Clinical Trials Logo

Clinical Trial Summary

Eating too much salt raises blood pressure and the risk of having a heart attack or stroke. The investigators do not fully understand why salt raises blood pressure, but storage of sodium in the body, particularly in the skin, may be important. For this reason, the investigators wish to study the link between skin sodium, blood pressure and cardiovascular risk in patients with high blood pressure, of different ethnicities, using techniques such as skin biopsy and magnetic resonance imaging (MRI). The results will provide detailed information on skin sodium storage and help us better understand the effects of blood pressure medications on these mechanisms. Ultimately, the investigators aim to develop personalized treatment guidelines for clinical use.


Clinical Trial Description

The physiological basis of salt sensitivity of blood pressure (SSBP) is poorly understood, and determining which patients have SSBP is not straightforward. Furthermore, determining salt sensitivity requires direct intervention tracking changes in blood pressure after salt challenge or depletion over several days. This makes identifying salt-sensitive individuals impractical in a clinical setting, hindering its application. It is crucial that the investigators elucidate the underlying mechanisms of salt-sensitivity, and through this understanding develop a biomarker of SSBP for clinical use. From a review of recent studies it appears that in the short-term, accumulation of skin sodium during high salt intake attenuates the blood pressure response, while in the long-term, high skin sodium levels indicate a tendency for SSBP, hypertension and elevated cardiovascular risk. The reasons for this are not clear and merit further investigation. By refining methods for quantification of skin sodium and expanding its use in hypertension research, the clinicians can improve patient assessment, treatment prescription, and disease monitoring. Using skin biopsy and sodium MRI provides a unique opportunity to study skin sodium handling and SSBP during antihypertensive treatment, and can provide insights into why hypertensives and certain ethnic groups have a higher incidence of SSBP. Sodium MRI may also help increase our understanding of the mechanisms by which diuretics work, both systemically and in the kidney and provide a way to identify salt-sensitive individuals for targeted clinical intervention. Hypotheses: 1. Skin sodium decreases with salt-dependent (diuretic) treatments but not salt-independent (calcium channel blocker) treatments. 2. Diuretic-induced reductions in skin sodium correlate with reductions in blood pressure. 3. Skin sodium is higher in populations traditionally known to be more salt sensitive, such hypertensive patients of black ethnicity. Patients will be enrolled on to a randomised, open-label, two-treatment two-period crossover treatment. The hypertensive medication used in this study are Amlodipine 5 or 10mg and Chlortalidone 25mg. The duration for individual participants will be approximately 16 weeks. Participants will have a total of 7 visits including screening/enrolment (visit 1) and baseline visit (visit 2). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05976438
Study type Interventional
Source Cambridge University Hospitals NHS Foundation Trust
Contact Irene Sambath
Phone 01223 256621
Email irene.sambath@nhs.net
Status Not yet recruiting
Phase N/A
Start date August 2023
Completion date December 2024

See also
  Status Clinical Trial Phase
Terminated NCT04591808 - Efficacy and Safety of Atorvastatin + Perindopril Fixed-Dose Combination S05167 in Adult Patients With Arterial Hypertension and Dyslipidemia Phase 3
Recruiting NCT04515303 - Digital Intervention Participation in DASH
Completed NCT05433233 - Effects of Lifestyle Walking on Blood Pressure in Older Adults With Hypertension N/A
Completed NCT05491642 - A Study in Male and Female Participants (After Menopause) With Mild to Moderate High Blood Pressure to Learn How Safe the Study Treatment BAY3283142 is, How it Affects the Body and How it Moves Into, Through and Out of the Body After Taking Single and Multiple Doses Phase 1
Completed NCT03093532 - A Hypertension Emergency Department Intervention Aimed at Decreasing Disparities N/A
Completed NCT04507867 - Effect of a NSS to Reduce Complications in Patients With Covid-19 and Comorbidities in Stage III N/A
Completed NCT05529147 - The Effects of Medication Induced Blood Pressure Reduction on Cerebral Hemodynamics in Hypertensive Frail Elderly
Recruiting NCT06363097 - Urinary Uromodulin, Dietary Sodium Intake and Ambulatory Blood Pressure in Patients With Chronic Kidney Disease
Recruiting NCT05976230 - Special Drug Use Surveillance of Entresto Tablets (Hypertension)
Completed NCT06008015 - A Study to Evaluate the Pharmacokinetics and the Safety After Administration of "BR1015" and Co-administration of "BR1015-1" and "BR1015-2" Under Fed Conditions in Healthy Volunteers Phase 1
Completed NCT05387174 - Nursing Intervention in Two Risk Factors of the Metabolic Syndrome and Quality of Life in the Climacteric Period N/A
Completed NCT04082585 - Total Health Improvement Program Research Project
Recruiting NCT05121337 - Groceries for Black Residents of Boston to Stop Hypertension Among Adults Without Treated Hypertension N/A
Withdrawn NCT04922424 - Mechanisms and Interventions to Address Cardiovascular Risk of Gender-affirming Hormone Therapy in Trans Men Phase 1
Active, not recruiting NCT05062161 - Sleep Duration and Blood Pressure During Sleep N/A
Completed NCT05087290 - LOnger-term Effects of COVID-19 INfection on Blood Vessels And Blood pRessure (LOCHINVAR)
Not yet recruiting NCT05038774 - Educational Intervention for Hypertension Management N/A
Completed NCT05621694 - Exploring Oxytocin Response to Meditative Movement N/A
Completed NCT05688917 - Green Coffee Effect on Metabolic Syndrome N/A
Recruiting NCT05575453 - OPTIMA-BP: Empowering PaTients in MAnaging Blood Pressure N/A