Peripheral Vascular Effects of Sulfhydryl-containing Antihypertensive Pharmacotherapy on Microvessels in Humans
Status: | Recruiting |
---|---|
Conditions: | High Blood Pressure (Hypertension) |
Therapuetic Areas: | Cardiology / Vascular Diseases |
Healthy: | No |
Age Range: | 40 - 65 |
Updated: | 9/26/2018 |
Start Date: | July 20, 2016 |
End Date: | August 31, 2020 |
Contact: | Susan K Slimak, RN |
Email: | sks31@psu.edu |
Phone: | 814-863-8556 |
Peripheral Vascular Effects of Sulfhydryl-containing Antihypertensive Pharmacotherapy on Microvascular Function and Vessel Remodeling in Hypertensive Humans
High blood pressure can cause physical changes to the blood vessels of the body (remodeling).
If a person who has high blood pressure also has a lot of blood vessel remodeling with their
condition, they are more likely to have poor results with medical treatment for hypertension.
The researchers examine the impact of different classes of drugs that doctors use to treat
high blood pressure (hypertension) on blood vessel remodeling. Some drugs that doctors
prescribe for their patients contain a "sulfhydryl group" (a sulfur atom bonded to a hydrogen
atom). Drugs that have the sulfhydryl group may reduce blood vessel remodeling more that
drugs that do not. For this study, participants who have high blood pressure perform the
experiments, take a drug for 16-weeks to lower blood pressure, and repeat the experiments.
The researchers randomly assign one of three drugs to participants who have high blood
pressure: a diuretic ("water pill"), a drug containing a sulfhydryl (SH) group, or a drug
that does not contain a sulfhydryl group. Participants who do not have high blood pressure
perform the experiments, but do not take any of the drugs. In some of our experiments, the
researchers use a technique called "microdialysis" (MD). With MD, the researchers perfuse
some research drugs into the skin on the forearm through tiny tubing that mimics capillaries.
These MD drugs mimic or block substances the body naturally makes to control the small blood
vessels in the skin. The drugs remain in nickel-sized areas around the tubing and do not go
into the rest of the body. The researchers also analyze very small skin samples (skin biopsy)
obtained from the forearm. Lastly, the researchers use a standard technique called "flow
mediated dilation" (FMD) that uses blood pressure cuffs and ultrasound to look at the health
of larger blood vessels in the body. FMD includes placing a small tablet of nitroglycerin
under the tongue during part of the test.
If a person who has high blood pressure also has a lot of blood vessel remodeling with their
condition, they are more likely to have poor results with medical treatment for hypertension.
The researchers examine the impact of different classes of drugs that doctors use to treat
high blood pressure (hypertension) on blood vessel remodeling. Some drugs that doctors
prescribe for their patients contain a "sulfhydryl group" (a sulfur atom bonded to a hydrogen
atom). Drugs that have the sulfhydryl group may reduce blood vessel remodeling more that
drugs that do not. For this study, participants who have high blood pressure perform the
experiments, take a drug for 16-weeks to lower blood pressure, and repeat the experiments.
The researchers randomly assign one of three drugs to participants who have high blood
pressure: a diuretic ("water pill"), a drug containing a sulfhydryl (SH) group, or a drug
that does not contain a sulfhydryl group. Participants who do not have high blood pressure
perform the experiments, but do not take any of the drugs. In some of our experiments, the
researchers use a technique called "microdialysis" (MD). With MD, the researchers perfuse
some research drugs into the skin on the forearm through tiny tubing that mimics capillaries.
These MD drugs mimic or block substances the body naturally makes to control the small blood
vessels in the skin. The drugs remain in nickel-sized areas around the tubing and do not go
into the rest of the body. The researchers also analyze very small skin samples (skin biopsy)
obtained from the forearm. Lastly, the researchers use a standard technique called "flow
mediated dilation" (FMD) that uses blood pressure cuffs and ultrasound to look at the health
of larger blood vessels in the body. FMD includes placing a small tablet of nitroglycerin
under the tongue during part of the test.
Upon initial screening and again within a week of testing, all subjects will have an
assessment of 24-hour ambulatory blood pressure. Subject screening will be performed by the
Penn State Clinical Translational Research Center (CTRC) medical staff and will include a
physical exam by a clinician, anthropometry, and a chemical and lipid profile, liver and
renal function. Women will be either postmenopausal (absence of menstruation of >1 year and
Follicle Stimulating Hormone (FSH) >25 milli-international units per milliliter (mlU/ml)) and
not be taking hormone replacement therapy, or normally menstruating and tested in the early
follicular phase of their cycle. Subjects will also go through an assessment of conduit
vessel endothelial and vascular smooth muscle function with brachial artery flow-mediated
vasodilation (FMD), and sublingual nitroglycerin.
