Almonds and Health Effects on Metabolism, Vascular Function and Cognition

Not Applicable

Completed

• Conditions: Impaired Glucose Tolerance; PreDiabetes; Impaired Fasting Glucose; Overweight and Obesity
• Interventions: Dietary Supplement: Almonds

• Registration Number: NCT03419702
• Lead Sponsor: Maastricht University Medical Center

Brief Summary

The primary objective of the proposed study is to examine and understand the impact of long-term almond consumption on chronic glucose metabolism in subjects with impaired glucose tolerance and/or impaired fasting glucose.

Detailed Description

Objectives:

Secondary objectives are to investigate if improved chronic glucose metabolism in subjects with impaired glucose tolerance and/or impaired fasting glucose after long-term almond consumption translates into improved peripheral and brain vascular function, and enhanced cognitive performance. In addition, the investigators will address to what extent improved chronic glucose metabolism in subjects with impaired glucose tolerance and/or impaired fasting glucose after long-term almond consumption can be explained by (combined) effects of lowered hepatic lipid accumulation and inflammation, skeletal muscle characteristics, visceral and subcutaneous fat accumulation, pancreatic function or fecal microbiota composition.

Study design:

The proposed study will be a 12 months randomised, controlled trial with a cross-over design. Two experimental periods of five months will be separated by a two months washout period.

Study population:

Forty-three impaired glucose tolerant and/or impaired fasting glucose subjects, with overweight and mild obesity (BMI 25-35 kg/m2), aged 40-70 years.

Intervention:

During the intervention period of 5 months, subjects will receive daily 50 gr almonds, but not in the 2 months washout and 5 months control periods.

Study Timeline

• Study First Submitted: 2018-01-09
• Study Start: 2018-01-10
• Study First Submitted QC: 2018-01-26
• Study First Posted: 2018-02-05
• Primary Completion: 2021-12-03
• Study Completion: 2021-12-03
• Status Verified: 2022-03
• Last Update Submitted: 2022-03-03
• Last Update Posted: 2022-03-04

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 43

Inclusion Criteria

• Aged between 40-70 years
• Men and women
• BMI between 25-35 kg/m2 (overweight and obese)
• Being classified as having impaired glucose tolerance (IGT) and/or impaired fasting glucose (IFG). IGT is defined according the criteria of the WHO and American Diabetes Association (ADA) as two-hour glucose concentrations of 7.8 to 11.0 mmol/l (140 to 199 mg per dL) during the 75-g oral glucose tolerance test. IFG is defined as having a fasting plasma glucose between 6.1 and 7.0 mmol/l (110 to 125 mg per dL) and a two-hour glucose concentration below 7.8 mmol/l (140 mg per dL).
• Serum total cholesterol < 8.0 mmol/L (further testing is recommended for excessive hyperlipidemia [serum total cholesterol ≥ 8.0 mmol/L] according to the Standard for cardiovascular risk management of the Dutch general practitioners community [NHG])
• Serum triacylglycerol < 4.52 mmol/L
• No current smoker
• No diabetic patients
• No familial hypercholesterolemia
• No abuse of drugs
• Not more than 4 alcoholic consumption per day with a maximum of 21 per week
• Stable body weight (weight gain or loss < 3 kg in the past three months)
• No use of medication known to treat blood pressure, lipid or glucose metabolism
• No use of an investigational product within another biomedical intervention trial within the previous 1-month
• No severe medical conditions that might interfere with the study, such as epilepsy, asthma, kidney failure or renal insufficiency, chronic obstructive pulmonary disease, inflammatory bowel diseases, auto inflammatory diseases and rheumatoid arthritis
• No active cardiovascular disease like congestive heart failure or cardiovascular event, such as an acute myocardial infarction or cerebrovascular accident
• Willingness to give up being a blood donor from 8 weeks before the start of the study, during the study and for 4 weeks after completion of the study
• No difficult venipuncture as evidenced during the screening visit
• Willing to comply to study protocol during study
• Informed consent signed

Exclusion Criteria

• Allergy or intolerance to almonds
• Serum total cholesterol ≥ 8.0 mmol/L
• Serum triacylglycerol ≥ 4.52 mmol/L
• Current smoker, or smoking cessation <12 months
• Diabetic patients
• Familial hypercholesterolemia
• Abuse of drugs
• More than 4 alcoholic consumptions per day or 21 per week
• Unstable body weight (weight gain or loss > 3 kg in the past three months)
• Use medication known to treat blood pressure, lipid or glucose metabolism
• Use of an investigational product within another biomedical intervention trial within the previous 1-month
• Severe medical conditions that might interfere with the study, such as epilepsy, asthma, kidney failure or renal insufficiency, chronic obstructive pulmonary disease, inflammatory bowel diseases, auto inflammatory diseases and rheumatoid arthritis
• Active cardiovascular disease like congestive heart failure or cardiovascular event, such as an acute myocardial infarction or cerebrovascular accident
• Not willing to give up being a blood donor from 8 weeks before the start of the study, during the study or for 4 weeks after completion of the study
• Not or difficult to venipuncture as evidenced during the screening visit
• Use of over-the-counter and prescribed medication or supplements, which may interfere with study measurements to be judged by the principal investigator;
• Use of oral antibiotics in 40 days or less prior to the start of the study;
• Blood donation in the past 3 months before the start of the study
• Not willing to comply to study protocol during study or sign informed consent

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Experimental	Almonds	Almonds

Primary Outcome Measures

Name	Time	Method
Insulin sensitivity	Change from control period (week 22 and week 52)	Glucose infusion rate during a hyper-insulinemic euglycemic clamp.

