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Clinical Trial Details — Status: Not yet recruiting

Administrative data

NCT number NCT06314932
Other study ID # spe123.23
Secondary ID
Status Not yet recruiting
Phase N/A
First received
Last updated
Start date April 2024
Est. completion date June 2025

Study information

Verified date March 2024
Source University of Milan
Contact Daniela Martini
Phone +39 02503 16727
Email daniela.martini@unimi.it
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Mediterranean diet is worldwide promoted as one of the healthiest and most sustainable dietary patterns. One of the main pillars of Mediterranean diet is the abundant consumption of plant-based ingredients typically consumed as raw or minimally processed. However, even in the Mediterranean countries, these fresh foods are increasingly replaced by ultra-processed foods (UPF). Epidemiological evidence suggests that consumption of UPF may be detrimental to human health, but there is only one clinical trial on this topic which is largely debated in the scientific community due to limitations related to the short duration of the trial and the composition of dietary interventions. The present study aims at exploring whether the inclusion of UPF within a Mediterranean-based dietary pattern can impact on cardiometabolic markers, gut microbiota and other health markers in a dietary intervention performed in Italian subjects. For this purpose, 50 clinically healthy subjects will be recruited for a 7-month randomized, open, cross-over dietary trial. Eligible participants will be randomly assigned to consume a 3-month Mediterranean diet high in UPF (intervention group) or a low-UPF Mediterranean diet (control group), spaced by a 1-month wash-out period. The two diets will have the same composition in terms of food groups. However, in the high-UPF Mediterranean diet group, 5 servings/day of UPF, as defined by the NOVA system, will be consumed (e.g., flavored yogurt, breakfast cereals with added sugar, processed meat). In the control group, these foods will be replaced by products from the same food group, but not UPF (e.g., plain yogurt, breakfast cereals with no added sugar, unprocessed meat). The inflammatory potential of pairs of food products, both UPF and non UPF, will be evaluated using an in vitro cell model testing the modulation of inflammatory markers. Before and after each intervention blood, urine and fecal samples will be collected. The primary endpoint is change in low-density lipoprotein (LDL) cholesterol levels from baseline. Among the other markers, blood pressure and anthropometric parameters will be measured; biochemical parameters, adipokines, inflammatory and oxidative stress markers, fecal microbiota composition and short chain fatty acids (SCFAs) will be analyzed. Adherence to the study, dietary intake and food waste production will be evaluated through specific food diaries, useful also for estimating the metabolic food waste.


Recruitment information / eligibility

Status Not yet recruiting
Enrollment 50
Est. completion date June 2025
Est. primary completion date October 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - age >18 years - BMI between 25.0 and 29.9 kg/m2 and the simultaneous presence of at least one of the following criteria, defined by the Guidelines for cardiovascular disease prevention of the European Society of Cardiology: - total cholesterol levels >190 mg/dL - LDL-cholesterol levels >115 mg/dL - triglyceride levels >150 mg/dL - glucose levels in the range 111-125 mg/dL Exclusion Criteria: - presence of current serious illness or unstable condition that requires physician supervision of diet (e.g., recent myocardial infarction, chronic liver disease, inflammatory bowel diseases, renal or digestive disorders) - pregnancy or intention to become pregnant in the next 12 months - lactation - current or recent (past 3 months) use of supplements or antibiotic therapy - current or recent (past 6 months) adoption of specific restrictive diets (e.g., low-calorie or vegetarian diets)

Study Design


Related Conditions & MeSH terms


Intervention

Other:
MD high in UPF
A 3-month dietary intervention with a Mediterranean diet with 5 servings/day of UPF, as defined by the NOVA system (e.g., flavored yogurt, breakfast cereals with added sugar, processed meat).
MD low in UPF
A 3-month dietary intervention with a Mediterranean diet with 5 servings/day of products from the same food group, but non-UPF (e.g., plain yogurt, breakfast cereals with no added sugar, unprocessed meat)

Locations

Country Name City State
Italy University of Florence Florence
Italy University of Milan Milan

