- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT02966665
: Vascular Function in Health and Disease
Vascular Function in Health & Disease: Rehabilitation for Hypertension; Exercise and Skeletal Muscle Afferent Feedback
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
Angiotensin-II (ANG-II) is the end-product of the renin-angiotensin cascade, and acts as a potent endogenous vasoconstrictor through binding to the angiotensin receptor (AT1) on arteriolar vascular smooth muscle. With advancing age, there is a notable decline in plasma renin activity accompanied by decrements in circulating ANG-II and an increase in AT1 receptor density. However, the functional consequence of this age-related adaptation of the renin-angiotensin system (RAS) on the peripheral circulation is not well understood. Likewise, in recent years it has become apparent that cardiovascular disease is a major cause of morbidity in COPD, which may be related to vascular dysfunction and associated adoption of a sedentary lifestyle. In these patients, changes in RAS activity have been linked to peripheral vascular dysfunction, with compelling evidence for improvements in peripheral oxygen use following angiotensin-converting enzyme (ACE) inhibition. Like the aging population, systematic studies evaluating AT1 receptor sensitivity and the efficacy of AT1 receptor blockade on peripheral hemodynamics have not been undertaken.
The ubiquitous substance nitric oxide (NO) is now recognized as a key pathway for endothelium-dependent vasodilation, with the bioavailability of NO serving as an indicator for overall vascular health. Cardiac risk factors have been shown to cause impairment in endothelial vasodilator function in both the peripheral and coronary arteries. Coronary vascular dysfunction is an important phase in atherogenesis and is associated with myocardial ischemia. Furthermore, peripheral vascular function has been linked to coronary vascular dysfunction which could have important clinical implications in terms of health screening. Impaired endothelium-dependent vasodilation has been associated with the elderly, patients with COPD, and most cardiovascular diseases including pulmonary hypertension, and heart failure (HF), though the functional consequence of this adaptation on peripheral blood flow regulation remains unclear. Thus, we propose the use of a compound which inhibits the enzyme responsible for NO production in endothelial cells, N-monomethyl-L-arginine (L-NMMA), to temporarily block production of NO and thus determine the importance of this pathway at rest and during physical activity. Additionally, we propose the use of acetylcholine (Ach) to determine endothelial-dependent vasodilation and sodium nitroprusside (SNP) and nitroglycerin (NTG) to determine the endothelial-independent vasodilation in the coronary arteries and the periphery. Oxidative stress associated with aging has been shown to reduce vascular function and antioxidant supplementation restores vascular function to levels that are indistinguishable from healthy young adults. The manner by which this improvement in vascular function occurs is not known by may be acting through a NO dependent mechanism.
Histamine has been reported to mediate sustained post-exercise vasodilation through histamine-1 (H1) and histamine-2 (H2) receptor activity, which results in a ~50% elevation in femoral artery blood flow (above resting levels) that lasts for more than 100 minutes after a single bout of moderate-intensity dynamic exercise. Vasodilation can be markedly reduced by giving either fexofenadine (Allegra, a selective H1-receptor antagonist) or ranitidine (Zantac, a selective H2-receptor antagonist). The combination of H1/H2 blockade abolishes ~80% of the post-exercise vasodilation seen after whole-body exercise such as cycling and this observation has been observed in multiple studies in young sedentary, recreationally active, and endurance trained men and women. The impact of histamine on the post-exercise vasodilatory response is substantial; however, the role of H1/H2 receptors in regulating skeletal muscle blood flow during exercise is unknown. Thus, we intend to investigate the role of H1/H2 receptors in the regulation of skeletal muscle blood during exercise as this may be an important pathway in age and disease related reductions in blood flow during exercise.
Exercise training and rehabilitation can be used as an alternative approach to combat the deleterious effects oxidative stress on aging and disease. An effective exercise training intervention can decrease sympathetic nervous system activity, improve arterial compliance and vascular endothelial function, and alter the pro- and antioxidant balance resulting in improved endogenous antioxidant defense mechanisms. Moreover, exercise training concomitantly improves musculoskeletal strength and function, glucose regulation and insulin sensitivity, cardiovascular function, body composition, blood chemistry (decreased triglyceride and cholesterol levels), and overall well-being. The physiologic effect of an exercise rehabilitation program in diseases such as COPD, and pulmonary arterial hypertension (PAH) is incompletely understood. However, recent studies suggest that exercise training in this patient population is well tolerated and associated with clinically significant physiologic improvements as well as improvements in various quality of life scores.
