MedPath

Effects of Acute Dietary Sodium on Cerebrovascular Reactivity and Blood Pressure Reactivity

Not Applicable
Completed
Conditions
Cerebrovascular Reactivity
Blood Pressure
Interventions
Other: Low Sodium Meal (138 mg sodium)
Other: High Sodium Meal (1,495 mg sodium)
Registration Number
NCT03564262
Lead Sponsor
University of Delaware
Brief Summary

Americans eat more salt than is recommended by the American Heart Association. This is important because consuming a high-salt diet is associated with an increased risk of cardiovascular events, like strokes and heart attacks. In fact, consuming one high-salt meal temporarily reduces blood vessel function and it is not uncommon for Americans to consume high-salt meals. Therefore, our laboratory is interested in determining if a single high-salt meal affects 1) brain blood vessel function at rest and 2) blood pressure responses during exercise.

Detailed Description

Excess dietary salt increases the risk of cardiovascular events like strokes and heart attacks, independent of resting blood pressure. Recent data found that consuming one high-salt meal temporarily reduces endothelial function in the periphery. This decrease in endothelial function can lead to an exaggerated blood pressure response during exercise and may also attenuate cerebrovascular reactivity at rest. This is essential, because an exaggerated cardiovascular response to exercise and a decrease in brain blood vessel function at rest are risk factors for future cardiovascular events. The long-term goal is to determine how dietary salt adversely affects BP and cerebrovascular regulation. The objective of this proposal is to evaluate the impact of an acute dietary salt meal on BP response during exercise and cerebrovascular reactivity at rest. The investigators have 2 specific aims: 1) Aim 1 will test the hypothesis that high dietary salt will reduce cerebrovascular reactivity, 2) Aim 2 will test the hypothesis that high dietary salt will augment blood pressure reactivity during exercise. The findings of this project will shed light on how acute dietary salt affects the risk of cardiovascular events during a bout of exercise and long-term risk for cardiovascular disease and stroke.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
37
Inclusion Criteria
  • normal blood pressure
  • males, females, minorities
Exclusion Criteria
  • high blood pressure
  • body mass index (BMI > 30 kg/m2)
  • smokers or nicotine users
  • those who are pregnant or planning to become pregnant
  • allergy to the tomato soup

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
Cerebrovascular ReactivityLow Sodium Meal (138 mg sodium)Cerebrovascular reactivity (CVR) will be assessed using transcranial Doppler ultrasound with carbon dioxide as the vasoactive stimuli. The intervention is to provide subjects with either a low sodium meal (138 mg sodium) and high sodium meal (1,495 mg sodium), in a randomized order. The CVR test will be performed prior to soup consumption as well as after soup consumption.
Cerebrovascular ReactivityHigh Sodium Meal (1,495 mg sodium)Cerebrovascular reactivity (CVR) will be assessed using transcranial Doppler ultrasound with carbon dioxide as the vasoactive stimuli. The intervention is to provide subjects with either a low sodium meal (138 mg sodium) and high sodium meal (1,495 mg sodium), in a randomized order. The CVR test will be performed prior to soup consumption as well as after soup consumption.
Blood Pressure ReactivityLow Sodium Meal (138 mg sodium)Blood pressure responses during dynamic exercise will be assessed. The intervention is to provide subjects with either a low sodium meal (138 mg sodium) and high sodium meal (1,495 mg sodium), in a randomized order. Blood pressure reactivity during dynamic exercise will be assessed after soup consumption.
Blood Pressure ReactivityHigh Sodium Meal (1,495 mg sodium)Blood pressure responses during dynamic exercise will be assessed. The intervention is to provide subjects with either a low sodium meal (138 mg sodium) and high sodium meal (1,495 mg sodium), in a randomized order. Blood pressure reactivity during dynamic exercise will be assessed after soup consumption.
Primary Outcome Measures
NameTimeMethod
Change from Baseline Cerebrovascular Reactivity post soup consumptionPrior to and 60 minutes after soup consumption

Middle Cerebral Artery/ End-tidal Carbon Dioxide (cm/s/mmHg)

Blood Pressure Reactivity- Dynamic Exercise80 minutes after soup consumption

Change in Blood Pressure during dynamic exercise (mmHg)

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

William B Farquhar

🇺🇸

Newark, Delaware, United States

Related Trials

Adverse Neurogenic Actions of Dietary Salt

CompletedNot Applicable
University of Delaware
Posted 8/29/2016
Updated 3/23/2023

Ketone Ester and Acute Salt (KEAS) in Young Adults

RecruitingNot Applicable
Auburn University
Posted 9/19/2022
Updated 8/13/2024

Dietary Salt and Microvascular Function

Unknown StatusNot Applicable
Josip Juraj Strossmayer University of Osijek
Posted 4/4/2016
Updated 4/5/2016

Intervention for Monitoring of Salt Intake in Hypertensive Patients

Unknown StatusNot Applicable
Mahidol University
Posted 5/31/2022
Updated 6/8/2022
© Copyright 2025. All Rights Reserved by MedPath
HomeTerms & ConditionsPrivacy Policy