Subjects will undergo initial microdialysis experiments and biopsy samples will be obtained.
Subjects will then be randomly assigned to treatment group. Blood pressure will be monitored
every 2 weeks and weekly compliance checks will be made by the researcher's nurse
coordinator. 24-hour ambulatory blood pressure monitoring will be conducted monthly to
determine the efficacy of antihypertensive treatment and to inform dosing titration.
Examining pharmacokinetic and dynamic data from the literature indicate that blood pressure
lowing and peripheral vascular effects are maximized by 12 weeks of antihypertensive therapy
and maintained thereafter. After 16 weeks of the assigned intervention, subjects will repeat
microdialysis experiments and additional cutaneous biopsy samples will be obtained. Conduit
artery measures including brachial artery FMD and responsiveness to sublingual nitroglycerin
will also be evaluated at this time.
assessment of 24-hour ambulatory blood pressure. Subject screening will be performed by the
Penn State Clinical Translational Research Center (CTRC) medical staff and will include a
physical exam by a clinician, anthropometry, and a chemical and lipid profile, liver and
renal function. Women will be either postmenopausal (absence of menstruation of >1 year and
Follicle Stimulating Hormone (FSH) >25 milli-international units per milliliter (mlU/ml)) and
not be taking hormone replacement therapy, or normally menstruating and tested in the early
follicular phase of their cycle. Subjects will also go through an assessment of conduit
vessel endothelial and vascular smooth muscle function with brachial artery flow-mediated
vasodilation (FMD), and sublingual nitroglycerin.
Subjects will undergo initial microdialysis experiments and biopsy samples will be obtained.
Subjects will then be randomly assigned to treatment group. Blood pressure will be monitored
every 2 weeks and weekly compliance checks will be made by the researcher's nurse
coordinator. 24-hour ambulatory blood pressure monitoring will be conducted monthly to
determine the efficacy of antihypertensive treatment and to inform dosing titration.
Examining pharmacokinetic and dynamic data from the literature indicate that blood pressure
lowing and peripheral vascular effects are maximized by 12 weeks of antihypertensive therapy
and maintained thereafter. After 16 weeks of the assigned intervention, subjects will repeat
microdialysis experiments and additional cutaneous biopsy samples will be obtained. Conduit
artery measures including brachial artery FMD and responsiveness to sublingual nitroglycerin
will also be evaluated at this time.
Inclusion Criteria:
- Women and men
- 40-65 years
- Blood pressure: Normotensive <120/80 mmHg Hypertensive ≥140/90 mmHg and <160/110 mmHg
- HbA1C of <6.5%
- Women are post-menopausal and not taking hormone replacement therapy, or have normal
cycles and are tested in the early follicular phase
- Subjects may or may not be taking one doctor-prescribed drug to lower blood pressure
(e.g. diuretic, ACE inhibitor).
- Must be able to stop physician-prescribed antihypertensive drug for the duration
of the subject's participation in the study (with the approval of their personal
physician).
Exclusion Criteria:
Relevant to all subjects:
- current medications which could conceivably alter the cardiovascular or
thermoregulatory control or responses (e.g. beta blockers, calcium channel blockers,
ACE inhibitors, angiotensin receptor blockers)
- taking a diuretic (also see below)
- allergy to test substances
- allergy to latex
- nicotine use (smoking, chewing tobacco, etc.)
- illegal/recreational drug use
- pregnancy or breastfeeding
- diabetes
Relevant to hypertensive subjects only:
- contraindication for all three pharmacotherapy drugs used in this study
o Note: Subjects who have a contraindication (e.g. a condition, medication with a
known interaction, known allergy) to only one or two of the three pharmacotherapy
drugs, may be assigned one of the pharmacotherapy drugs that is not contraindicated.
- history of having taken an ACE inhibitor with antioxidant properties (e.g. Captopril,
Zofenopril)
- kidney problems
- liver problems
- history of heart disease or failure
- history of blood clots or stroke
- angioedema
- electrolyte imbalance
- planned surgery requiring general anesthesia during the pharmacotherapy period
- peripheral vascular disease
- diuretics (a subject taking only a diuretic to control the subject's hypertension may
be included in the study if the subject stops taking the diuretic for the duration of
the subject's participation in the study with the approval of the subject's personal
physician.)
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