Disposition of oral quinine in acute falciparum malaria

Summary Plasma quinine concentrations following oral quinine sulphate 10 mg salt/kg have been measured by HPLC in 15 adult Thai patients with uncomplicated falciparum malaria. In 10 of the same patients the study was repeated in convalescence. In acute malaria plasma concentrations were approximately 50% higher than in convalescence; the mean acute peak plasma quinine concentration was 8.4 mg·l^–1 compared to 5.7 mg·l^–1 in convalescence.There was considerable variation in the rate of drug absorption, particularly in acute malaria. The mean time to peak plasma concentration was 5.9 h in acute malaria and 3.2 h in convalescence. The apparent clearance of oral quinine (CL/f) during the illness was 1.51 ml·kg^–1·min^–1, which was significantly lower than in convalescence — 2.67 ml·kg^–·min^–1. Estimated free quinine clearance was also lower in the acute phase: 30.6 compared to 49.0 ml·kg^–1·min^–1 in convalescence. Mean (SD) plasma protein binding of quinine was 94.7% in acute malaria and 92.8% in convalescence. Binding was significantly correlated with the plasma concentration of ₁ acid glycoprotein (r=0.5), which was significantly higher in the acute phase; 1.48 g·l^–1 compared to 1.05 g·l^–1 during convalescence.Oral quinine sulphate was well absorbed in uncomplicated falciparum malaria. High blood concentrations following the administration of oral quinine in acute malaria are probably related to increased plasma protein binding, lower apparent volume of distribution, and a reduction in its systemic clearance.     

Pharmacokinetics and bioequivalence evaluation of three commercial tablet formulations of mefloquine when given in combination with dihydroartemisinin in patients with acute uncomplicated falciparum malaria

Objective: To assess the pharmacokinetics and relative bioavailability/bioequivalence of three commercial tablet formulations of mefloquine, i.e. Lariam (reference formulation), Mephaquin 100 Lactab and Eloquin-250, when given sequentially after dihydroartemisinin in Thai patients with acute uncomplicated falciparum malaria. Methods: Twenty-nine Thai patients with acute uncomplicated falciparum malaria were randomised to receive an initial dose of 300 mg dihydroartemisinin, followed by 1250 mg mefloquine (at 24 h and 30 h after dihydroartemisinin) given as either Lariam (n=10 cases), Mephaquin (n=9 cases) or Eloquin-250 (n=10 cases). Serial blood samples were obtained up to day 42 after treatment with mefloquine. Mefloquine concentrations were determined in whole blood by means of ultraviolet high-performance liquid chromatography. The pharmacokinetic parameters of mefloquine were estimated using non-compartmental and compartmental analysis. Results: The three combination regimens were well tolerated. Patients in all treatment groups had a rapid initial response. However, nine patients (four and five cases in regimen containing Mephaquin 100 Lactab and Eloquin-250, respectively) had reappearance of parasitaemia during the follow-up period. Mefloquine from the three formulations showed significantly different pharmacokinetic and bioavailability metrics. Significantly lower peak plasma concentrations (C_max) and areas under the plasma concentration–time curve (AUC; AUC_0–48h, AUC_0–7days, and total AUC) were observed with Mephaquin 100 Lactab than with the other two formulations. Mean values for relative bioavailability of the test to standard products were 49.1% (Mephaquin 100 Lactab) and 72.4% (Eloquine-250). Based on the criteria set, the bioavailability of the two test products (Mephaquin 100 Lactab and Eloquine-250) was considered non-equivalent to the reference product with respect to the rate (t_max, C_max) and extent (AUC_0–48h, AUC_0–7days, total AUC) of mefloquine absorption. Received: 15 June 1999 / Accepted in revised form: 7 October 1999     

Efficacy and pharmacokinetics of a new intrarectal quinine formulation in children with Plasmodium falciparum malaria

