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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT04971720
Other study ID # IRB-300007789
Secondary ID R01HL160982
Status Recruiting
Phase Phase 2/Phase 3
First received
Last updated
Start date February 18, 2022
Est. completion date January 1, 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

Obese individuals have a higher prevalence of nocturnal hypertension and non-dipping blood pressure (BP). These conditions are associated with an increased risk of cardiovascular (CV) events and death. Natriuretic Peptides (NPs) are hormones produced by the heart which directly regulate BP by causing dilation of blood vessels and by removing sodium and water from the body. NPs have a 24-hour day-night rhythm and this controls the day-night rhythm of BP as well. The NP-BP rhythm relationship is broken down in obese individuals. Obese individuals also have lower circulating NP levels. Lower circulating levels of NPs and elevated renin hormone (a part of the Renin-Angiotensin-Aldosterone System [RAAS]) at nighttime may contribute to the high nocturnal blood pressure in obese individuals which puts them at a higher risk of developing CV events. This current study seeks to determine the biological implications of chronopharmacology for synchronizing NP-RAAS-based blood pressure therapy with the physiological diurnal rhythms to restore the normal diurnal rhythm of blood pressure in obese individuals.


Description:

The investigators have demonstrated that there exists a diurnal rhythm of natriuretic peptides (NPs) which tracks closely with the BP rhythm and is in an antiphase relationship with the rhythm of the RAAS (Renin-Angiotensin-Aldosterone System) hormones. The NP levels are lowest at night, and the renin and aldosterone levels are highest at nighttime. Furthermore, the investigators have demonstrated that obese individuals have a putative deficiency of NPs, and this is due to decreased production alongside increased clearance of NPs. LCZ696 is an FDA-approved inhibitor of neprilysin (an NP degrading enzyme) that augments the NP levels and also suppresses the RAAS. Hence, the confluence of putative NP deficiency among obese alongside the lower levels of NPs at nighttime and the increased activity of RAAS at night may contribute to the high-risk nocturnal non-dipping BP profile among obese individuals. Chronopharmacology (controlling the time of medication administration) to synchronize the NP-RAAS axis targeting anti-hypertensive medications with the inherent biological NP-RAAS-BP rhythm axis may help in controlling the high-risk nocturnal BP non-dipping in obese. Investigators hypothesize that nighttime administration of NP augmenting and/or RAAS inhibition therapy in obese hypertensive individuals will help to improve their nocturnal BP rhythm. The investigators aim to conduct a patient-oriented physiological clinical trial to assess the effect of timing of administration of NP-RAAS axis therapy on restoring the normal BP rhythm. This study is a 2x2 factorial design trial, wherein individuals will be randomized to either daytime dosing or nighttime dosing of either LCZ696 or valsartan. The investigators will study the effect of timing of NP augmenting and/or RAAS inhibiting therapy on the nighttime BP profile in obese hypertensive patients with nondipping nocturnal BP. The investigators will also assess the effect of NP augmentation in an NP deficient population on the nocturnal BP profile, i.e., in obese hypertensives with nondipping nocturnal BP. The investigators will also examine the impact of NP augmenting-RAAS inhibiting therapy on the NP levels and the physiological diurnal rhythms. This study will assess the physiological implications of chronopharmacology of anti-hypertensive therapy and assess a potentially novel approach of using the inherent biological rhythms to reduce the normal BP rhythmicity in a high-risk population


Recruitment information / eligibility

Status Recruiting
Enrollment 160
Est. completion date January 1, 2027
Est. primary completion date January 1, 2027
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Age more than or equal to 18 years of age - Body Mass Index between 30 to 45 kg/m^2 - Blood pressure: Systolic BP more than or equal to 130mmHg and less than or equal to 160mmHg and diastolic blood pressure more than or equal to 80mmHg and less than or equal to 100mmHg. Individuals with hypertension as per the 2017 ACC/AHA Guidelines will be eligible for enrollment Exclusion Criteria: - Age less than 18, at screening. - Systolic BP <130 or >160mmHg at baseline, or diastolic BP <80 or >100 mmHg at baseline - BMI <30 kg/m^2 or >45 kg/m^2 - History of pulmonary hypertension - Have any past or present illness of cardiovascular disease including myocardial infarction, angina, cardiac arrhythmia, diabetes, stroke, TIA, or seizure. - Participants who are taking 3 or more classes of hypertension medications on the maximum dose or with resistant hypertension - History of angioedema - Estimated glomerular filtration rate (GFR) < 60 ml/min/1.73 m2 (CKD-EPI equation); urine albumin creatinine ratio =30 mg/g - Hepatic Transaminase (AST and ALT) levels >3x the upper limit of normal; - Significant psychiatric illness - Anemia (men, Hct < 38%; women, Hct <36%) - Participants working night shifts or swing shifts - 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)

Study Design


Intervention

Drug:
Sacubitril-Valsartan 49 Mg-51 Mg Oral Tablet
The subject will be randomized, in a double-blind manner to sacubitril/valsartan 49/51 mg once in the morning or once in the evening for a period of 28 days.
Valsartan 80 mg Oral Tablet
The subject will be randomized, in a double-blind manner to valsartan 80 mg once in the morning or once in the evening for a period of 28 days.

