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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT05217433
Other study ID # 20.22.NRC
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date November 4, 2021
Est. completion date March 10, 2023

Study information

Verified date March 2023
Source Société des Produits Nestlé (SPN)
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Preclinical studies performed at Nestlé Research (NR) identified oleuropein as a novel activator of mitochondrial calcium import. This potentiated mitochondrial calcium uptake resulted in decreased phosphorylation of the enzyme pyruvate dehydrogenase (PDH), which is linked to its activation as a rate limiting enzyme for mitochondrial oxidation, as well as increasing mitochondrial oxygen consumption, resulting ultimately in decreases in muscle fatigue. In addition, NR demonstrated that during aging, mitochondrial calcium and oxygen consumption rates are decreased in isolated skeletal muscle fibers. The next step in the evidence development is to demonstrate efficacy of oleuropein for improved muscle energy and decreased physical fatigue in a healthy aging population.


Recruitment information / eligibility

Status Completed
Enrollment 40
Est. completion date March 10, 2023
Est. primary completion date March 10, 2023
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Male
Age group 50 Years to 70 Years
Eligibility Inclusion Criteria: 1. Male 2. 50 to 70 years old 3. BMI 18.5-29.9 kg/m2 4. Healthy as per medical history and investigator's/ physician's judgement 5. Having given informed consent Exclusion Criteria: 1. Allergy/intolerance to the study product 2. >5% body mass change in the previous 3 months 3. HbA1c = 6.5% 4. Blood pressure >140/90 mmHg 5. Participating in a structured (progressive) exercise program 6. Smoking 7. Diagnosed acute or chronic medical conditions that, in the opinion of the investigator, could impact study outcomes 8. Diagnosed musculoskeletal disorders 9. Chronic use of gastric acid suppressing medication 10. Unauthorized concomitant medications such as calcium antagonists (e.g. valproate), oral corticosteroids, anything that will prevent subjects from safely completing the study according to the investigator or medications / drugs known interfering with the expected mechanism of action of IP or to affect the outcome parameters 11. Alcohol (intake higher than 3 servings per day. One serving is 0.4 dl of alcohol, 1 dl of wine, or 3 dl of beer) or drug abuse 12. Overly imbalanced or restrictive diet (e.g. hyperproteic, vegan, ketogenic, etc.) 13. Subjects not willing and/or not able to comply with scheduled visits and the requirements of the study protocol 14. Any implants that would be a contra-indication for performing an MRI scan. 15. Participation in another study at the same time 16. Blood donation in the past 2 months

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Olive leaf extract
The investigational product is a capsule containing 100mg of the active ingredient oleuropein and will be provided once daily in the form of a 250mg olive leaf extract (i.e. 100mg of oleuropein per day) product for the duration of the intervention period (36 days).
Placebo
The control will be a placebo capsule containing 336 mg of cellulose microcrystalline, matching the investigational product appearance.

Locations

Country Name City State
Netherlands Maastricht University Medical Centre + Maastricht

Sponsors (2)

Lead Sponsor Collaborator
Société des Produits Nestlé (SPN) Maastricht University Medical Center

