Nguyen Xuan Thanh

Sex Affects the Steady-State Pharmacokinetics of Primaquine but Not Doxycycline in Healthy Subjects

We evaluated whether sex affects the steady-state pharmacokinetics of the antimalarial drugs, primaquine and doxycycline, in healthy subjects. Seventeen male and 17 female healthy Vietnamese subjects were administered 30 mg (base) of primaquine daily for 14 days. After a 2-week washout period, 14 male and 14 female subjects were administered 100 mg (base) of doxycycline daily for 14 days. Women had significantly higher median values of C(max) (212 versus 122 ng/mL, P< 0.001) and AUC(0-24) (1,909 versus 917 ng . h/mL, P < 0.001) of primaquine compared with men. Other than a longer t(max) in women, no sex-related differences were seen in the pharmacokinetics of doxycycline. The primaquine pharmacokinetic data suggest that women have increased exposure to primaquine, which may put them at increased risk for toxicity when administered the same maintenance dose as men. The similar pharmacokinetics of doxycycline between the two sexes justifies the same maintenance dose.

Open label randomized comparison of dihydroartemisinin–piperaquine and artesunate–amodiaquine for the treatment of uncomplicated Plasmodium falciparum malaria in central Vietnam

Objective  Artesunate–amodiaquine (AAQ) is efficacious for the treatment of uncomplicated Plasmodium falciparum malaria in Africa, but little is known about its efficacy in Southeast Asia. We compared the efficacy of dihydroartemisinin–piperaquine (DHP) and AAQ against falciparum malaria in central Vietnam.

The efficacy and tolerability of artemisinin-piperaquine (Artequick®) versus artesunate-amodiaquine (Coarsucam™) for the treatment of uncomplicated Plasmodium falciparum malaria in south-central Vietnam

BackgroundIn Vietnam, the artemisinin-based combination therapy (ACT) of dihydroartemisinin-piperaquine is currently used for first-line treatment of uncomplicated Plasmodium falciparum malaria. However, limited efficacy and tolerability data are available on alternative forms of ACT in Vietnam in case there is a reduction in the susceptibility of dihydroartemisinin-piperaquine. A study was conducted to compare the efficacy and tolerability of two fixed-dose formulations of ACT, artemisinin–piperaquine (Artequick®, ARPQ) and artesunate-amodiaquine (Coarsucam™, ASAQ) for the treatment of P. falciparum malaria in south-central Vietnam.MethodsA randomized, open-label trial was conducted comparing the efficacy of a two-day regimen of ARPQ (~2.8 mg/kg artemisinin plus ~17.1 mg/kg of piperaquine per day) and a three-day regimen of ASAQ (~4.7 mg/kg of artesunate plus ~12.6 mg/kg of amodiaquine per day) for the treatment of children and adults with uncomplicated falciparum malaria. Primary efficacy endpoint was day 42, PCR-corrected, parasitological cure rate. Secondary endpoints were parasite and fever clearance times and tolerability.ResultsOf 128 patients enrolled, 63 were administered ARPQ and 65 ASAQ. Of the patients who completed the 42 days follow-up period or had a recurrence of malaria, 55 were on ARPQ (30 children, 25 adults) and 59 were on ASAQ (31 children, 28 adults). Recrudescent parasitaemia was PCR-confirmed for one patient in each treatment group, with cure rates at day 42 of 98% (95% CI: 88–100) for both forms of ACT. The median parasite clearance time was significantly slower in the ARPQ group compared with the ASAQ group (48 h vs. 36 h, P<0.001) and fever clearance times were shorter in the ASAQ group (12 h vs. 24 h, P = 0.07). The two forms of ACT were well tolerated with no serious adverse events.ConclusionBoth forms of ACT were highly efficacious in the treatment of uncomplicated P. falciparum malaria. Although the two-day course of ARPQ was equally as effective as the three-day course of ASAQ, parasite and fever clearance times were shorter with ASAQ. Further studies are warranted in different regions of Vietnam to determine the nationwide efficacy of ASAQ.Trial registrationAustralian New Zealand Clinical Trials Registry Number, ACTRN12609000816257

Pharmacokinetics and bioequivalence evaluation of two fixed-dose tablet formulations of dihydroartemisinin and piperaquine in Vietnamese subjects

ABSTRACT The two fixed-dose combinations of dihydroartemisinin and piperaquine (Artekin and Arterakine) were found to be bioinequivalent in healthy Vietnamese subjects. However, because the peak plasma concentrations and areas under the concentration-time curves of dihydroartemisinin and piperaquine were only marginally different between the two formulations, similar therapeutic efficacies are expected in the treatment of malaria infections.

