Trials / Recruiting

RecruitingNCT06413069

Effects of Almonds in Glucose-intolerant Adults (AGAMEMNON)

Effects of Almonds in Glucose-intolerant Adults - a Randomised Controlled Study on Muscle Mass and Obesity, Energy Metabolism and Lipidome, NON-alcoholic Fatty Liver and Inflammation (AGAMEMNON)

Summary

Tree nuts - such as almonds - contribute to beneficial effects of the Mediterranean diet on risk for cardiovascular events, type 2 diabetes, dyslipidemia, hypertension, inflammation and non-alcoholic fatty liver disease. Almonds provide few carbohydrates, but lots of unsaturated fat and dietary fiber. But to which extent and by which mechanisms may almonds improve all aspects of the Metabolic Syndrome? Previous clinical trials showed weaker effects than rodent studies, most possibly due to low statistical power and metabolically insusceptible patients. The 3-year AGAMEMNON project aims to investigate, if 16 weeks of supplementation with almonds (vs. no treatment) in 150 patients with prediabetes and NAFLD leads to significant improvements in glycemia and liver fat, lipid metabolism, body composition and inflammation. The isocaloric design will outrule effects of weight loss and will allow the analysis of metabolic pathways between fat depots, inflammation, insulin resistance and gut function. Lipidomics are assessed as novel predictor of disease progression and metabolic response.

Detailed description

Background / Significance: T2D affects 5-10 % of the global population, challenging societies, health systems, economy and quality of life. Dietary treatment may avoid disease burdens, save money and protect general health resources, but is often limited to unspecific weight loss recommendations and advise for physical activity. Despite being the common advice, body weight reduction is faced with inconclusive evidence for its impact on long-term risks (obesity paradox?), lack of long-term compliance and irresponsive or ineligible subgroups of patients. The Mediterranean diet provides the ideal dietary composition and reduces CVD risk, improving every axis of the Metabolic Syndrome, including liver fat. It is unclear, though, to which extent tree nuts contribute to this effect. In meta-analyses, almonds improve glycemia and lipids. Benefits on body composition and inflammation are also expected, these might extend to NAFLD. n6-PUFAs (typical components of tree nuts) reduce T2D risk and liver fat in humans. This was shown for sunflower oil, but not yet for nuts. Evidence for NAFLD benefits by almonds in humans is limited to observational studies, post-hoc analyses of mixed interventions, and underpowered RCTs. Aims / Rationale: Nuts are safe for NAFLD patients. Previous data indicate, that almonds may elicit benefits on glycemia and liver fat in patients susceptible to this treatment. Therefore, the investigators' project aims to investigate whole almonds as dietary treatment for glucose intolerance and NAFLD in patients with this typical combined phenotype. NAFLD independently predicts T2D progression and late complications. (Pre)diabetes patients with NAFLD are at higher risk for the entire metabolic syndrome and for early onset of nephropathy and CVD. On the other hand, prediabetes/T2D patients with NAFLD are also especially susceptible to lifestyle treatments. The investigators hypothesize to detect benefits of almonds with respect to glycemia and liver fat, but also lipid metabolism, body composition and inflammation compared to standard diet. Treatment period of 16 weeks is longer than earlier almond studies. The investigators intend to show, that the metabolic improvement is independent from weight loss and, even in the opposite, supports maintenance of muscle mass. The research group wants to investigate mechanistic links between the metabolic pathways of visceral fat accumulation, inflammation, NAFLD, insulin resistance, dyslipidemia and the gut microbiome. Finally, the investigators aim to assess the lipidome (analysed from the erythrocyte membranes, full blood and plasma samples), which was recently established as a novel biomarker to predict disease progression, metabolic response and treatment-specific improvement.

Conditions

• PreDiabetes
• NAFLD

Interventions

Timeline

Start date

2024-05-23

Primary completion

2026-04-01

Completion

2026-07-01

First posted

2024-05-14

Last updated

2024-05-24

Locations

1 site across 1 country: Germany

Source: ClinicalTrials.gov record NCT06413069. Inclusion in this directory is not an endorsement.