M Stäubli scite author profile

In 17 patients on long term therapy with amiodarone, serum drug levels measured by HPLC were related to pharmacological effects. At steady state, serum levels were directly proportional to the dose, 5 mg/kg per day leading to an average serum level of approximately 2.5 mumol/l. The non-amiodarone level of iodine averaged 4-times higher than the level of amiodarone iodine. The elimination half-life of amiodarone ranged from 21 to 78 days, and of non-amiodarone iodine from 24 to 160 days. Control of arrhythmias was satisfactory in all 12 evaluable patients, when the serum amiodarone level exceeded 1.5 mumol/l. Deterioration of vision and polyserositis occurred only at amiodarone levels above 4 mumol/l. Tentatively, a therapeutic range of 1.5 to 4 mumol/l is proposed. In contrast, thyroid dysfunction was observed at any amiodarone level. In view of the narrow therapeutic window, therapy with amiodarone may be optimized by monitoring its serum level and in addition, thyroid function should be regularly checked.

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Impaired red cell filterability with elimination of old red blood cells during a 100-km race

Reinhart¹,

Stäubli²,

Straub³

1983

Journal of Applied Physiology

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Plasma potassium response to acute respiratory alkalosis

Krapf

Caduff

Wagdi

et al. 1995

Kidney International

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Acute respiratory alkalosis (hyperventilation) occurs in clinical settings associated with electrolyte-induced complications such as cardiac arrhythmias (such as myocardial infarction, sepsis, hypoxemia, cocaine abuse). To evaluate the direction, magnitude and mechanisms of plasma potassium changes, acute respiratory alkalosis was induced by voluntary hyperventilation for 20 (18 and 36 liter/min) and 35 minutes (18 liter/min). The plasma potassium response to acute respiratory alkalosis was compared to time control, isocapnic and isobicarbonatemic (hypocapnic) hyperventilation as well as beta- and alpha-adrenergic receptor blockade by timolol and phentolamine. Hypocapnic hypobicarbonatemic hyperventilation (standard acute respiratory alkalosis) at 18 or 36 liter/min (delta PCO2-16 and -22.5 mm Hg, respectively) resulted in significant increases in plasma potassium (ca + 0.3 mmol/liter) and catecholamine concentrations. During recovery (post-hyperventilation), a ventilation-rate-dependent hypokalemic overshoot was observed. Alpha-adrenoreceptor blockade obliterated, and beta-adrenoreceptor blockade enhanced the hyperkalemic response. The hyperkalemic response was prevented under isocapnic and isobicarbonatemic hypocapnic hyperventilation. During these conditions, plasma catecholamine concentrations did not change. In conclusion, acute respiratory alkalosis results in a clinically significant increase in plasma potassium. The hyperkalemic response is mediated by enhanced alpha-adrenergic activity and counterregulated partly by beta-adrenergic stimulation. The increased catecholamine concentrations are accounted for by the decrease in plasma bicarbonate.

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M Stäubli

Prevalence of undernutrition on admission to Swiss hospitals

Serum concentrations of amiodarone during long term therapy. Relation to dose, efficacy and toxicity

Impaired red cell filterability with elimination of old red blood cells during a 100-km race

Plasma potassium response to acute respiratory alkalosis

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