C. Lugt scite author profile

Artemisinin, a sesquiterpene lactone endoperoxide isolated from Artemisia annua L., and a number of its semisynthetic derivatives have shown to possess antimalarial properties. They are all effective against Plasmodium parasites that are resistant to the newest and commonly used antimalarial drugs. This article gives a survey of the literature dealing with artemisinin-related antimalarial issues that have appeared from the end of 1989 up to the beginning of 1994. A broad range of medical and pharmaceutical disciplines is covered, including phytochemical aspects like the selection of high-producing plants, analytical procedures, and plant biotechnology. Furthermore, the organic synthesis of artemisinin derivatives is discussed, as well as their mechanism of action and antimalarial activity, metabolism and pharmacokinetics, clinical studies, side-effects and toxicology, and biological activities other than antimalarial activity.

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Artemisia annua L.: a source of novel antimalarial drugs

Woerdenbag

Lugt²,

Pras

1990

Pharmaceutisch Weekblad Scientific Edition

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Artemisia annua L. contains artemisinin, an endoperoxide sesquiterpene lactone, mainly in its leaves and inflorescences. This compound and a series of derivatives have attracted attention because of their potential value as antimalarial drugs. In this review a survey of the currently available literature data is given. It includes phytochemical aspects, such as constituents of A. annua, the artemisinin content during the development of the plant and its biosynthesis, isolation, analysis and stability. Total chemical synthesis of artemisinin is referred to, as well as structure-activity relationships of derivatives and simplified analogues. Pharmacological studies are summarized, including the mechanism of action, interaction of the antimalarial activity with other drugs, possible occurrence of resistance to artemisinin, clinical results, toxicological aspects, metabolism and pharmacokinetics. Finally, plant cell biotechnology is mentioned as a possible means to obtain plants and cell cultures with higher artemisinin contents, allowing an industrial production of pharmaceuticals containing this novel drug.

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Comparison of in vivo and in vitro antimalarial activity of artemisinin, dihydroartemisinin and sodium artesunate in the Plasmodium berghei-rodent model

Janse

Waters²,

Kos

et al. 1994

International Journal for Parasitology

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Laboratory selection of Artemisia annua L. for high artemisinin yielding types

Pras

Visser

Batterman

et al. 1991

Phytochemical Analysis

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Artemisia annua L. (Asteraceae) contains artemisinin, a sesquiterpene lactone with promising antimalarial properties. At present the artemisinin content in plants grown in the open in the Netherlands is too low for industrial purposes. We describe a new method for laboratory selection to identify high yielding individual plants for the purpose of seed production and subsequent efficient cropping. During the procedure thin layer chromatography and high performance liquid chromatography were used as methods of analysis for artemisinin. Selected 11‐week‐old plantlets were transferred from the laboratory into the open in the summer of 1989. We have observed that plants which are high yielding in the laboratory continue to be so in the field. The A. annua crop which had been sown‐out directly had on average a 3–4‐fold lower artemisinin content.

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PHARMACOKINETIC INVESTIGATION ON THE THERAPEUTIC POTENTIAL OF ARTEMOTIL (Β-Arteether) IN THAI PATIENTS WITH SEVERE PLASMODIUM FALCIPARUM MALARIA

Lugt²,

Looareesuwan³

et al. 2004

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Pharmacokinetic data were obtained to evaluate the therapeutic potential of Artemotil (beta-arteether) in 56 Thai patients with severe Plasmodium falciparum malaria. Intramuscular administration was given at 1) a low dose of 3.2 mg/kg on day 0 and 1.6 mg/kg/day on days 1-4 and 2) a high dose of 4.8 mg/kg on day 0 at 0 hours, 1.6 mg/kg at 6 hours, and 1.6 mg/kg/day on days 1-4. Cmax values of 63.7 ng/mL at 6.1 hours and 140.8 ng/mL at 5.7 hours were reached in low-dose and high-dose patients, respectively. Drug concentrations decreased slowly with half-lives of 12.5-22.4 hours on day 0 and 31.6-40.7 hours on day 4 for both dosage regimens. Although the maintaining dosage on the last day was much lower than the loading dose on day 0, the area under the curve (AUC) and Cmax on day 4 were significantly increased (2.85-4.55 fold), suggesting drug accumulation in the blood. Dihydroartemisinin (DHA), an active metabolite of Artemotil, was detected in most patients. The mean ratios of DHA and Artemotil were 0.16-0.19 in both dosage regimens for the entire study period. Similar to previous reports, all patients showed a slow response to treatment with mean values of 77.2 hours for the fever clearance time (FCT) and 75.8 hours for the parasite clearance time (PCT) (low dose) and 70.1 hours for the FCT and 64.4 hours for the PCT (high dose). Interestingly, a very rapid response to the treatment was exhibited in patient 151, with an FCT of 4 hours and a PCT of 36 hours, with different pharmacokinetic data from others on day 0. The patient had a very high Cmax (2,407 ng/mL) and AUC (12,259 ng.hr/mL) values without an intramuscular absorption phase on the first day. These values were approximately 21.9 (Cmax) and 2.6 (AUC) times higher than in other patients; this patient may have been to be injected through a vessel at first dosing. In conclusion, the patients treated with the high dosage regimen had higher AUC values and higher antimalarial efficiency (cure rate = 48%) than the low-dose subjects (cure rate = 23%). Despite the high accumulation and longer exposure time (9-11 days) when compared with other artemisinin agents, due to the slow prolonged absorption of Artemotil from injection sites, the two dosage regimens did not show a better therapeutic effects than other artemisinin drugs, including alpha/beta-arteether dissolved in peanut oil used in Indian patients.

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C. Lugt

Progress in the research of artemisinin-related antimalarials: An update

Artemisia annua L.: a source of novel antimalarial drugs

Comparison of in vivo and in vitro antimalarial activity of artemisinin, dihydroartemisinin and sodium artesunate in the Plasmodium berghei-rodent model

Laboratory selection of Artemisia annua L. for high artemisinin yielding types

PHARMACOKINETIC INVESTIGATION ON THE THERAPEUTIC POTENTIAL OF ARTEMOTIL (Β-Arteether) IN THAI PATIENTS WITH SEVERE PLASMODIUM FALCIPARUM MALARIA

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