1Three groups of seven children aged 2–14 years with acute uncomplicated Plasmodium falciparum malaria received 12.8 mg kg⁻¹ quinine gluconate by the intrarectal route (new cream formulation) or 8 mg kg⁻¹ Quinimax (a Cinchona alkaloid combination) by the intramuscular or intravenous (4 h infusion) route every 8 h for 3 days. Clinical and parasitological status was similar in the three groups at enrolment. 2At 36 h, body temperature of all children of the three groups was returned to normal and remained so until day 7. 3The decrease in parasitaemia did not differ between the three groups and the time required for a 50% fall in parasitaemia relative to baseline was 12.3±5.4, 18.2±6.1 and 14.5±4.2 h in the intrarectal, intramuscular and intravenous treatment groups, respectively. Parasitaemia expressed as a percentage of initial values was not significantly different in the three groups after 48 h of treatment (7.4±16.0, 4.1±4.2 and 2.2±3.8% in the intrarectal, intramuscular and intravenous treatment groups, respectively). All the patients were aparasitaemic by day 7. 4The tolerability of the three treatments was good; in particular, no rectal irritation was reported with the cream formulation. 5The t_max occurred later after intrarectal (4.1±2.4 h) and intravenous infusion (3.8±0.5 h) than after intramuscular injection (1.6±1.3 h) (P=0.02). C_max was lower with the intrarectal (3.0±1.0 mg l⁻¹) and intramuscular routes (3.2±0.7 mg l⁻¹) than with the intravenous route (5.1±1.4 mg l⁻¹) (P=0.003). Areas under the curve (AUC(0, 8 h)) were smaller with the intrarectal (17.0±7 mg l⁻¹ h) and intramuscular routes (19.4±4.8 mg l⁻¹ h) than with the intravenous route (27.8±8.2 mg l⁻¹ h) (P=0.02). The approximate bioavailability of intrarectal quinine from 0 to 8 h was 36%vs intravenous quinine and 51%vs intramuscular quinine. 6The good tolerability and efficacy of this new intrarectal quinine formulation outweigh its low approximate bioavailability. This new approach might thus be a safe and effective alternative to intramuscular quinine injection for the treatment of children with acute uncomplicated Plasmodium falciparum malaria in the field.     

Pharmacokinetics of quinine and doxycycline in patients with acute falciparum malaria: a study in Africa.

The pharmacokinetics of quinine was investigated in patients with acute falciparum malaria treated with quinine alone or in the presence of doxycycline. Twenty-six patients divided into two groups of equal number were enrolled in the study. In the absence of doxycycline, the volume of distribution of quinine (mean +/- SD) was estimated to be 1.32 +/- 0.32 L/kg, and its clearance was 0.125 +/- 0.47 L/h/kg, which was only in partial agreement with previously published data. No effect of doxycycline on the pharmacokinetics of quinine was observed.     

青蒿琥酯治疗在马里共和国的恶性疟疾321例

目的 :观察青蒿琥酯对恶性疟疾的疗效。方法 :96 1例恶性疟疾病人随机分成青蒿琥酯组 32 1例 (男性 152例 ,女性 16 9例 ) ,用青蒿琥酯 6 0mg +5%葡萄糖注射液 5mL ,iv ,qd ,首剂加倍 ,疗程 5d ;奎宁 雷琐辛组 32 0例 (男性 140例 ,女性 180例 ) ,用奎宁 雷琐辛 50 0mg + 5%葡萄糖注射液 50 0mL ,iv ,gtt ,qd ,疗程 3d ;氯喹组 32 0例 (男性 143例 ,女性 177例 ) ,用氯喹 50 0mg ,po ,qd ,首剂加倍 ,疗程 3d。各组经 1个疗程治疗后未愈者 ,均继续治疗 1个疗程。结果 :治愈率青蒿琥酯组为 10 0 % ,奎宁 雷琐辛组为 97.5% ,氯喹组为 6 7.2 %。青蒿琥酯组第 2疗程和第 1疗程治愈率分别为 10 0 %和82 .6 % (P <0 .0 1) ,复燃率为 2 .8% ,无不良反应。结论 :青蒿琥酯治疗恶性疟疾安全有效     

