Potassium nitrate

About: Potassium nitrate is a research topic. Over the lifetime, 3537 publications have been published within this topic receiving 29450 citations. The topic is also known as: Nitric acid, potassium salt & Saltpeter.

Plasma nitrate as an index of nitric oxide formation in man: analyses of kinetics and confounding factors.

Abstract: Nitric oxide (NO) is metabolized to nitrate in humans. Accordingly, plasma nitrate has been proposed as an index of the in vivo formation of NO. Such an application requires knowledge about the possible influence of nitrate from sources other than endogenous NO formation, as well as of the kinetics of nitrate in plasma. In the present study, plasma nitrate increased from 32 +/- 4 to 205 +/- 27 mumol/l (mean +/- SE) following intake of nitrate-rich food. It dropped during the intake of nitrate-restricted diet and stabilized at a level of 29 +/- 1 mumol/l. The urinary excretion of nitrate during nitrate restriction was 840 +/- 146 mumol/24 h. Plasma nitrate was not affected following the intake of a gastrointestinal antibiotic drug for a period of four days. Smoking three cigarettes in succession did not affect the plasma nitrate levels significantly. The oral intake of potassium nitrate (500 mg approximately 4950 mumol) elevated plasma nitrate from 29 +/- 3 to 313 +/- 12 mumol/l within 60 min. The subsequent drop in plasma nitrate, with a t1/2 of 451 +/- 42 min, was probably a reflection of the redistribution of nitrate within the body fluids and the renal excretion of nitrate. The plasma clearance of nitrate was 30 +/- 2 ml/min/1.73 m2 BSA. The distribution volume for nitrate was 28 +/- 1% of the bodyweight (BW). We conclude that plasma nitrate can be used as an index of the endogenous formation of NO, provided that the oral intake of nitrate is restricted for at least 48 h. Due to the large distribution volume and the low clearance of the ion wide-spread, marked, and chronic changes in NO formation are required to significantly affect the levels of nitrate in samples of mixed blood.

The development of nitrate reductase in Chlorella and its repression by ammonium

Abstract: Chlorella vulgaris, grown with ammonium sulphate as nitrogen source, contains very little nitrate reductase activity in contrast to cells grown with potassium nitrate. When ammonium-grown cells are transferred to a nitrate medium, nitrate reductase activity increases rapidly and the increase is partially prevented by chloramphenicol and by p-fluorophenylalanine, suggesting that protein synthesis is involved. The increase in nitrate reductase activity is prevented by small quantities of ammonium; this inhibition is overcome, in part, by raising the concentration of nitrate. Although nitrate stimulates the development of nitrate reductase activity, its presence is not essential for the formation of the enzyme since this is formed when ammonium-grown cells are starved of nitrogen and when cells are grown with urea or glycine as nitrogen source. It is concluded that the formation of the enzyme is stimulated (induced) by nitrate and inhibited (repressed) by ammonium.

The efficacy of potassium salts as agents for treating dentin hypersensitivity.

Abstract: Formulations containing potassium salts (e.g., chloride, nitrate, citrate, oxalate) are widely used for treating dentin hypersensitivity (DH). The purpose of this review was to evaluate evidence for the clinical efficacy of potassium salts in reducing DH and also to consider the biologic basis for any effects. Literature searches were used to identify reports of clinical trials of potassium-containing preparations. Searches revealed 3 trials of potassium nitrate solutions or gels; 2 trials of mouthwashes containing potassium nitrate or citrate; 6 trials of potassium oxalates; and 16 double-blind randomized trials of toothpastes containing potassium nitrate, chloride, or citrate. The toothpaste studies provided quantitative data on treatment effects. These outcome measures were expressed as percentage reductions in sensitivity to cold air and mechanical stimulation and the patients' subjective reports. Trials of topically applied solutions yielded inconsistent results. Potassium-containing mouthwashes produced significant reductions in sensitivity. All potassium-containing toothpastes produced a significant reduction in sensitivity to tactile and air stimuli, as well as subjectively reported sensitivity. In most studies, the active agent (potassium) was superior to the minus-active control (placebo), but a few of the more recent trials have demonstrated significant placebo effects. It is postulated that potassium ions released from toothpastes diffuse along the dentinal tubules to inactivate intradental nerves. However, this principle has never been confirmed in intact human teeth. The mechanism of the desensitizing effects of potassium-containing toothpastes remains uncertain at present.