Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042961 (volvulus)
 4,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A rational strategy for chemotherapy demands that dosage schedules be based on an adequate knowledge of clinical and biochemical pharmacology. Many anthelmintic drugs (e.g. suramin, diethylcarbamazine, hycanthone) were introduced before modern techniques for drug evaluation (controlled clinical trials) and before the development of specific and sensitive analytical methods for the assay of drugs and metabolites in biological fluids. Thus, many of the regimens used today for the treatment of parasitic diseases are largely empirically derived. By means of specific analytical methodology (high performance liquid chromatography, gas chromatography and mass-spectrometry) introduced in the 1960s, it is now possible to measure drugs and their metabolites with specificity and sensitivity. Much of this review deals with compounds which are active against the major systemic helminths, i.e., filariae (diethylcarbamazine, ivermectin and suramin) and schistosomes (niridazole, metrifonate, oxamniquine and praziquantel), but recent advances in the treatment of hydatid disease involving the benzimidazole carbamates albendazole and mebendazole are also discussed. Among the imidazole derivatives, mebendazole, a broad-spectrum anthelmintic, is poorly absorbed from the gastrointestinal tract after a therapeutic dose, but that fraction which is absorbed and escapes hepatic first-pass extraction is pharmacologically active against systemic helminths. Albendazole is more completely absorbed, but is almost undetectable in plasma due to its rapid conversion to an active sulphoxide metabolite. This compound may well become the drug of choice for the chemotherapy of echinococcosis. Levamisole, the 1-isomer of tetramisole, is rapidly and completely absorbed, but has not been widely used in systemic helminthiases because of severe side effects associated with prolonged dosage. Diethylcarbamazine is microfilaricidal against Onchocerca volvulus, but its use has been associated with major adverse effects resulting from its action on the microfilariae. These effects are related to the concentration of the drug in the plasma which, in turn, is influenced by urinary pH. The elimination half-life of diethylcarbamazine is prolonged and renal clearance reduced in alkaline urine. Under these conditions the microfilaricidal effect is enhanced, but the adverse reactions to treatment are more severe. Suramin is the only available antifilarial agent with macrofilaricidal activity. It has a long elimination half-life (36 to 54 days), and is highly (99.7%) bound to plasma protein which limits its removal from the blood.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Clinical pharmacokinetics of anthelmintic drugs. 306 52

Levamisole is a drug of choice for treatment of ascariasis. With recommended dosages, it is virtually free of side effects. Single doses of 50 to 150mg will eliminate all parasites in 90 to 100% of ascariasis patients irrespective of worm burden. Activity against hookworms has been demonstrated for levamisole but the most effective treatment regimen has not been determined. Further drug trials are needed for better assessment of efficacy. Levamisole has little or no curative action on infections with whipworms and pinworms. It may have some activity against strongyloides but confirmatory studies are needed. It has been shown that levamisole has significant activity against microfilariae of Wuchereria bancrofti and Brugia malayi. It is not, however, as effective as diethylcarbamazine ('Hetrazan'), and side reactions are greater. In tolerated doses, levamisole does not have significant action on adult forms or microfilariae of Onchoceea volvulus. The drug applied topically, however, may find a place in treatment of ocular onchocerciasis. Limited trials with levamisole for toxoplasmosis and chronic cutaneous leishmaniasis have given promising results, and further studies are indicated.
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PMID:Use of levamisole in parasitic infections. 699 94

Two randomized, double-blind, placebo-controlled trials, in which levamisole (2.5 mg/kg) was given alone or co-administered with ivermectin (200 microg/kg) or albendazole (400 mg), were conducted. In Trial 1, safety and drug-drug interaction were explored in 42 healthy male volunteers. During Trial 2, the safety of the same treatment regimens and their efficacy against the adult worms and microfilariae of Onchocerca volvulus were investigated in 66 infected subjects of both sexes. Safety was determined from the results of detailed clinical and laboratory examinations before treatment, during hospitalization and on day 30. The pharmacokinetic parameters for levamisole alone and the combinations were determined in Trial 1 and then compared with historical data for ivermectin and albendazole, given as single agents, to determine if drug-drug interaction had occurred. The level of efficacy against the adult worms was determined by the examination of histology sections of nodules excised 6 months posttreatment and from the changes seen in the levels of microfilaridermia within a year of treatment. Microfilaricidal efficacy was estimated from the reductions in the levels of microfilaridermia between day 0 (1 day pre-treatment) and day 30. Although the regimens were generally well tolerated, there were unexpected adverse effects in both healthy volunteers and infected subjects. Clinically significant drug-drug interactions resulted in an increase in the bio-availability of ivermectin but a reduction in that of albendazole when these drugs were co-administered with levamisole. Levamisole given alone or with albendazole had little effect on O. volvulus. The combination of levamisole with ivermectin was neither macrofilaricidal nor more effective against the microfilariae and the adult worms than ivermectin alone. The pathogenesis of the adverse events and the drug-drug interactions are discussed.
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PMID:The safety, tolerability and pharmacokinetics of levamisole alone, levamisole plus ivermectin, and levamisole plus albendazole, and their efficacy against Onchocerca volvulus. 1532 66