J Karbwang scite author profile

Mefloquine, a quinoline-methanol antimalarial, is effective single dose therapy for all species of malaria infecting humans, including multi-drug-resistant Plasmodium falciparum. It is used both in prophylaxis and treatment. Mefloquine is available either as the hydrochloride salt alone, or in a combined preparation with sulfadoxine and pyrimethamine. There is no parenteral formulation. Several assay methodologies have been developed, but high performance liquid chromatography has been the most used in recent pharmacokinetic studies. These have shown in healthy volunteers that mefloquine is absorbed with a half-life of 1 to 4 hours and a time to peak concentration of 7 to 24 hours (median 16.7 hours). Mean peak blood concentrations have ranged between 50 and 110 (median 83) ng/ml/mg/kg. Estimates of total apparent volume of distribution (Vd/f) have ranged from 13.3 to 40.9 (median 19.2) L/kg, systemic clearance (CL/f) from 0.022 to 0.073 L/h/kg (median 0.026 L/h/kg), and terminal elimination half-life from 13.8 to 40.9 days (median 20 days). Systemic clearance appears to be increased in late pregnancy. In uncomplicated falciparum malaria, peak blood concentrations are 2 to 3 times higher than those in healthy subjects ranging from 112 to 209 (median 144) ng/ml/mg/kg because of contraction in the total apparent volume of distribution. Systemic clearance is usually reduced but elimination rates are increased (possibly because of reduced enterohepatic recycling). Mefloquine absorption appears to be reduced in severe falciparum malaria; plasma protein binding exceeds 98% in both healthy subjects and patients. No important drug interactions have been identified as yet, but the potential for serious interactions with quinine has not been adequately investigated. More studies are needed on the disposition of mefloquine in children.

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In vitro inhibition studies of tolbutamide hydroxylase activity of human liver microsomes by azoles, sulphonamides and quinolines.

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Tjia

Karbwang

et al. 1988

Brit J Clinical Pharma

101

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Pharmacokinetics and bioavailability of oral and intramuscular artemether

Karbwang

Na‐Bangchang

Congpuong

et al. 1997

European Journal of Clinical Pharmacology

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Both oral and intramuscular artemether were well-tolerated. In most cases, artemether and dihydroartemisinin were detected in plasma after 30 min and declined to levels below the limit of detection within 18-24 h. Compared with intramuscular administration, oral administration of artemether resulted in a relatively rapid but incomplete absorption [Cmax: 474 vs 540 ng.ml-1; tmax: 2.0 vs 3.9 h; AUC: 2.17 vs 5.20 micrograms.h.ml-1]. Geographic means of lag-time and absorption half-life (t1/2a) of oral vs intramuscular artemether were 0.28 and 1.1 h vs 0.30 and 2 h, respectively, t1/2z was significantly shortened after the oral dose [2.8 vs 6.9 h]. Mean oral bioavailability relative to intramuscular administration was 43.2%. The ratio of the AUCs of artemether to dihydroartemisinin was significantly lower after the oral than after the intramuscular dose (geometric mean: 0.29 vs 0.60). artemisinin, which is commercially available in China, Vietnam, Thailand and some African countries. The drug is administered as solution in oil for intramuscular injection or as oral tablets. The clinical efficacy of artemether is dependent on the formulation, dosing scheme, duration of treatment, and the severity of the disease [1, 2]. Oral artemether is effective but with short-term treatment, the relapse rate is high. While the efficacy of intramuscular artemether against multidrug-resistant P. falciparum in either uncomplicated or severe cases has been confirmed, its pharmacokinetic documentation is limited. Formulations with high bioavailability and low costs are essential. With high-performance liquid chromatography and electrochemical detection, more sensitive and reliable assay of artemisinin and derivatives in biological fluids has been achieved [3-4]. In the present study, we have assessed the pharmacokinetics and bioavailability of oral and intramuscular artemether, in healthy Thai males.

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J Karbwang

Clinical Pharmacokinetics of Mefloquine

In vitro inhibition studies of tolbutamide hydroxylase activity of human liver microsomes by azoles, sulphonamides and quinolines.

Pharmacokinetics and bioavailability of oral and intramuscular artemether

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