Clinical trials of chemotherapy for falciparum malaria

Plasmodium falciparum remains one of the World’s most prevalent and devastating pathogens. Mainly for economic reasons, the parasite’s ability to develop resistance to drugs has not been matched by the rate at which new compounds are developed. Even so, there are new drugs (or new combinations of old drugs) currently under investigation, or in the process of development (at the moment):     

青蒿琥酯和巴利捷克治疗塞内加尔恶性疟病儿的比较

目的：比较青蒿琥酯和巴利捷克治疗西非塞内加尔恶性疟的疗效。方法：西非恶性疟病儿１９０例，随机分为青蒿琥酯组７６例（男性４７例，女性２９例，年龄６±ｓ３ａ），用青蒿琥酯每次１５ｍｇ／ｋｇ，ｉｖ或１ｍ，于入院后即刻，ｈ４，ｈ２４，ｈ４８给药，２ｄ为一个疗程；巴利捷克组１１４例（男性６８例，女性４６例；年龄６±３ａ），用巴利捷克剂量２５ｍｇ奎宁基质／（ｋｇ·ｄ），ｉｖ或ｉｍ，ｂｉｄ，３ｄ为一个疗程。结果２组血检疟原虫转阴率，退热时间和住院时间各为９４．７％，７８．９％；１．３±０．５ｄ，２．７±１．１ｄ和３．２±１．１ｄ，４．５±１．５ｄ；差别皆有非常显著意义（Ｐ均＜０．０１）。结论：青蒿琥酯疗效优于巴利捷克。     

Pharmacokinetics of quinine in patients with chronic renal failure

Methods: We investigated the pharmacokinetics of quinine (Qn) following administration of a single oral dose of 600 mg Qn sulphate in six male Thai patients with a moderate degree of chronic renal failure (CRF), and six male Thai subjects with normal renal function. Results: The drug was well tolerated in both groups of subjects; no major adverse reactions were observed. A marked alteration in the pharmacokinetics of Qn was found in patients with CRF compared to healthy subjects; there were six signifiicant changes in the pharmacokinetic parameters. Absorption was delayed, but increased in CRF (t_max 4.5 vs 1.6 h, C_max 6.17 vs 3.45 g·ml^–1). Total clearance was significantly reduced 0.94 vs 2.84 ml·min^–1·kg^–1, whereas V_z/f remained unchanged (1.82 vs 2.78 1·kg^–1). This resulted in the increased values of AUC and prolongation of the t_1/2z and MRT in the patients (AUC 181.5 vs 61.8 g·min^–1·ml^–1, t_1/2z 26 vs 9.7 h, MRT 36.4 vs 11.3 h). Median concentrations of plasma unbound fraction of Qn collected at 4 h after drug administration in patients and healthy subjects were 7.3 vs 9.8%, respectively.     

Drug monitoring of quinine by HPLC in cerebral malaria with acute renal failure treated by haemofiltration

Summary The monitoring of quinine by HPLC in 3 patients suffering from cerebral malaria with acute renal failure and treated by haemofiltration is reported.The recommended dose of quinine in this situation is reduced to 10 to 15 mg·kg^–1·day^–1. However, in the first patient, when given quinine 10 mg kg^–1·day^–1 the plasma concentration was mainly below the recommended therapeutic range of 5 to 15 mg/l. In consequence, the dose of quinine in the second patient was elevated to quinine dihydrochloride 15.1 mg·kg^–1·day^–1 which produced plasma concentrations in the low therapeutic range. In the third patient, an unreduced dose of quinine dihydrochloride 25.7 mg·kg^–1·day^–1 was employed, resulting in plasma concentrations above 15 mg/l, which is generally assumed to be toxic, although, no sign of acute quinine toxicity was seen.The antimalarial effect in all three patients was satisfactory. Quinine was estimated in the haemofiltrate in two patients and was found to be below the limit of sensitivity (0.25 mg/l). Plasma quinine did not change during or shortly after haemofiltration.It is concluded that in case of acute renal failure in cerebral malaria the dose of quinine should be reduced, but that the common recommendation of 10 to 15 mg·kg^–1·day^–1 may be too low, and that haemofiltration has no marked influence on the total body clearance of quinine.     