A unique feature of the proposed studies identified herein is the inclusion of a novel methodological approach to comprehensively evaluate the functional outcome of the proposed pharmacologic interventions. The recent development of a unique combination of nuclear magnetic resonance (NMR) techniques by members of our group enables near-simultaneous measurements of both muscle perfusion and metabolism in vivo. The arterial spin labeling (ASL) technique allows the measurement of both spatially and temporally resolved quantification of perfusion, while the kinetics of phosphocreatine (PCr) depletion and recovery provide high resolution measurements of muscle energetics. The interweaving of these imaging and spectroscopic modules provides the opportunity for determination of skeletal muscle perfusion and metabolism kinetics during and following the stress of physical exercise. Thus, this NMR-based approach, combined with direct measures of muscle fatigue, offers the potential to further define the individual and collective contribution of these variables to the attenuated limb blood flow in the elderly and in patients with COPD and PAH.
We propose that each of these pathways outlined above represent an avenue by which vascular function is compromised in the elderly and in patients with COPD, PAH and cardiovascular disease. However, because these pathways are not mutually exclusive, the proposed studies are designed to systematically evaluate hemodynamic responses to intra-arterial or intravenous administration of pharmacologic agents specific for the AT1 receptor (ANG-II and Diovan, AT1 agonist and antagonist, respectively), the Endothelin receptor Type-A (ETA receptor) (BQ-123, ETA antagonist), and the NO pathway (L-NMMA, Ach, and SNP) both before and after exercise training.
Study Type
Enrollment (Estimated)
Phase
- Phase 1
Contacts and Locations
Study Contact
- Name: Maydeen Ogara
- Phone Number: 801-584-2522
- Email: maydeen.ogara@hsc.utah.edu
Study Locations
-
-
Utah
-
Salt Lake City, Utah, United States, 84132
- Recruiting
- George E Wahlen VA Medical Center
-
Contact:
- Russell Richardson, Ph.D.
- Phone Number: 801-582-1565
- Email: r.richardson@hsc.utah.edu
-
Contact:
- Ashley Nelson, MD
- Phone Number: 4127 801-582-1565
- Email: ash.nelson@hsc.utah.edu
-
-
Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Description
Inclusion Criteria:
- Healthy Young Volunteers: 18-30 years of age with no diseases or conditions that would affect their participation in the study
- Healthy Older Controls: volunteers 65 years of age or older with no diseases or conditions that would affect their participation in the study
- Coronary Angiography subjects: patients undergoing routine coronary angiography
- Chronic Obstructive Pulmonary Disease subjects: patients diagnosed with mild to moderate COPD
- Pulmonary Arterial Hypertension subjects: patients with idiopathic or heritable Group 1 pulmonary arterial hypertension
- Heart Failure subjects: patients with Class I, II or III New York Heart Association symptoms of Heart Failure
- Hypertension subjects: patients diagnosed with chronic high blood pressure
Exclusion Criteria:
- Severe COPD (use of supplemental oxygen, or have a one-second forced expiratory volume of less than 30% predicted)
- History of myocardial infarction
- History of percutaneous coronary revascularization
- History of coronary artery bypass grafting
- Unstable angina pectoris
- History of variant angina
- Ejection fraction < 50%
- Significant renal disease (Glomerular Filtration Rate < 50 mL/min/1.73m2)
- Subjects whose medical care or safety may be at risk from undergoing a Magnetic Resonance Imaging examination (e.g. pacemaker, metal implants, certain types of heart valves)
- Subject is pregnant
- Subject has physical ailments (other than COPD, PAH, HF, or hypertension) that would prevent them from study participation in the judgment of the investigator
