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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT04055428
Other study ID # 300003702
Secondary ID R01HL163852
Status Recruiting
Phase Phase 2
First received
Last updated
Start date August 15, 2020
Est. completion date May 31, 2027

Study information

Verified date March 2024
Source University of Alabama at Birmingham
Contact Nehal Vekariya, MS
Phone 205-934-7173
Email nvekariya@uabmc.edu
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Black individuals are more likely to have decreased insulin sensitivity which results in a high risk for the development of cardiometabolic disease. The reasons for this are incompletely understood. Natriuretic peptides (NPs) are hormones produced by the heart that play a role in regulating the metabolic health of an individual. Low circulating level of NPs is an important contributor to increased risk for diabetes. The NP levels are relatively lower among Black individuals thus affecting their metabolic health and putting them at a higher risk for diabetes. This study aims to test the hypothesis that by augmenting NP levels using sacubitril/valsartan, among Black Individuals one can improve their metabolic health (as measured by insulin sensitivity & energy expenditure) and help establish the role of NPs in the underlying mechanism behind increased risk for cardiometabolic disease in these population.


Description:

Black individuals are more likely to have a reduced insulin sensitivity which results in a greater risk for diabetes. However, the reasons for their decreased insulin sensitivity are not clearly understood. Natriuretic peptides (NPs) are hormones produced by the heart that is known to have a wide range of favorable metabolic effects. Studies indicate that lower NP levels are associated with a decreased insulin sensitivity and this may be causally related to the development of diabetes. Evidence suggests that Black individuals have low levels of NPs. Increased clearance of NPs by neprilysin, an NP degrading enzyme, contributes to the low levels of NP among Black individuals. Since NPs play an important role in the regulation of insulin sensitivity and energy expenditure, one can infer that relatively low NP levels are an important biological contributor to the high prevalence rates of cardiometabolic disease in African Americans. Sacubitril/valsartan is an FDA-approved inhibitor of neprilysin that augment NP levels. NP augmentation using sacubitril/valsartan has been shown to improve insulin sensitivity and lipid metabolism in a small clinical trial among obese White individuals. It can be postulated that NP augmentation in populations with relatively low NP levels will help in improving their metabolic health. Improvement in the metabolic health following NP augmentation will also help us to outline the relationship between the NP system and the risk of cardiometabolic disease among Black individuals. We hypothesize that NP augmentation among Black individuals will show an improvement in their metabolic health as measured by insulin sensitivity and energy expenditure. We hypothesize that African American individuals will show an improvement in their insulin sensitivity and their resting & exercise energy expenditure after treatment with sacubitril/valsartan versus valsartan alone. Our study will have the following aims. The first aim is to assess the change in the insulin sensitivity after NP augmentation therapy (using sacubitril/valsartan) as compared with NP neutral therapy (using valsartan) among Black individuals. We will measure the change in insulin sensitivity (assessed using IVGTT) after 12 weeks of intervention. We will also assess the change in NP levels (a marker of NP augmentation) & cyclic guanylate monophosphate (cGMP) levels after intervention and evaluate their relationship with the change in insulin sensitivity. The second aim of our study is to examine the change in the energy expenditure after sacubitril/valsartan as compared to valsartan alone among Black individuals. The individuals enrolled in the first aim will also be examined for the change in resting as well as exercise energy expenditure. This will be assessed using standardized protocol performed using the metabolic cart and an exercise treadmill, at baseline and after 12 weeks of either sacubitril/valsartan or valsartan alone. The secondary aim of our study is to assess the GLP-1 response to meals after treatment with sacubitril/valsartan in Black individuals. We will evaluate the change in postprandial GLP-1 response to meals at baseline and after 12 weeks of either sacubitril/valsartan or valsartan alone.


Recruitment information / eligibility

Status Recruiting
Enrollment 200
Est. completion date May 31, 2027
Est. primary completion date December 31, 2026
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Adults: Age more than or equal to 18 years of age - Self-identified race/ethnicity as African-American or Black - Blood pressure: 120-160/80-100 mmHg Exclusion Criteria: - Women who are pregnant or breastfeeding or who can become pregnant and not practicing an acceptable method of birth control during the study (including abstinence) - Have any past or present history of cardiovascular diseases (stroke, myocardial infarction, heart failure, transient ischemic attack, angina, or cardiac arrhythmia) - BP more than 160/100 mmHg - BMI >45 kg/m2 - History of diabetes or fasting plasma glucose >=126 mg/dL or HbA1C>=6.5% - History of angioedema - Current or past (<12 months) history of smoking - Estimated GFR < 60 ml/min/1.73 m2; albumin-creatinine ratio =30 mg/g - Hepatic Transaminase (AST and ALT) levels >3x the upper limit of normal - Significant psychiatric illness or seizure disorder - More than 2 Alcoholic drinks daily - Anemia (men, Hct < 38%, Hb<13 g/dL; women, Hct <36%, Hb <12 g/dL) - Inability to exercise on a treadmill

Study Design


Intervention

Drug:
Sacubitril, Valsartan 97-103 mg Oral Tablet
The subject will be randomized, in a double-blind manner to sacubitril/valsartan 97/103 mg twice daily for a period of 12 weeks.
Valsartan 160 mg
The subject will be randomized, in a double-blind manner to valsartan 160 mg twice daily for a period of 12 weeks.
Other:
Intravenous Glucose Tolerance Test
An assessment of the insulin sensitivity will be done using the IVGTT, at baseline and after 12 weeks of pharmacological interventions.
Dietary Supplement:
Standardized Meals
Participants will consume the standardized study mixed meal for the assessment of postprandial GLP-1 response to the meal.
Other:
Exercise capacity VO2 maximum determination
Each participant's maximal oxygen capacity will be determined using modified Bruce treadmill protocol.