Clinical efficacy and pharmacokinetics of artemisinin monotherapy and in combination with mefloquine in patients with falciparum malaria

1The aim of this study was to assess the pharmacokinetics, clinical efficacy and safety of artemisinin alone and in combination with mefloquine. 2Thirty-eight adults with symptomatic Plasmodium falciparum malaria were randomly assigned to receive either artemisinin (500 mg single dose followed by another 500 mg on day 1 and then 250 mg twice daily for 4 days) or artemisinin (500 mg single dose followed by 750 mg on day 1 and then 250 mg three times daily for one more day) in co-administration with mefloquine (250 mg three times daily for the first day). All drug administration was by the oral route. Patients were hospitalized at the Kibaha Designated District Hospital, Kibaha, Tanzania, for 6 days and a follow up for 3 weeks was performed. 3Treatment with the artemisinin/mefloquine combination resulted in a shorter parasite clearance time (PCT) of 24 (22, 27; 95% confidence interval) h vs 31 (27, 36) h and fever subsidence time (FST) of 14 (12, 16) h vs 20 (18, 23) h compared with artemisinin monotherapy. The 95% CI for the difference of the PCT and FST were 1.7, 12 and 3, 10, respectively. Parasites were detected in 7 out of 17 patients (41%) receiving artemisinin monotherapy at the 3rd and 4th week follow up visits. No parasites were detected after the combination therapy. 4The maximum plasma concentrations ( C_max) were similar after artemisinin monotherapy (615.4±387.0 ng ml⁻¹) and in combination with mefloquine (851.8±523.6 ng ml⁻¹). Elimination half-lives (t_1/2) were also identical at 2.2±0.6 h and 2.5±0.7 h, respectively. However, the AUC values were higher ( P<0.05) after combination therapy (3252±1873 ng  ml⁻¹ h) than after monotherapy (2234±1502 ng ml⁻¹ h). The oral clearance values were lower ( P<0.05) after combination therapy (195.4±86.9 l h⁻¹) than after monotherapy (314.3±189.4 l h⁻¹). PCT and FST normalized to initial parasitaemia correlated with AUC(0,  t) (r_s=0.56, P=0.02, r_s=0.58, P=0.01, respectively) and with C_max (r_s=0.62, P=0.01, r_s=0.68, P=0.005, respectively) in the artemisinin monotherapy only. 5One patient on the combination therapy developed a psychiatric condition and two patients on the monotherapy developed skin itch.     

A comparison of the pharmacokinetics of mefloquine in healthy Thai volunteers and in Thai patients with falciparum malaria

Summary We have studied the kinetics of a single oral dose of mefloquine (750 mg) in 12 Thai patients with falciparum malaria and have compared the results with those of a previous study in 12 healthy Thai volunteers [6].All the patients responded to treatment with a mean parasite clearance time of 66.6 h and a mean fever clearance time of 54.1 h.There was no significant difference in peak plasma concentration, time to peak, area under the curve or apparent volume of distribution between patients and controls. However, the terminal half-life (t_1/2) and mean residence time (MRT) were shorter in the patients (12.2 vs 16.7 days for t_1/2 and 15.5 vs 21.4 days for MRT).We conclude that there are changes in the disposition of mefloquine related to malaria, although the exact basis of the changes is not clear.     

Pharmacokinetics of halofantrine in Thai patients with acute uncomplicated falciparum malaria.

