Clinical Trials Logo

Clinical Trial Summary

The main purpose of this interventional study is to examine differences in resting blood pressure control between healthy males and females. The main questions it aims to answer are: 1. Are there sex differences in the communication between the sympathetic nervous system (also known as the "fight or flight" response) and peripheral blood vessels (which influence systemic blood pressure)? 2. What is the role of specific vascular receptors that respond to sympathetic signals, and is it different between males and females? Participants will complete one study visit of approximately 3 hours where they will: - Have a blood sample taken to measure circulating sex hormone and sympathetic transmitters. - Receive very small doses of medications commonly used to adjust blood pressure through an artery in their arm. The effects of these medications will be short-acting and localized to the forearm. - Have their sympathetic nervous activity directly measured through two very small needles (similar to acupuncture needles) in the side of their leg. - Have their blood pressure and heart rate recorded, and forearm blood flow measured using ultrasound.


Clinical Trial Description

Blood pressure is in part regulated by activity of your sympathetic nervous system (also known as your "fight or flight" response). Sympathetic nerve activity affects the size of your blood vessels, which in turn will affect your blood pressure. This communication between sympathetic impulses and the resulting change in vascular resistance is termed "sympathetic neurovascular transduction". In other words, transduction represents the reactivity of the blood vessels in response to individual sympathetic bursts of activity. Males and females regulate their blood pressure in different ways; for example, females tend to have lower blood pressure and sympathetic nerve activity than males. Females also appear to have less constriction of their blood vessels in response to stress. This may be due to differences in the receptors which are activated by the sympathetic nervous system. These receptors are called α and β-adrenergic receptors and are located on vascular smooth muscle cells. They respond to sympathetic neurotransmitters such as norepinephrine in opposite directions: α-adrenoreceptors cause vasoconstriction (and an increase in vascular resistance), and β-adrenoreceptors cause vasodilation (and a decrease in vascular resistance) in part through the endothelium-dependent nitric oxide pathway. Current evidence suggests that β-adrenergic receptors are more sensitive in females and contribute to paradoxical vasodilation when α-adrenergic receptors are stimulated by norepinephrine from sympathetic bursts. It has also been suggested that estrogen interacts with adrenergic receptors, contributing to this sex difference. This study will contribute to the understanding of sex differences in cardiovascular physiology and may have implications for clinical cardiovascular conditions. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05997732
Study type Interventional
Source University of Alberta
Contact Emily Vanden Berg, MSc
Phone (780)-492-5553
Email ervanden@ualberta.ca
Status Recruiting
Phase Phase 4
Start date October 31, 2023
Completion date September 1, 2024

See also
  Status Clinical Trial Phase
Completed NCT03680638 - The Effect of Antioxidants on Skin Blood Flow During Local Heating Phase 1
Active, not recruiting NCT06454084 - Investigation of Endothelium-dependent Vasodilation in Human Gingiva N/A
Recruiting NCT06117007 - Effects of Betalains on Cardiovascular Health and Quality of Life N/A
Completed NCT03659864 - The Role of Eicosanoids in the Cardiovascular Actions of Inhaled Nanoparticles N/A
Completed NCT03459027 - Nitrate Supplementation and Muscle Blood Flow N/A
Recruiting NCT04255160 - Impact of Estradiol on Endothelial Function in Peri-Menopausal Women Phase 4
Recruiting NCT05522075 - Reducing Blood Pressure in Mid-life Adult Binge Drinkers N/A
Completed NCT00184886 - The Influence of Methotrexate on the Metabolism and Vascular Effects of Adenosine in Humans N/A
Completed NCT02292342 - An Investigation of the Dose-dependent Vascualr Effects of (-)-Epicatechin in Healthy Men Phase 0
Completed NCT02095873 - Healthy Aging Through Functional Food Phase 1/Phase 2
Completed NCT00901745 - Interaction of Apelin and Angiotensin in the Human Forearm Circulation N/A
Not yet recruiting NCT06290713 - Vasodilator and Exercise Study for DMD (VASO-REx) Phase 2
Completed NCT02265107 - Effects of Exercise Training on Vascular Endothelial Function of Patients Submitted to Coronary Artery Bypass Graft N/A
Recruiting NCT05219799 - Sex Disparities in Hypoxic Vasodilation and Impact of Obesity Early Phase 1
Completed NCT03622060 - Intraarterial Nitroglycerin Versus Nicardipine and Radial Artery Occlusion Phase 3
Not yet recruiting NCT06417177 - Impact of Early Aging and Menopause on the Vascular Responses to Hypoxia Early Phase 1
Completed NCT01618071 - Vascular Effects of Triglyceride-rich Lipoproteins N/A
Completed NCT03190304 - The Effect of Neprilysin (LCZ696) on Exercise Tolerance in Patients With Heart Failure Phase 4
Completed NCT04928183 - The Impact of Carbon Monoxide and Altitude on Vascular Function N/A
Suspended NCT04001647 - Targeting ER Stress in Vascular Dysfunction Early Phase 1