Country where clinical trial is conducted

Netherlands, 

Outcome

Type Measure Description Time frame Safety issue
Primary Exploratory outcomes - Evaluate the changes in Pyruvate dehydrogenase activation between oleuropein and placebo groups following 1 single dose measured by western blotting Chronic effect after 36 days of intake
Primary Exploratory outcomes - Evaluate the changes in Pyruvate dehydrogenase activation between oleuropein and placebo groups following 1 single dose measured by biochemical assay analysis Acute effect after first product intake + chronic effect after 36 days of intake
Primary Exploratory outcomes - to evaluate the changes Mitocondrial respiration between oleuropein and placebo groups following 1 single dose measured the rates of oxygen consumption (respiration or JO2) using Oroboros Oxygraph 2K systems with physiological ADP concentrations using permeabilized muscle fibres. Acute effect after first product intake + chronic effect after 36 days of intake
Primary Exploratory outcomes- to evaluate the changes of fatigue between oleuropein and placebo groups following 1 single dose measured using Biodex dynamometer After 4 weeks of supplementation
Primary Exploratory outcomes - to evaluate the changes of fatigue between oleuropein and placebo groups measured using Biodex dynamometer Chronic effect (after 29 days of supplementation)
Primary Exploratory outcomes - to evaluate the changes of Pyruvate dehydrogenase activation between oleuropein and placebo groups measured by western blotting Chronic effect (after 36 days of supplementation)
Primary Exploratory outcomes - to evaluate the changes of Pyruvate dehydrogenase activation between oleuropein and placebo groups measured by biochemical assay analysis Chronic effect (after 36 days of supplementation)
Primary Exploratory outcomes - To evaluate the changes of Mitochondrial respiration between oleuropein and placebo groups measured the rates of oxygen consumption (respiration or JO2) using Oroboros Oxygraph 2K systems with physiological ADP concentrations using permeabilized muscle fibres. Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of whole body respiratory exchange ratio (RER) between oleuropein and placebo groups following 1 single dose measured the oxygen and carbon dioxide volume using indirect calorimetry with ventilated hood Acute effect after first product intake+ chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes of oleuropein metabolites between oleuropein and placebo groups following 1 single dose measured by the analyze of oleuropein metabolites in blood Acute effect after first product intake + chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes of glucose concentration between oleuropein and placebo groups following 1 single dose measured by the analyze glucose in blood Acute effect after first product intake + chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes Blood glucose, insulin, free fatty acid concentrations -between oleuropein and placebo groups following 1 single dose measured by the analyze of Insulin in blood Acute effect after first product intake + chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes of free fatty acid concentration between oleuropein and placebo groups following 1 single dose measured by the analyze of free fatty acid concentration (FFA, TG) in blood Acute effect after first product intake + chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes of blood pressure between oleuropein and placebo groups following 1 single dose measured using automated inflatable cuff Acute effect after first product intake + chronic effect after 36 days of intake
Secondary Exploratory outcomes - to evaluate the changes of anti-inflammatory markers between oleuropein and placebo groups measured by the analyze of anti-inflammatory markers in blood Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of Antioxidant markers between oleuropein and placebo groups measured by the analyze of antioxidant markers in blood Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in glucose concentration between oleuropein and placebo groups measured by the analyze glucose in blood Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of insulin concentration between oleuropein and placebo groups measured by the analyze of insulin in blood Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of free fatty acid concentration between oleuropein and placebo groups measured by the analyze of free fatty acid concentration (FFA, TG) in blood Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in Mood state and quality of life between oleuropein and placebo groups measured with the World Health Organisation quality of life questionnaire (WHOQOL-BREF) (rating 0 for 'not at all' and 5 for 'an extreme amount') Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in Mood state and quality of life between oleuropein and placebo groups measured with the Profile of Mood States - short-form (POMS-SF) - scale (rating 0 for 'not at all' and 4 for 'extremely') Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in Mood state and quality of life between oleuropein and placebo groups measured with the Quality of Life (QoL) questionnaires Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in the fatigue perception and mood state pre/post Biodex measurement between oleuropein and placebo groups measured with the current mood questionnaire (rating 0 for 'not at all' - 4 for 'extremely') Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in the fatigue perception and mood state pre/post Biodex measurement between oleuropein and placebo groups RPE visual analog scale Questionnaire - BORG scale (6 for 'no exertion - 20 for 'maximal exertion' Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes to evaluate the changes in body composition between oleuropein and placebo groups measure the whole body muscle and fat content using Magnetic resonance imaging (MRI) Chronic effect (after 29 days of supplementation)
Secondary Exploratory outcomes - Whole body respiratory exchange ratio - To evaluate the changes of Whole body respiratory exchange ratio (RER) between oleuropein and placebo groups measure the oxygen and dioxygen volume using Indirect calorimetry with ventilation hood Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - To evaluate the changes of oleuropein metabolites between oleuropein and placebo groups measure by analyzing Oleuropein metabolites in blood Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of molecular signalling, and protein and mRNA levels of regulators of muscle metabolism between oleuropein and placebo groups measured by analyzing RNAseq and MS-based proteomics Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of molecular signalling, and protein and mRNA levels of regulators oleuropein and placebo groups measured using Western Blot Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes of molecular signalling, and protein and mRNA levels of regulators oleuropein and placebo groups measured by analyzing polymerase chain reaction Chronic effect (after 36 days of supplementation)
Secondary Exploratory outcomes - to evaluate the changes in Strength between oleuropein and placebo groups measured using biodex dynanometer After 4 weeks of supplementation
Secondary Exploratory outcomes to evaluate the changes of strenght between oleuropein measured using biodex dynanometer Chronic effect (after 29 days of supplementation)
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