Secondary Outcome Measures

Name	Time	Method
Blood pressure	Blood pressure will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Systolic and diastolic blood pressure.
Pulse Wave Analysis	Change from control period (week 21 and week 51)	Vascular function (arterial stiffness).
Pulse Wave Velocity	Change from control period (week 21 and week 51)	Vascular function (arterial stiffness).
Nitric oxides concentrations	Change from control period (week 21 and week 51)	Concentrations of NOx will be determined in blood samples.
Glucose concentrations	Glucose will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Fasting plasma glucose concentrations will be determined in blood samples.
Markers for fasting lipid metabolism	These markers will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Markers for fasting lipid metabolism include serum total cholesterol (mmol/L), HDL cholesterol (mmol/L), and triacylglycerol (mmol/L) concentrations.
LDL cholesterol concentrations	These markers will be calculated from measurements at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Fasting LDL cholesterol concentrations will be determined in blood samples using the Friedewald equation.
C-reactive protein concentrations	CRP will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Concentrations of CRP will be determined in blood samples.
Markers for low-grade systemic inflammation	Change from control period (week 21 and week 51)	Markers for low-grade systemic inflammation include IL-6, IL-8, TNF-alpha and SAA.
Lipid oxidation	Indirect calorimetry will be performed at week 21, week 22, week 51, week 52 at several time slots.	Energy expenditure and substrate metabolism will be calculated from measurements via indirect calorimetry during the postprandial test.
Glucose oxidation	Indirect calorimetry will be performed at week 21, week 22, week 51, week 52 at several time slots.	Energy expenditure and substrate metabolism will be calculated from measurements via indirect calorimetry during the postprandial test.
Body weight	Body weight will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Body weight in kg.
Body circumferences	Waist and hip circumferences will be measured at week 0, week 5, week 10, week 21, week 22, week 30, week 35, week 40, week 51, week 52	Waist and hip circumferences.
Markers for endothelial dysfunction	Change from control period (week 21 and week 51)	Markers for endothelial dysfunction include sVCAM-1, sICAM-1 and soluble E-selectin.
Markers for postprandial lipid metabolism	Change from control period (week 21 and week 51)	Markers for postprandial lipid metabolism include triacylglycerol (mmol/L) and NEFA concentrations.
Markers for liver function	Change from control period (week 21 and week 51)	Markers for liver function include ALAT and ASAT concentrations.
Cognitive performance	Cognition will be tested at week 0, week 10, week 21, week 30, week 40, week 51.	Cambridge Neuropsychological Test Automated Battery.
Markers for fasting and postprandial glucose and insulin metabolism	Change from control period (week 21 and week 51)	Markers for fasting and postprandial glucose and insulin metabolism include plasma glucose, serum insulin, C-peptide and HbA1c concentrations. Also HOMA-IR will be calculated.
Markers for nerve growth	Change from control period (week 21 and week 51)	Markers for nerve growth include BDNF concentrations.
Markers for advanced glycation endproducts	Change from control period (week 21 and week 51)	Markers for advanced glycation endproducts include dicarbonyl, CML, CEL and MG-H1 concentrations.
Microbiota composition	Change from control period (week 21 and week 51)	Fecal samples to be used for analysing microbiota composition will be collected.
Retinal microvascular caliber	Change from control period (week 21 and week 51)	Arteriovenous ratio and diameter of retinal arterioles and venules will be measured by retinal microvascular imaging.
Fat distribution in abdomen	Change from control period (week 22 and week 52)	Magnetic Resonance Imaging measurements will be included to quantify abdominal fat compartments (i.e. subcutaneous and visceral fat) and fat content of abdominal organs (i.e. liver and pancreas).
Biopsies adipose tissue	Change from control period (week 22 and week 52)	Fat biopsies to examine fat cell size and inflammation in adipose tissue.
Biopsies muscle tissue	Change from control period (week 22 and week 52)	Muscle biopsies to examine mitochondrial function.
Cerebral blood flow	Change from control period (week 22 and week 52)	Arterial Spin labeling will be performed to determine cerebral blood flow.
Blood pressure profiles	Change from control period (week 21 and week 51)	Blood pressure profiles will be measured for 48 hr via a Mobil-O-Graph.
Physical activity profiles	Change from control period (week 21 and week 51)	Physical activity patterns will be monitored for 48 hr with the MOX device.
General well-being	General well-being will be tested at week 0, week 10, week 21, week 30, week 40, week 51.	Quality of life and Affect grid questionnaires will be assessed.
Food frequency	Food frequency will be tested at week 0, week 10, week 21, week 30, week 40, week 51.	Food frequency questionnaire will be assessed.
Glucose profiles	Change from control period (week 21 and week 51)	Glucose profiles will be measured for 48 hr using the FreeStyle Libre Pro.
Skinfold measurements	Change from control period (week 22 and week 52)	Calliper testing for determining body fat composition.

Trial Locations

Locations (1)

Maastricht University, Department of Nutrition and Movement Sciences; 🇳🇱 Maastricht, Limburg, Netherlands