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 (5)

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 loading, and the natriuretic peptide system. J Am Heart Assoc. 2015 Jan 16;4(1):e001265. doi: 10.1161/JAHA.114.001265. — View Citation

Arora P, Wu C, Hamid T, Arora G, Agha O, Allen K, Tainsh RET, Hu D, Ryan RA, Domian IJ, Buys ES, Bloch DB, Prabhu SD, Bloch KD, Newton-Cheh C, Wang TJ. Acute Metabolic Influences on the Natriuretic Peptide System in Humans. J Am Coll Cardiol. 2016 Feb 23;67(7):804-812. doi: 10.1016/j.jacc.2015.11.049. — View Citation

Bajaj NS, Gutierrez OM, Arora G, Judd SE, Patel N, Bennett A, Prabhu SD, Howard G, Howard VJ, Cushman M, Arora P. Racial Differences in Plasma Levels of N-Terminal Pro-B-Type Natriuretic Peptide and Outcomes: The Reasons for Geographic and Racial Differences in Stroke (REGARDS) Study. JAMA Cardiol. 2018 Jan 1;3(1):11-17. doi: 10.1001/jamacardio.2017.4207. — View Citation

Parcha V, Kalra R, Li P, Oparil S, Arora G, Arora P. Nocturnal blood pressure dipping in treated hypertensives: insights from the SPRINT trial. Eur J Prev Cardiol. 2022 Feb 19;29(1):e25-e28. doi: 10.1093/eurjpc/zwaa125. No abstract available. — View Citation

Parcha V, Patel N, Gutierrez OM, Li P, Gamble KL, Musunuru K, Margulies KB, Cappola TP, Wang TJ, Arora G, Arora P. Chronobiology of Natriuretic Peptides and Blood Pressure in Lean and Obese Individuals. J Am Coll Cardiol. 2021 May 11;77(18):2291-2303. doi: 10.1016/j.jacc.2021.03.291. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Change in mean nocturnal systolic blood pressure Change in mean nocturnal systolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention.
Secondary Change in percent nocturnal dipping blood pressure Change in percent nocturnal dipping blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention.
Secondary Change in 24-hour mean systolic blood pressure Change in 24-hour mean systolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention.
Secondary Change in 24-hour mean diastolic blood pressure Change in 24-hour mean diastolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention.
Secondary Change in mean daytime systolic blood pressure Change in mean daytime systolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in mean daytime diastolic blood pressure Change in mean daytime diastolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in mean nocturnal diastolic blood pressure Change in mean nocturnal diastolic blood pressure will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention.
Secondary Change in the daytime, nocturnal, and total urinary excretion parameters (Urine Sodium, Urine Potassium, Urine Creatinine, Urine Albumin). Change in the daytime, nocturnal, and total urinary excretion parameters (Urine Sodium, Urine Potassium, Urine Creatinine, Urine Albumin) will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in 24-hour, daytime, and nocturnal ANP, BNP, NTproBNP, and renin levels Change in 24-hour, daytime, and nocturnal ANP, BNP, NTproBNP, and renin levels will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in 24-hour, daytime, and nocturnal MRproANP levels Change in 24-hour, daytime, and nocturnal MRproANP levels will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in 24-hour, daytime, and nocturnal Aldosterone levels Change in 24-hour, daytime, and nocturnal Aldosterone levels will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in rhythm parameters (mesor, amplitude, and phase) for ANP, BNP, NTproBNP, renin, and melatonin rhythms. Change in rhythm parameters (mesor, amplitude, and phase) for ANP, BNP, NTproBNP, renin, and melatonin rhythms will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in rhythm parameters (mesor, amplitude, and phase) for MRproANP. Change in rhythm parameters (mesor, amplitude, and phase) for MRproANP will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in rhythm parameters (mesor, amplitude, and phase) for aldosterone rhythms. Change in rhythm parameters (mesor, amplitude, and phase) for aldosterone rhythms will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in rhythm parameters (mesor, amplitude, and phase) for cortisol rhythms. Change in rhythm parameters (mesor, amplitude, and phase) for cortisol rhythms will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
Secondary Change in rhythm parameters (mesor, amplitude, and phase) for systolic BP, and diastolic BP rhythms. Change in rhythm parameters (mesor, amplitude, and phase) for systolic BP, and diastolic BP rhythms will be analyzed in the two study arms (morning vs. evening dose of sacubitril/valsartan or valsartan) from baseline and after 28 days of intervention. At Baseline and after 28 days of intervention
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