Mahamane Kalil Maïga scite author profile

Mahamane Kalil Maïga

5Publications

97Citation Statements Received

53Citation Statements Given

How they've been cited

139

How they cite others

Affiliations

University of Bamako, Freie Universität Berlin

Publications

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Pharmacokinetic effects of altered plasma protein binding of drugs in renal disease

Keller

Maïga

Neumayer

et al. 1984

European Journal of Drug Metabolism and Pharmacokinetics

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The measurement of plasma drug concentrations provides no insight into the relationship between the free and the plasma-protein-bound fractions of drugs. Plasma protein binding may decrease in renal disease due to uremia, hypoalbuminemia, or due to drug interactions. Decreased plasma protein binding leads to an increase in free plasma fraction causing an increase in volume of distribution and a shorter elimination half life. The increase in the apparent volume of distribution and the shorter elimination half life cause a decrease in total plasma concentration. Therefore, the free drug concentration is more reliable than the total plasma concentration for therapeutic drug monitoring. However, the free amount in plasma and in tissue and the tissue-bound amount remain unchanged under steady state conditions. Thus, a decrease in plasma protein binding in renal disease usually does not lead to increased drug toxicity, and alteration of drug dosage is not required, although the total plasma concentration may be found to be considerably lower than normal. In addition to plasma protein binding, alteration of tissue binding must also be considered for the determination of the appropriate dosage of some drugs in renal disease.

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Elimination kinetics of plasma exchange

et al. 1983

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Interest in the therapeutic use of plasma exchange for various diseases is growing. The two different effects of plasma exchange are elimination and activation. The kinetics are linear for elimination by plasma exchange, but not for activation. Plasma exchange is performed intermittently and can be described by intermittent kinetics. According to intermittent kinetics, plasma exchange removes 50% to 75% of a substance in plasma within 1-2 h, corresponding to an elimination half-life of 30-40 min. Hybrid kinetics, a mixture of actually intermittent but theoretically continuous elimination by plasma exchange, can however also be applied. Hybrid kinetics are more convenient and more reliable than intermittent kinetics. This is because hybrid kinetics are based solely on the concentrations before each plasma exchange; hybrid kinetics also reflect removal from the entire body and not just from the plasma compartment. According to hybrid kinetics, the amount of a substance in the body removed within 3-4 days is 50% of the difference between the initial and the final plasma concentration, depending on the intensity of plasma exchange. The intensity may well contribute at least in part to the beneficial effect of plasma exchange in various diseases.

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Prostaglandin E<sub>2</sub> Promotes Hypotension on Low-Sodium Hemodialysis

Schultze¹,

Maïga²,

Neumayer³

et al. 1984

Nephron

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The influence of low-sodium dialysate (126 mmol/l) on plasma levels of prostaglandin E₂ (PGE₂) and PGF_2α, plasma renin activity (PRA) and arterial blood pressure was investigated in 16 patients on maintenance hemodialysis. PGE₂ rose more than tenfold and there was a significant increase in PGF_2α and PRA. Mean arterial pressure dropped by 30 mm Hg causing discomfort in several patients. By contrast, conventional hemodialysis against 140 mmol/l of sodium was followed by less pronounced changes in plasma prostaglandins, and reduction of blood pressure was moderate (13 mm Hg). It is suggested that vasodilating prostaglandins may contribute to dialysis hypotension. Their origin may not be confined to the kidneys but rather extend to the lungs and circulating blood cells. The in vitro generation of prostaglandins was demonstrated when donor blood was circulated in an extracorporeal dialysis system.

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Studies on the mechanism by which ACTH stimulates renin activity and angiotensin II formation in man

Oelkers

Köhler

Belkien

et al. 1982

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Abstract. Ten IU of ACTH (1–24) per day was infused for 34 h (starting at 7 a.m.) into 8 normal men on a constant diet containing 135 mm Na+ per day. All subjects retained between 152 and 181 mm of sodium. Potassium balance was negative. Plasma renin activity (PRA) and plasmaangiotensin II (P-A II) started to rise in most subjects after 6 to 8 h of infusion, reached a maximum after 24 h and then tended to decline. As shown previously, the rise in PRA is not due to a rise in plasma renin substrate concentration. Systolic, but not diastolic blood pressure increased significantly on the second day of ACTH-infusion. Plasma cortisol (P-F) was continuously stimulated by ACTH. Plasma aldosterone (P-aldo) increased rapidly 1 h after ACTH administration, then tended to fall, and increased again in most subjects, roughly in parallel with PRA. No significant changes in electrolyte balance, PRA, P-A II, P-F and P-aldo occurred in 3 subjects receiving 'sham'-infusions. Additional experiments in subjects treated with propranolol or indomethacin allowed the conclusion that the effect of ACTH on PRA and P-A II is not mediated by renal beta-adrenergic receptors, but perhaps (partially?) by prostaglandins. Since the infusion rate of ACTH was not much higher than the secretion rate of ACTH in the early morning hours, it is possible that ACTH is physiologically involved in the regulation of renin secretion.

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Fréquence de l’allo-immunisation érythrocytaire chez les malades polytransfusés au centre hospitalo-universitaire du Point G, Bamako, Mali

Baby

Fongoro

Cissé

et al. 2010

Transfusion Clinique et Biologique

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