Sponsors (3)

Lead Sponsor Collaborator
University of Milan University of Florence, University of Teramo

Country where clinical trial is conducted

Italy, 

Outcome

Type Measure Description Time frame Safety issue
Primary Low-density lipoprotein (LDL) cholesterol levels Measurement of LDL-cholesterol levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Total cholesterol levels Measurement of total cholesterol levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary High-density lipoprotein (HDL) cholesterol levels Measurement of HDL cholesterol levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Triglycerides levels Measurement of triglyceride levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Fasting blood glucose levels Measurement of fasting blood glucose levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Insulin levels Measurement of insulin levels change from the beginning to the end of each of the two intervention phases in U/I 7 months
Secondary Aspartate aminotransferase (AST) levels Measurement of AST levels change from the beginning to the end of each of the two intervention phases in U/I 7 months
Secondary Alanine aminotransferase (ALT) levels Measurement of ALT levels change from the beginning to the end of each of the two intervention phases in U/I 7 months
Secondary Gamma-glutamyl transferase (GGT) levels Measurement of GGT levels change from the beginning to the end of each of the two intervention phases in U/I 7 months
Secondary Folates levels Measurement of folate levels change from the beginning to the end of each of the two intervention phases in ng/mL 7 months
Secondary Vitamin B12 levels Measurement of vitamin B12 levels change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Urea levels Measurement of urea levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Creatinine levels Measurement of creatinine levels change from the beginning to the end of each of the two intervention phases in mg/dL 7 months
Secondary Body weight Measurement of body weight change from the beginning to the end of each of the two intervention phases in kg 7 months
Secondary Body mass index (BMI) Measurement of BMI change from the beginning to the end of each of the two intervention phases. Weight and height will be combined to report BMI in kg/m^2 7 months
Secondary Fat mass Measurement of fat mass change from the beginning to the end of each of the two intervention phases. Percentage of fat mass will be assessed using the Akern bioelectrical impedance analyser (model SE 101). 7 months
Secondary Concentration of ghrelin in plasma Measurement of ghrelin change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Concentration of leptin in plasma Measurement of leptin change from the beginning to the end of each of the two intervention phases in ng/mL 7 months
Secondary Concentration of adiponectin in plasma Measurement of adiponectin change from the beginning to the end of each of the two intervention phases in microg/mL 7 months
Secondary Concentration of resistin in plasma Measurement of resistin change from the beginning to the end of each of the two intervention phases in ng/mL 7 months
Secondary Concentration of visfatin in plasma Measurement of visfatin change from the beginning to the end of each of the two intervention phases in ng/mL 7 months
Secondary Concentration of interleukin (IL)-4 in plasma Measurement of IL-4 change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Concentration of interleukin (IL)-6 in plasma Measurement of IL-6 change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Concentration of interleukin (IL)-10 in plasma Measurement of IL-10 change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Concentration of Protein C-reactive (PCR) in plasma Measurement of protein C-reactive (PCR) change from the beginning to the end of each of the two intervention phases in mg/L 7 months
Secondary Concentration of interferon gamma (IFN-?) in plasma Measurement of IFN-? change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary Concentration of tumor necrosis factor -alpha (TNF-a) in plasma Measurement of TNF-a change from the beginning to the end of each of the two intervention phases in pg/mL 7 months
Secondary DNA damage expressed as number of DNA strand breaks induced by hydrogen peroxide (H2O2) Measurement of H2O2-induced DNA strand breaks change from the beginning to the end of each of the two intervention phases in percentage (%) 7 months
Secondary Concentration of F2-isoprostanes in urine Measurement of F2-isoprostanes change from the beginning to the end of each of the two intervention phases in pg/mosm 7 months
Secondary Gut microbiota composition and function changes Measurement of gut microbiota composition change from the beginning to the end of each of the two intervention phases. Each subject will be asked for a stool sample at the beginning and at the end of each intervention phases in order to analyse the composition of the gut microbiota and short-chain fatty acids production. 7 months
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