The Effect of Antioxidants on Skin Blood Flow During Local Heating

Phase 1

Completed

• Conditions: Cardiovascular Diseases; Vasodilation; Cardiovascular Risk Factor
• Interventions: Drug: Apocynin; Drug: Allopurinol; Other: Control (Lactated Ringer's); Drug: Tempol

• Registration Number: NCT03680638
• Lead Sponsor: The University of Texas at Arlington

Brief Summary

The goal of this study is to examine possible mechanisms of impaired vasodilaton in obese and Black/African American men and women as possible links to the elevated prevalence of cardiovascular dysfunction and disease. The main targets in this study are sources of oxidative stress.

Detailed Description

The integrative vascular laboratory has recently observed that the small blood vessels in the skin (the cutaneous microvasculature) in obese (BMI\>30kg/m2), but otherwise healthy individuals, require a greater amount of nitric oxide (NO) to achieve the same degree of dilation when compared to age, gender, and race matched lean (BMI\<25kg/m2) individuals (34). In addition, it is well documented that African Americans have impaired blood vessel function which likely contributes to the elevated risk for developing a variety of cardiovascular and metabolic diseases including coronary artery disease, metabolic syndrome, hypertension and stroke in this population. The cutaneous circulation is recognized as a surrogate vascular bed for assessment of mechanisms underlying systemic vascular disease (7, 20, 22). This is particularly important as microvascular dysfunction is emerging as a critical step in the atherosclerotic process and a variety of conditions including hypertension, exercise intolerance, and insulin resistance (25). Furthermore, impaired cutaneous microvascular function mirrors impaired responses in other vascular beds (7, 12, 20, 22). A primary advantage to utilizing the cutaneous circulation is that it provides an accessible vascular bed through which processes of endothelial function can be systematically and mechanistically investigated, with virtually no risk, through thermal stimuli and local intra-dermal drug infusions. Mechanisms of impaired NO bioavailability have been assessed in various at-risk and diseased populations including, healthy aging, hypertension, postural tachycardia syndrome, hypercholesteremia, and chronic kidney disease (8, 16, 19, 24, 36, 37). Using approaches and techniques similar to those proposed in this application (see below) the findings have implicated that a number of factors, including elevated oxidative stress, contribute to the reduced bioavailability and/or action of NO (8, 16, 19, 24, 36, 37)

The recent findings suggest an impairment in the action of NO on the microvascular smooth muscle of obese young adults (34) as well as in college-aged otherwise healthy African Americans. Local heating is a common method to test nitric oxide-mediated vasodilation (3, 6, 31). Therefore, the investigators propose to test the following hypotheses:

1. Obesity results in impaired blood flow response to local heating and this will also be the case for African Americans.

2. Inhibition of superoxide, a common form of oxidative stress, augments the local heating response in obese individuals as well as in African Americans.

3. Inhibition of sources of superoxide, NADPH-oxidase and/or Xanthine-oxidase, augments skin blood flow local heating response in obese to that of their lean counterparts. This will also be the case for African Americans relative to their Caucasian American counterparts.

Study Timeline

• Study Start: 2016-09-07
• Primary Completion: 2017-10-09
• Study Completion: 2017-10-09
• Status Verified: 2018-09
• Study First Submitted: 2018-09-17
• Study First Submitted QC: 2018-09-19
• Last Update Submitted: 2018-09-19
• Study First Posted: 2018-09-21
• Last Update Posted: 2018-09-21

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 44

Inclusion Criteria

• Individuals (ages 18-35, both genders) will be recruited from the greater Arlington area to participate in the study.
• Must self-report both parents as either African American or Caucasian American.

Exclusion Criteria

• Individuals who have donated more than 550 ml of blood within the past 8 weeks will not have blood drawn from them in this protocol. However, if they remain interested in the study, and otherwise meet the inclusion criteria, than we may still opt to proceed with data collection.
• Individuals with cardiovascular, neurological, and/or metabolic illnesses will be excluded from participating as well as individuals with a history of various diseases of the microvasculature including Reynaud's disease, cold-induced urticaria, cryoglobulinemia, etc.
• Subjects currently taking any prescription medications and individuals with a body mass index about 30 kg/m2) will be excluded.
• Pregnant subjects and children (i.e. younger than 18) will not be recruited for the study. Eligible females will be scheduled for days 2-7 of their menstrual cycle to account for hormonal effects on blood flow. A regular menstrual cycle is required to identify and schedule the study for the low hormone period, therefore females who lack a regular cycle will be excluded from the study. Females currently taking birth control are eligible, as long as they can be scheduled during a low-hormone "placebo" week. If their hormone do not contain a placebo week than these individuals will not be eligible for data collection. Females who are breast-feeding will also be eligible as there are no systemic or lasting effects of the proposed vasoactive agents.
• Given that smoking can affect the peripheral vasculature, current smokers and individuals who regularly smoked (>1 pack per two weeks) within the prior 2 years will be excluded

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Apocynin	Apocynin	This site will only be infused with apocynin (1-(4-Hydroxy-3-methoxyphenyl)ethanone; 100µM) during the local heating stimulus. After the local heating stimulus, this site will be infused with L-NAME (Nω-nitro-L-arginine methylester; 20mM) to inhibit nitric oxide synthase and with SNP (sodium nitroprusside; 28mM) to elicit vasodilation. This will help establish nitric oxide contribution to vasodilation and establish maximal vasodilation for data normalization, respectively.
Allopurinol	Allopurinol	This site will only be infused with tempol (1H-pyrazolo\[3,4-d\]pyrimidin-4(2H)-one; 10µM) during the local heating stimulus. After the local heating stimulus, this site will be infused with L-NAME (Nω-nitro-L-arginine methylester; 20mM) to inhibit nitric oxide synthase and with SNP (sodium nitroprusside; 28mM) to elicit vasodilation. This will help establish nitric oxide contribution to vasodilation and establish maximal vasodilation for data normalization, respectively.
Control (Lactated Ringer's)	Control (Lactated Ringer's)	This site will only be infused with Lactated Ringer's during the local heating stimulus. After the local heating stimulus, this site will be infused with L-NAME (Nω-nitro-L-arginine methylester; 20mM) to inhibit nitric oxide synthase and with SNP (sodium nitroprusside; 28mM) to elicit vasodilation. This will help establish nitric oxide contribution to vasodilation and establish maximal vasodilation for data normalization, respectively.
Tempol	Tempol	This site will only be infused with tempol (4-hydroxy-2,2,6,6-tetramethylpiperidine-1-oxyl; 10µM) during the local heating stimulus. After the local heating stimulus, this site will be infused with L-NAME (Nω-nitro-L-arginine methylester; 20mM) to inhibit nitric oxide synthase and with SNP (sodium nitroprusside; 28mM) to elicit vasodilation. This will help establish nitric oxide contribution to vasodilation and establish maximal vasodilation for data normalization, respectively.

Primary Outcome Measures

Name	Time	Method
Vasodilator Responses to Local Heating with Antioxidant Supplementation	Through study completion, an average of 1 year	Assess the impact of oxidative stress on impaired vasodilation to local heating. This will be elicited using intradermal microdialysis infusions of apocynin, allopurinol, or tempol, all of which are vasoactive substances. The changes in skin blood flux will be quantified using laser Doppler fluxmetry. All changes in flux will be normalized and reported as a percentage of maximal flux.

Trial Locations

Locations (1)

Engineering Research Building; 🇺🇸 Arlington, Texas, United States