This study is designed to compare the effect of different dietary potassium sources on uptake and retention of potassium, as well as to determine the effect of potassium intake on blood pressure and acid-base balance. The study will compare three different sources of potassium given as a supplement, potatoes or French fries.
Potassium is a shortfall nutrient according to the 2010 Dietary Guidelines for Americans. Only 3% of Americans meet the recommended Adequate Intake of 4700 mg/d for potassium. Average potassium intake is approximately half of the Recommended Dietary Allowance (RDA), with potatoes providing the highest percentage (19-20% of potassium) in the American diet. Recommended dietary potassium intakes were determined primarily to optimize protection against hypertension and secondarily to protect against stroke and coronary heart disease. In setting requirements for most minerals, bioavailability is usually considered. However, little is known about bioavailability of potassium and what is known is from supplements rather than food. Recently, we performed a potassium bioavailability study on white potatoes looking at 35 healthy, normotensive men and women at 3 levels of potassium intake as potatoes or potassium gluconate supplements. Bioavailability of potassium was determined from AUC of serial blood draws and cumulative urinary excretion. Serum potassium Area Under the Curve (AUC )increased with dose (P\<0.0001) and did not differ due to source (p=0.52). Cumulative 24 h urinary potassium also increased with dose (p\<0.0001) and was greater with potato than supplement (p\<0.0001), concluding that bioavailability of potassium is as high from potatoes as from supplements. These data allow us to evaluate the quality of the food as a source of potassium. However, a remaining question is whether retention of potassium from potatoes is higher than from the salt, which requires a metabolic balance study to determine. The effects of potassium rich foods on blood pressure have also been recently accessed. A controlled feeding study would properly capture potassium retention and balance, as well as adequately control for any positive benefit potassium may have on blood pressure and other vascular outcomes. Increasing potassium citrate decreased titratable acidity and improved calcium retention in a dose response manner in postmenopausal women. There is one Randomized Controlled Trial (RCT) of potassium on bone, in postmenopausal women, showing a benefit of a supplement of potassium chloride on protecting against bone loss. Similar studies have not been performed with food sources of potassium. This study is designed to evaluate the effect of added potassium (K) from potatoes in the diet on K retention , blood pressure, and parameters related to bone health including calcium retention and acid base balance.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
40
No additional potassium.
1000 mg K from potassium gluconate.
1000 mg K from potatoes.
Department of Nutrition Science Purdue University
West Lafayette, Indiana, United States
Change in systolic blood pressure
Systolic blood pressure measured directly three consecutive times after 15 min of supine rest.
Time frame: 1, 3, 6, 8, 10, 12, 14, 16 days
Potassium balance/retention
Twenty four hour urine and feces will be collected on all intervention days of each phase. Urine will be analyzed for creatinine, K, Na, Ca, Mg according to the urine protocol. Some urine will be stored for future analysis and the rest discarded.
Time frame: Through out each day of each 16 day intervention
Potassium serum kinetics
Following breakfast, which will include the respective source of potassium or control, pooled urine will be collected at 2, 4, 6, 12 and 24.h. Blood will be drawn (5ml each draw) at 0.5, 1, 1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5, 6 and 24 hours post breakfast meal. , A catheter will be inserted in the arm at baseline and will be kept there until the blood draw at 6 hours. A needle will be used for the sample at 24 hours. BP will be measured after 4, 6, and 24h.
Time frame: Day 16 (24 hours) of each intervention period
Change in microcirculation
Vascular flow rate measured via Laser Doppler Flowmetry from right forearm for 60 min from the supine position.
Time frame: 1, and 16 days
Change in vascular flow rate
Central blood pressure will be measured by pulse wave analysis. Measurements will be repeated at least three times within a 20 minute period after the subject has rested for at least 10 minutes in a seated position. The staff member will place a tonometer (pressure sensor) on the wrist to detect the radial pulse waveform. Measurements will be taken over the course of 5-15 minutes or until pulse wave signal reaches data acquisition parameters.
Time frame: 1, 16 days
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1000 mg K from French Fries.
Acid-base balance
Acid-base balance will be determined on two-end of phase 24 h urine collection to relate to urinary calcium and potassium excretion. Pre-prandial arterialized blood samples will be collected anaerobically using forearm venous blood from the heated hand (10) into a polypropylene syringe containing lyophilized lithium heparin. The blood samples will be stored at room temperature and analyzed within 1 h of collection. Renal acid-base balance will be measured using urinary Net Acid Excretion (NAE) and Potential Renal Acid Load (PRAL).
Time frame: 14, 15 days