Increased dairy intake is associated with improved measures of blood vessel health. Dairy cheese, however, is often high in sodium. Dietary sodium can impair blood vessel function. The researchers examine if and how natural cheese may protect against impairments in blood vessel function caused by sodium. For this study, participants complete four 8-day controlled feeding periods in which they eat cheese (6 oz/day) or no cheese during a low-sodium or high-sodium base-diet. The participants complete baseline experiments while on their normal personal diet and then repeat experiments at the end of each controlled feeding period. 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 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.
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. Participants meet with a registered dietitian to determine their caloric energy requirements and identify food preferences. The interview includes surveying the subject's physical activity over the previous 7 days. Subjects will undergo baseline microdialysis experiments to examine the function of the blood vessels in the skin microcirculation. Subjects will also go through a baseline assessment of conduit vessel endothelial and vascular smooth muscle function with brachial artery flow-mediated vasodilation (FMD), and sublingual nitroglycerin. Following baseline experiments, subjects participate in 4 controlled feeding periods, each 8 days in duration. The controlled feeding periods are assigned in a randomized order. At the end of each 8-day controlled dietary period, subjects will repeat microdialysis experiments, brachial artery FMD, and responsiveness to sublingual nitroglycerin.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
13
Diet contains 1,500 mg sodium per day Diet does not contain dairy cheese 8 days
Diet contains 1,500 mg sodium per day Diet contains 6 oz dairy cheese per day 8 days
Diet contains 5,500 mg sodium per day Diet does not contain dairy cheese 8 days
Diet contains 5,500 mg sodium per day Diet contains 6 oz dairy cheese per day 8 days
Pennsylvania State University
University Park, Pennsylvania, United States
Microvascular Reactivity to Acetylcholine
Skin blood flow is measured with laser Doppler flowmetry (flux units) and normalized to cutaneous vascular conductance by dividing by mean arterial pressure. Log molar increasing concentrations of acetylcholine are perfused and dose response curves are generated. Dose response curves were analyzed to determine the logEC50 (log Molar)
Time frame: 1 hour
Systolic Blood Pressure
Blood pressure is measured via brachial auscultation manually or with a critical care monitor. The peak blood pressure during a cardiac cycle when the heart contracts.
Time frame: 8 days
Diastolic Blood Pressure
Blood pressure is measured via brachial auscultation manually or with a critical care monitor. The lowest blood pressure during a cardiac cycle when the heart is between beats.
Time frame: 8 days
Flow Mediated Dilation
Flow mediated dilation is measured through Doppler ultrasound probe placed at brachial artery.
Time frame: 8 days
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