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Basic Science
- Allocation: Non-Randomized
- Interventional Model: Parallel Assignment
- Masking: None (Open Label)
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
Experimental: Healthy Young Volunteers (18-30 years)
Healthy volunteers between the ages of 18 and 30 years with no diseases or conditions that would affect their participation in the study, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Healthy Older Controls (over 65 years)
Healthy volunteers 65 years of age or older with no diseases or conditions that would affect their participation in the study, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Coronary Angiography patients
Patients undergoing routine coronary angiography, but who do not require intracoronary procedures or have history of myocardial disease, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Chronic Obstructive Pulmonary Disease patients
Patients diagnosed with mild to moderate COPD, but not severe COPD patients, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Pulmonary Arterial Hypertension patients
Patients with idiopathic or heritable Group 1 pulmonary arterial hypertension, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Heart Failure patients
Patients with Class I - III New York Heart Association symptoms of Heart Failure who are not anemic or taking medications that affect blood clotting, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
Experimental: Hypertension patients
Patients with chronic high blood pressure, but with less than severe hypertension, administered various treatments to assess their effect on blood flow and metabolic demand of tissues under wide-ranging conditions, including Maximum Exercise Tests, L-NMMA, Vitamin C, Vitamin E, α-Lipoic Acid, L-Ascorbate, BQ-123, Fexofenadine, Ranitidine, Angiotensin-II, Valsartan, Acetylcholine, Sodium Nitroprusside, Norepinephrine, Phentolamine and MitoQ.
|
Graded exercise test to volitional exhaustion (stationary bike or treadmill), maximal handgrip test, maximal leg extension test, and maximal plantar flexion test.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, passive leg movement test, exercise bouts, electromyography and exercise training regimen at baseline and following treatment with Nitric Oxide blockade via infusion of N-monomethyl-L-arginine (L-NMMA) (0.4 mg/kg/min), antioxidant cocktail (Vitamin C, Vitamin E, alpha-lipoic acid) ingestion, L-ascorbate injection, BH4 ingestion.
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with endothelin-1 receptor antagonist BQ-123 (D-tryptamine-D-aspartic acid-L-proline-D-valine-L-leucine).
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test and exercise bouts at baseline and following treatment with Histamine H1 receptor antagonist fexofenadine (Allegra) and Histamine H2 receptor antagonist ranitidine (Zantac).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement, and exercise bouts at baseline and following treatment with Angiotensin-II receptor agonist (angiotensin-II) and antagonist Valsartan (Diovan).
Other Names:
Catheter placement in femoral artery and femoral vein; resting measurements of blood pressure, heart rate and blood flow; flow mediated vasodilation test, muscle sympathetic nerve activity measurement; vasodilation with nitroglycerin followed by Angiotensin-II and Alpha Adrenergic blockade with infusions of Acetylcholine, Sodium Nitroprusside, Angiotensin-II, Norepinephrine and Phentolamine (Regitine).
Other Names:
Catheter placement in femoral artery and femoral vein and muscle biopsy; Nuclear Magnetic Resonance (NMR) scanning and exercise bouts at baseline and following treatment with BQ-123 with or without oral mitochondria-targeted antioxidant (MitoQ) or oral BH4.