Twelve patients with acute uncomplicated falciparum malaria were admitted to the Hospital for Tropical Diseases for 42 days. The patients were treated with halofantrine 500 mg 6 hourly for three doses and halofantrine and its desbutyl metabolite were analysed in plasma by h.p.l.c. Cmax values of halofantrine and desbutylhalofantrine (n = 12) were 1192 +/- 410 (mean +/- s.d.) and 397 +/- 160 ng ml-1 with tmax values of 16 +/- 2 and 55 +/- 26 h, respectively. AUC was 60.6 +/- 23.9 and 48.5 +/- 22.2 mg l-1 h, respectively, for halofantrine and its metabolite. Halofantrine cured 83% of the patients but in two patients a reduction only in asexual parasitaemia was seen and no overall parasite clearance occurred. One of these, however had relatively low plasma concentrations of both halofantrine and its desbutyl metabolite and it appeared to be a case of inadequate treatment rather than true resistance. We suggest that the large intersubject variability in plasma drug concentrations may relate in part to its poor and inconsistent bioavailability and this rather than true resistance might be responsible for some of the treatment failures.     

Pharmacokinetics of halofantrine and n-desbutylhalofantrine in patients with falciparum malaria following a multiple dose regimen of halofantrine

Summary Halofantrine is a new blood schizontocidal drug used for the treatment of multidrug-resistant falciparum malaria. The pharmacokinetics of halofantrine (HAL) and its principal metabolite, N-desbutylhalofantrine (BHAL), was investigated in 6 adult male patients of Melanesian origin with uncomplicated falciparum malaria. The patients received 500 mg of halofantrine hydrochloride at times 0, 6 and 12 h (total 1.5 g).All patients responded to treatment with a mean parasite clearance time of 52.7 h and a mean fever clearance time of 33.8 h. The following kinetic parameters (mean values) were determined for HAL and BHAL, respectively: maximum plasma concentration (C_max)=896 and 491 ng·ml^–1; time to reach the Cmax (t_max)=15 and 56 h; elimination half-life (t_1/2)=91 and 79 h and the mean residence time (MRT)=71 and 102 h.Based on the clinical response the plasma concentrations of HAL and BHAL were adequate for the treatment of uncomplicated falciparum malaria in the 6 patients.     

Pharmacokinetics of promazine: I. Disposition in patients with acute viral hepatitis B

Concentrations of promazine in plasma, plasma water, red blood cells, and urine were measured after oral administration of the drug to six patients during and after apparent recovery from the acute phase of viral hepatitis B. None of the promazine pharmacokinetic parameters were significantly different during and after the acute phase; these parameters included clearance, free drug clearance, metabolic clearance, volume of distribution, distribution and elimination half-life values, plasma protein binding, and per cent excreted in the urine. During the acute period of the illness, SGOP, SGPT, alkaline phosphatase, and total bilirubin were increased in all patients; they returned to within or near the upper limits or normal after recovery. Despite the unchanged promazine disposition, four out of six patients had more severe promazine side-effects, such as sedation, postural hypotension, and dizziness during the acute phase of the illness. This study suggests that promazine disposition was not significantly altered as a consequence of viral hepatitis. However, the pharmacodynamic effects of promazine were changed significantly. Care must be taken with patients who are taking promazine during the acute phase of viral hepatitis B.     

Absorption of intramuscular phenobarbitone in children with severe falciparum malaria

Summary The absorption of intramuscular phenobarbitone 7 mg·kg^–1 was studied in 11 Karen children aged between 1.7 and 11 y with severe falciparum malaria. Eight of the children were comatose. Clinical findings were compared with those in 9 further children with severe malaria of similar age range (four of whom were unconscious), who received an identical placebo. One child, who had received placebo, had repeated convulsions and died 1 h after admission to hospital. The remainder made an uncomplicated recovery. There were no convulsions subsequent to treatment, although the study was too small to assess anticonvulsant efficacy. There was no observable toxicity, but phenobarbitone recipients had a significant tendency to deepen in their level of coma or to become sleepy within the 4 h after drug administration. Phenobarbitone was rapidly absorbed, reaching a mean (range) peak concentration of 34.2 [29.3–42.6] mol·l^–1 in a median (range) of 4 (2.5–12) h. These values are comparable to those previously reported in healthy children and in children with febrile convulsions. Intramuscular phenobarbitone is well absorbed in children with severe malaria; the optimum prophylactic anticonvulsant dose remains to be determined.     

