Bioavailability of Potassium From Three Dosage Forms: Suspension, Capsule, and Solution

Melikian, Armen P.; Cheng, Lawrence K.; Wright, George J.; Cohen, Albert; Bruce, Ruth E.

doi:10.1002/j.1552-4604.1988.tb03128.x

Cited by 15 publications

(11 citation statements)

References 4 publications

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“…On the treatment day a single peak excretion rate can be observed 1 hour after administration. Following the absorption phase, the decline of the profile of K + exo,dose is characterized by 2 disposition phases with apparent half‐lives of 1.6 and 14 hours when using the data by Melikian et al or 2.5 and 13 hours when using the data by Caplain et al . Similar disposition phase half‐lives for K + exo,dose after administration of a KCl solution were reported by Rakhit et al…”

Section: Resultssupporting

confidence: 72%

“…Homeostasis of K + endo is evidenced by small variations (CV = 4.3%) in the daily urinary recoveries of ࢣ(K + endo + K + exo,diet ) on 5 control days. 17 Of note, the contribution of K + endo to ࢣ(K + endo + K + exo,diet + K + exo,dose ) in plasma is large and much greater than in urine. The amounts of K + endo recovered in urine are minimal.…”

Section: Significance Of Differentiating Among Different Potassium Enmentioning

confidence: 99%

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The Pharmacokinetics of Potassium in Humans Is Unusual

Hinderling

2016

The Journal of Clinical Pharma

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Potassium is critical for maintaining cellular tonicity, propagation of nerve impulses, contraction of cardiac, skeletal, and smooth muscles, and normal renal function. The focus of this review is on the pharmacokinetics of potassium, K + , after administration of liquid and solid formulations of potassium chloride, KCl, to healthy subjects. Potassium can be considered an endogenous and exogenous compound. The amounts of endogenous K + are kept constant by balancing intake and loss of exogenous K + . Food and ingestion of KCl-containing medicines are sources for exogenous K + . In the pharmacokinetic context exogenous K + from KCl-containing medicines, K + exo,dose , is of primary interest. The distinction between the different K + entities is critical for obtaining unbiased estimates of the kinetic parameters for K + exo,dose . A literature search using prespecified acceptance criteria was performed. Publications were selected that reported plasma and urine data of K + exo,dose directly or provided information allowing their determination. Additional criteria applied included that the studies used a randomized design and controlled for the important covariates. Most of the selected publications reported urinary excretion data. Only 2 publications also reported plasma concentrations. The excursions of the plasma concentrations of K + exo,dose were considered too small to be of use by most investigators. The aggregate results indicate that urinary recovery data have the potential for providing reliable estimates for bioavailability and bioequivalence of K + exo,dose with KCl-containing formulations. Absorption efficiency, peak rates, and corresponding times of K + exo,dose with liquid formulations are fairly consistent among studies. The mean absorption efficiency of K + exo,dose with solid and liquid formulations of KCl ranges between 70% and 90%. The absorption rate of liquid formulations is rapid, whereas the solid formulations show extended release characteristics. The time-averaged renal clearance of K + exo,dose is about 200 mL/min during daytime and significantly smaller around midnight. Circadian rhythm and delayed homeostatic control of potassium make the pharmacokinetics of K + exo,dose time dependent. The impact of these endogenous controls makes the pharmacokinetics of K + exo,dose unusual. Keywordspotassium, exogenous, endogenous, humans, pharmacokinetics, renal clearance Products containing potassium chloride (KCl) for intravenous infusion and oral administration are approved for marketing in the United States for the treatment and prevention of hypokalemia with or without metabolic alkalosis in adults and in the pediatric population, in digitalis intoxication, and in patients with hypokalemic familial periodic paralysis. KCl is also indicated for the prevention of hypokalemia in adult and pediatric patients who would be of particular risk if hypokalemia were to develop, eg, in digitalized patients with significant cardiac arrhythmias. The potassium component of KCl reduces hypokalemia, and t...

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Section: Resultssupporting

confidence: 72%

Section: Significance Of Differentiating Among Different Potassium Enmentioning

confidence: 99%

The Pharmacokinetics of Potassium in Humans Is Unusual

Hinderling

2016

The Journal of Clinical Pharma

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“…The small intestine is the primary site of potassium absorption, with approximately 90% of dietary potassium being absorbed by passive diffusion [ 29 ]. Little is known about the bioavailability of potassium, with the majority of work being centered on the assessment of urinary potassium losses after potassium salt supplementation [ 30 , 31 , 32 ].…”

Section: Potassium Bioavailabilitymentioning

confidence: 99%

Potassium Intake, Bioavailability, Hypertension, and Glucose Control

2016

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Potassium is an essential nutrient. It is the most abundant cation in intracellular fluid where it plays a key role in maintaining cell function. The gradient of potassium across the cell membrane determines cellular membrane potential, which is maintained in large part by the ubiquitous ion channel the sodium-potassium (Na+-K+) ATPase pump. Approximately 90% of potassium consumed (60–100 mEq) is lost in the urine, with the other 10% excreted in the stool, and a very small amount lost in sweat. Little is known about the bioavailability of potassium, especially from dietary sources. Less is understood on how bioavailability may affect health outcomes. Hypertension (HTN) is the leading cause of cardiovascular disease (CVD) and a major financial burden ($50.6 billion) to the US public health system, and has a significant impact on all-cause morbidity and mortality worldwide. The relationship between increased potassium supplementation and a decrease in HTN is relatively well understood, but the effect of increased potassium intake from dietary sources on blood pressure overall is less clear. In addition, treatment options for hypertensive individuals (e.g., thiazide diuretics) may further compound chronic disease risk via impairments in potassium utilization and glucose control. Understanding potassium bioavailability from various sources may help to reveal how specific compounds and tissues influence potassium movement, and further the understanding of its role in health.

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“…It is clear that controlled clinical studies are necessary to determine the specific recommendations. Fewer erosions than wax-matrix tablets [38][39][40][41][42] Potassium chloride elixir Inexpensive, tastes bad, poor compliance; few erosions; immediate effect 43,44 Potassium chloride (effervescent tablets) for solution…”

Section: Consensus Guidelines For the Use Of Potassium Replacement Inmentioning

confidence: 99%

New Guidelines for Potassium Replacement in Clinical Practice

Cohn¹,

et al. 2000

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This article is the result of a meeting of the National Council on Potassium in Clinical Practice. The Council, a multidisciplinary group comprising specialists in cardiology, hypertension, epidemiology, pharmacy, and compliance, was formed to examine the critical role of potassium in clinical practice. The goal of the Council was to assess the role of potassium in terms of current medical practice and future clinical applications. The primary outcome of the meeting was the development of guidelines for potassium replacement therapy. These guidelines represent a consensus of the Council members and are intended to provide a general approach to the prevention and treatment of hypokalemia.

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Bioavailability of Potassium From Three Dosage Forms: Suspension, Capsule, and Solution

Cited by 15 publications

References 4 publications

The Pharmacokinetics of Potassium in Humans Is Unusual

The Pharmacokinetics of Potassium in Humans Is Unusual

Potassium Intake, Bioavailability, Hypertension, and Glucose Control

New Guidelines for Potassium Replacement in Clinical Practice

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