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in Limb Blood Flow
Time Frame: Baseline and 1 hour
|
Change in local limb blood flow as measured by ultrasound Doppler in units of milliliters per minute (mL/min) from baseline to up to 1 hour following study interventions
|
Baseline and 1 hour
|
Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Change in Blood Pressure
Time Frame: Baseline and 1 hour
|
Change in local limb blood pressure measured in millimeters of mercury (mmHg) from baseline to up to 1 hour following study interventions
|
Baseline and 1 hour
|
Change in Maximum Exercise Capacity
Time Frame: Baseline and 1 hour
|
Change in maximal exercise capacity - handgrip strength measured by dynamometer in units of kilograms from baseline to up to 1 hour following study interventions
|
Baseline and 1 hour
|
Change in Peak Rate of Mitochondrial Adenosine Triphosphate (ATP) Synthesis
Time Frame: Baseline and 1 hour
|
Change in muscle peak rate of mitochondrial ATP synthesis as measured by 31P-magnetic resonance spectroscopy (31P-MRS) from baseline up to 1 hour following study interventions
|
Baseline and 1 hour
|
Collaborators and Investigators
Sponsor
Investigators
- Principal Investigator: Russell Richardson, Ph.D., George E Wahlen VA Medical Center
Study record dates
Study Major Dates
Study Start
Primary Completion (Estimated)
Study Completion (Estimated)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Estimated)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Additional Relevant MeSH Terms
- Pathologic Processes
- Cardiovascular Diseases
- Vascular Diseases
- Respiratory Tract Diseases
- Lung Diseases
- Disease Attributes
- Hypertension, Pulmonary
- Chronic Disease
- Hypertension
- Lung Diseases, Obstructive
- Pulmonary Disease, Chronic Obstructive
- Pulmonary Arterial Hypertension
- Physiological Effects of Drugs
- Adrenergic Antagonists
- Adrenergic Agents
- Neurotransmitter Agents
- Molecular Mechanisms of Pharmacological Action
- Antihypertensive Agents
- Vasodilator Agents
- Autonomic Agents
- Peripheral Nervous System Agents
- Cholinergic Agents
- Enzyme Inhibitors
- Gastrointestinal Agents
- Protease Inhibitors
- Protective Agents
- Adrenergic alpha-Agonists
- Adrenergic Agonists
- Micronutrients
- Cholinergic Agonists
- Serine Proteinase Inhibitors
- Anti-Ulcer Agents
- Angiotensin II Type 1 Receptor Blockers
- Angiotensin Receptor Antagonists
- Antioxidants
- Anti-Allergic Agents
- Vitamin B Complex
- Histamine H1 Antagonists
- Histamine Antagonists
- Histamine Agents
- Sympathomimetics
- Histamine H1 Antagonists, Non-Sedating
- Adrenergic alpha-Antagonists
- Vasoconstrictor Agents
- Endothelin Receptor Antagonists
- Nitric Oxide Donors
- Histamine H2 Antagonists
- Valsartan
- Vitamin E
- Vitamins
- Norepinephrine
- Thioctic Acid
- Ranitidine
- Phentolamine
- Fexofenadine
- Nitroprusside
- Angiotensin II
- Giapreza
- Angiotensinogen
- cyclo(Trp-Asp-Pro-Val-Leu)
- Acetylcholine
Other Study ID Numbers
- IRB_00030810
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
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Lancaster General HospitalLouise von Hess Medical Research InstituteEnrolling by invitationDiastolic Heart FailureUnited States
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University Hospital, MontpellierCompletedHeart Failure | Diastolic Heart Failure | Systolic Heart Failure Stage CFrance
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Wake Forest UniversityNational Institute on Aging (NIA)CompletedHeart Failure, Congestive | Diastolic Heart FailureUnited States
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Wake Forest UniversityCompletedHeart Failure, Congestive | Heart Failure With Preserved Ejection Fraction
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US Department of Veterans AffairsCompleted
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University of British ColumbiaCanadian Institutes of Health Research (CIHR); Duke University; St. Paul's Hospital... and other collaboratorsActive, not recruitingHeart Diseases | Heart Failure | Transplant; Failure, Heart | Heart Transplant Failure and Rejection | Heart Failure,Congestive | Transplant FailureCanada, United States
Clinical Trials on Maximum Exercise Tests
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University Hospital, BrestCompletedVentilation | ExerciseFrance
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Ottawa Heart Institute Research CorporationNot yet recruitingCoronary Artery Disease
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University Hospital, Strasbourg, FranceTerminated
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Assiut UniversityNot yet recruitingcovid_19 Patients
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Shaare Zedek Medical CenterUnknownPrader Willi Syndrome
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Newcastle-upon-Tyne Hospitals NHS TrustNorthumbria UniversityUnknown
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Georgetown UniversityU.S. Army Medical Research and Development CommandCompleted
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Oklahoma State UniversityRecruitingObesity | Normal-weight ObesityUnited States
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Papworth Hospital NHS Foundation TrustNHS Greater Glasgow and ClydeCompleted