Dose-finding and efficacy study for i.m. artemotil (beta-arteether) and comparison with i.m. artemether in acute uncomplicated P. falciparum malaria

AIMS: The antimalarial efficacy/pharmacodynamics and pharmacokinetics of intramuscular (i.m.) artemotil in Thai patients with acute uncomplicated falciparum malaria were studied to determine effective dose regimens and to compare these with the standard dose regimen of artemether. METHODS: In part I of the study three different artemotil dose regimens were explored in three groups of 6-9 patients for dose finding: 3.2 mg kg-1 on day 0 and 1.6 mg kg-1 on days 1-4 (treatment A), 1.6 mg kg-1 on day 0 and 0.8 mg kg-1 on days 1-4 (treatment B), 3.2 mg kg-1 on day 0 and 0.8 mg kg-1 on days 1-4 (treatment C). In part II of the study, artemotil treatments A and C were compared in three groups of 20-22 patients with standard i.m. artemether treatment: 3.2 mg kg-1 on day 0 and 0.8 mg kg-1 on days 1-4 (treatment R). RESULTS: Full parasite clearance was achieved in all patients in Part I, but parasite clearance time (PCT) and fever clearance time (FCT) tended to be longer in treatment B. Also the incidence of recrudescence before day 28 (RI) tended to be higher for treatment B. In part II, the mean PCT for each of the two artemotil treatments (52 and 55 h, respectively) was significantly longer than for artemether (43 h). The 95% CI for the difference A vs R was 0, 16 h (P=0.0408) and for difference C vs R it was 2, 19 h (P=0.0140). FCT was similar for the three treatments. The incidence of RI ranged from 5 out of 19 for treatment C to 3 out of 20 for treatment R. Plasma concentration-time profiles of artemotil indicated an irregular and variable rate of absorption after i.m. injection. A late onset of parasite clearance was associated with delayed absorption and/or very low initial artemotil plasma concentrations. Pharmacokinetic-pharmacodynamic evaluations supported a relationship between the rate of parasite clearance and exposure to artemotil during approximately the first 2 days of treatment, and suggested that artemotil has a slower rate of absorption than artemether. Safety assessment, including neurological and audiometric examinations showed no clinically relevant findings. Adverse events before and during treatment included headache, dizziness, nausea, vomiting and abdominal pain. These are characteristic of acute malaria infections and resolved during treatment. CONCLUSIONS: The optimum dose regimen for artemotil in this study was identical to the standard dose regimen of artemether. The findings that artemotil is more slowly absorbed from the i.m. injection site than artemether, and that early systemic availability may be insufficient for an immediate onset of parasite clearance contributed to the decision to choose a higher loading dose of artemotil (divided over two injection sites) and to omit the fifth dose in later studies. With this optimized dosing schedule, the more pronounced depot characteristics of i.m. artemotil can be an advantage, since it may allow shorter hospitalization.     

A comparison of oral artesunate and artemether antimalarial bioactivities in acute falciparum malaria

AIMS: Artesunate and artemether are the two most widely used artemisinin derivatives in the treatment of uncomplicated Plasmodium falciparum malaria, but there is little information on their comparative pharmacokinetics. The aim of this study was to examine the relative oral antimalarial bioavailability and pharmacokinetics of the two derivatives. METHODS: The pharmacokinetic properties of oral artesunate and artemether (4 mg kg(-1)) were compared in a randomized cross-over study of 14 adult patients in western Thailand with acute uncomplicated Plasmodium falciparum malaria. Antimalarial activity was compared using a previously validated, sensitive bioassay. RESULTS: Despite a 29% lower molar dose, oral artesunate administration resulted in significantly larger mean area under the plasma antimalarial activity time curve and median maximum plasma antimalarial activity than after oral artemether (P 相似文献