Locations

Country Name City State
United States University of Alabama at Birmingham Birmingham Alabama

Sponsors (2)

Lead Sponsor Collaborator
University of Alabama at Birmingham National Heart, Lung, and Blood Institute (NHLBI)

Country where clinical trial is conducted

United States, 

References & Publications (4)

Arora P, Reingold J, Baggish A, Guanaga DP, Wu C, Ghorbani A, Song Y, Chen-Tournaux A, Khan AM, Tainsh LT, Buys ES, Williams JS, Heublein DM, Burnett JC, Semigran MJ, Bloch KD, Scherrer-Crosbie M, Newton-Cheh C, Kaplan LM, Wang TJ. Weight loss, saline loa — View Citation

Jordan J, Stinkens R, Jax T, Engeli S, Blaak EE, May M, Havekes B, Schindler C, Albrecht D, Pal P, Heise T, Goossens GH, Langenickel TH. Improved Insulin Sensitivity With Angiotensin Receptor Neprilysin Inhibition in Individuals With Obesity and Hypertens — View Citation

Patel N, Cushman M, Gutierrez OM, Howard G, Safford MM, Muntner P, Durant RW, Prabhu SD, Arora G, Levitan EB, Arora P. Racial differences in the association of NT-proBNP with risk of incident heart failure in REGARDS. JCI Insight. 2019 Jun 4;5(13):e129979 — View Citation

Seferovic JP, Claggett B, Seidelmann SB, Seely EW, Packer M, Zile MR, Rouleau JL, Swedberg K, Lefkowitz M, Shi VC, Desai AS, McMurray JJV, Solomon SD. Effect of sacubitril/valsartan versus enalapril on glycaemic control in patients with heart failure and — View Citation

Outcome

Type Measure Description Time frame Safety issue
Other Change in Metabolomic Profile The change in the metabolomic profile examined using standardized platforms after 12 weeks of intervention. 12 weeks
Primary Change in insulin sensitivity after natriuretic peptide augmentation An assessment of the insulin sensitivity will be done at baseline and after 12 weeks of pharmacological intervention. 12 weeks
Primary Change in energy expenditure after natriuretic peptide augmentation An assessment of the resting energy expenditure will be done at baseline and after 12 weeks of pharmacological intervention. 12 weeks
Secondary Change in exercise energy expenditure after 12 weeks of pharmacological intervention. During standardized protocol after 12 weeks of intervention, the energy expenditure will be calculated using metabolic cart. 12 weeks
Secondary Change in post-meal increase in GLP-1 levels Change in GLP-1 levels after a standardized meal after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in peak oxygen consumption after 12 weeks of pharmacological intervention. Change in the peak oxygen consumption (VO2 max) after 12 weeks of intervention. 12 weeks
Secondary Change in fasting GLP-1 levels Change in fasting GLP-1 levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in natriuretic peptide levels Change in natriuretic peptide levels (ANP, MRproANP, BNP, NTproBNP) after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in measures of insulin sensitivity Change in measures of insulin sensitivity (AIRg, Sg, Kg, Disposition Index) after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in HBA1c levels Change in HBA1c levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in fasting blood glucose levels Change in fasting blood glucose levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in HOMA-IR Change in HOMA-IR after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in fasting insulin levels Change in fasting insulin levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in measures of body mass index Change in the measures of body mass index after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in measures of hip circumference Change in the measures of hip circumference after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in measures of waist circumference Change in the measures of waist circumference after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in measures of adipose tissue mass Change in the measures of adipose tissue mass after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in total cholesterol levels Change in the total cholesterol levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in LDL-C levels Change in LDL-C levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in HDL-C levels Change in HDL-C levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Change in triglyceride levels Change in triglyceride levels after 12 weeks of pharmacological intervention 12 weeks
Secondary Correlation of change in MR-pro atrial natriuretic peptide levels with change in insulin sensitivity after 12 weeks of pharmacological intervention. The exposure-response relationship of change in MR-pro atrial natriuretic peptide levels with change in insulin sensitivity after 12 weeks of intervention will be examined. 12 weeks
Secondary Correlation of change in MR-pro atrial natriuretic peptide levels with change in energy expenditure after 12 weeks of pharmacological intervention. The exposure-response relationship of change in MR-pro atrial natriuretic peptide levels with change in resting and exercise energy expenditure after 12 weeks of intervention will be examined. 12 weeks
Secondary Correlation of change in B-type natriuretic peptide levels with change in insulin sensitivity after 12 weeks of pharmacological intervention. The exposure-response relationship of change in B-type natriuretic peptide levels with change in insulin sensitivity after 12 weeks of intervention will be examined. 12 weeks
Secondary Correlation of change in B-type natriuretic peptide levels with change in resting energy expenditure after 12 weeks of pharmacological intervention. The exposure-response relationship of change in B-type natriuretic peptide levels with change in resting energy expenditure after 12 weeks of intervention will be examined. 12 weeks
Secondary Correlation of change in NT-pro B-type natriuretic peptide levels with change in insulin sensitivity after 12 weeks of pharmacological intervention. The exposure-response relationship of change in NT-pro B-type natriuretic peptide levels with change in insulin sensitivity after 12 weeks of intervention will be examined. 12 weeks
Secondary Correlation of change in NT-pro B-type natriuretic peptide levels with change in energy expenditure after 12 weeks of pharmacological intervention. The exposure-response relationship of change in NT-pro B-type natriuretic peptide levels with change in resting and exercise energy expenditure after 12 weeks of intervention will be examined. 12 weeks
Secondary Impact of Natriuretic Peptide Genotype on Study Endpoints All study outcomes will be analyzed by natriuretic peptide genotypes 12 weeks
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