measured office-based at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in HDL-cholesterol Changes in HDL-cholesterol measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in total cholesterol Changes in total cholesterol measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in triglycerides Changes in triglycerides measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in glucose metabolism biomarkers Changes in glucose biomarkers measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in renal function parameters Changes in renal function parameters measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in liver function parameters Changes in liver function parameters measured by clinical bio-analyzer from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in body weight Changes in body weight measured by bio-impedance analyzer, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in waist circumference Changes in waist circumference, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in percent of total body fat Changes in percent of total body fat measured by bio-impedance analyzer, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Level of Physical Activity Level of physical activity is assessed by use of standardized Physical Activity Questionnaire. Baseline
Secondary Psychological parameters Psychological parameters are assessed by use of standardized questionnaire for self-assessment of psychological implications of daily activities related to cardiovascular health . 5 weeks
Secondary Changes in hematological parameters Changes in hematological, from baseline to endpoint, measured by hematological clinical analyzer at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in number of leukocyte cells Changes in number of leukocyte cells, from baseline to endpoint, measured by hematological clinical analyzer at the following timepoints: 0 (baseline), 5 and 10 weeks. Baseline, 5 weeks, 10 weeks
Secondary Changes in total caloric intake Changes in total caloric intake, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks.
Total caloric intake is measured by use of standardized dietary questionnaire namely 24-hour Dietary Recall.
Baseline, 5 weeks, 10 weeks
Secondary Changes in caloric intake of fats Changes in caloric intake of fats, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks.
The caloric intake is measured by use of standardized dietary questionnaire, namely 24-hour Dietary Recall.
Baseline, 5 weeks, 10 weeks
Secondary Changes in caloric intake of carbohydrates Changes in caloric intake of carbohydrates, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks.
The caloric intake is measured by use of standardized dietary questionnaire, namely 24-hour Dietary Recall.
Baseline, 5 weeks, 10 weeks
Secondary Changes in caloric intake of vitamin D Changes in caloric intake of vitamin D, from baseline to endpoint, measured at the following timepoints: 0 (baseline), 5 and 10 weeks.
The caloric intake is measured by use of standardized dietary questionnaire, namely 24-hour Dietary Recall.
Baseline, 5 weeks, 10 weeks
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