Polymorphism of Plasmodium falciparum Na+/H+ exchanger is indicative of a low in vitro quinine susceptibility in isolates from Viet Nam

BackgroundThe Plasmodium falciparum NA+/H+ exchanger (pfnhe1, gene PF13_0019) has recently been proposed to influence quinine (QN) susceptibility. However, its contribution to QN resistance seems to vary geographically depending on the genetic background of the parasites. Here, the role of this gene was investigated in in vitro QN susceptibility of isolates from Viet Nam.MethodNinety-eight isolates were obtained from three different regions of the Binh Phuoc and Dak Nong bordering Cambodia provinces during 2006-2008. Among these, 79 were identified as monoclonal infection and were genotyped at the microsatellite pfnhe1 ms4760 locus and in vitro QN sensitivity data were obtained for 51 isolates. Parasite growth was assessed in the field using the HRP2 immunodetection assay.ResultsSignificant associations were found between polymorphisms at pfnhe1 microsatellite ms4760 and susceptibility to QN. Isolates with two or more DNNND exhibited much lower susceptibility to QN than those harbouring zero or one DNNND repeats (median IC50 of 682 nM versus median IC50 of 300 nM; p = 0.0146) while isolates with one NHNDNHNNDDD repeat presented significantly reduced QN susceptibility than those who had two (median IC50 of 704 nM versus median IC50 of 375 nM; p < 0.01). These QNR associated genotype features were mainly due to the over representation of profile 7 among isolates (76.5%). The majority of parasites had pfcrt76T and wild-type pfmdr1 (> 95%) thus preventing analysis of associations with these mutations. Interestingly, area with the highest median QN IC50 showed also the highest percentage of isolates carrying the pfnhe1 haplotype 7.ConclusionsThe haplotype 7 which is the typical Asian profile is likely well-adapted to high drug pressure in this area and may constitute a good genetic marker to evaluate the dissemination of QNR in this part of the world.

New PfATP6 Mutations Found in Plasmodium falciparum Isolates from Vietnam

Artemisinin and its derivatives have been used against malaria in Vietnam since 1991 (4). An increase in clinical artemisinin resistance would be disastrous for malaria treatment. All possible indicators of this potential resistance must be monitored. The sarco/endoplasmic reticulum Ca2+-ATPase ortholog of Plasmodium falciparum (PfATP6) has been suggested to be the target of artemisinins (3). Consequently, the polymorphism of PfATP6 is being monitored by several scientific research teams (2, 6, 7, 9, 10, 15) We report here the genotyping results of PfATP6 from 98 P. falciparum field isolates collected in 2006 to 2007 in South Vietnam. Parasite samples were taken from patients (28.82 ± 12.31 years old) with uncomplicated P. falciparum infections before drug treatment. They were collected in Binh Phuoc and Dak Nong provinces in South Vietnam. Patients did not follow a chemoprophylaxis before sampling. Diagnosis was carried out by microscopic examination and confirmed by real-time PCR as previously described (14). The whole PfATP6 gene was sequenced once in both directions with five primer pairs (adapted from Jambou et al. [7]) and compared to the reference sequence of the 3D7 strain (“PFA0310c” in the genome annotation). We found a total of eight mutations (Table ​(Table1):1): four nonsynonymous (I89T, N463S, N465S, and N683K), three synonymous (N460N, I898I, and C1031C), and one double deletion leading to the loss of two asparagines (Δ463-464). Five of these have not been described previously (N460N, N463S, Δ463-464, N465S, and C1031C). All of the mutations were detected on different isolates, except for I898I, which was found alone or associated with others. Like Mugittu et al. in Tanzania (10) and Zhang et al. in China (15), we did not find either the S769N mutation or the A623E E431K double mutation, associated with reduced susceptibility to artemether (7). Previously, the N683K mutation was only found in Cambodia (2), suggesting that it may be specific to P. falciparum from South-East Asia. However, we did not detect this mutation in the South-East Asiatic strains W2 and Dd2 (both from Indochina, Malaria Research and Reference Reagent Resource Center), IMT-A4 (Vietnam), and IMT-K2 (Cambodia; data not shown). Interestingly, the N460N, N463S, N465S, and N683K mutations and the Δ463-464 double deletion are in a stretch of nine asparagines located in the interspecies variable region of PfATP6, a domain specific for Plasmodium species (8). Consequently, these modifications could be adaptive changes that might alter susceptibility to artemisinins. TABLE 1. Diversity of PfATP6 in P. falciparum samples from Vietnam Cojean et al. found the S769N mutation in an isolate from Africa that was susceptible to dihydroartemisinin (1), while Noedl et al. did not find this mutation in Cambodian samples that were less susceptible to artesunate (11). Consequently, we speculated on whether the correlation between the S769N mutation and the increased artemether 50% inhibitory concentration found in six isolates from French Guyana (7) should be regarded as a local case. Like other investigators, we did not detect any polymorphism in codon 263, described as the key amino acid for the interaction between PfATP6 and artemisinins (13). Mutations observed in our sequences and in those of previous studies (2, 6, 9) could be implicated indirectly in this interaction, in the case of association with artemisinin susceptibility. Considering the development of artemisinin combined therapies and the possible implication of PfATP6 in artemisinin resistance, the molecular variability of this gene should be carefully monitored.

Pharmacokinetics and Ex Vivo Antimalarial Activity of Artesunate-Azithromycin in Healthy Volunteers

ABSTRACT In 18 male healthy subjects, artesunate (200 mg)-azithromycin (1,500 mg) daily for 3 days was found to be well tolerated, with only mild gastrointestinal disturbances reported. The pharmacokinetic properties of artesunate-azithromycin given in combination are comparable to those of the drugs given alone. Artesunate and its major active metabolite, dihydroartemisinin, are responsible for most of the ex vivo antimalarial activity, with a delayed contribution by azithromycin.

In Vivo Efficacy and Tolerability of Artesunate–Azithromycin for the Treatment of Falciparum Malaria in Vietnam

Safe and effective antimalarial drugs are required for the treatment of pregnant women. We report a 3-day regimen of artesunate (4 mg/kg/day)-azithromycin (25 mg/kg/day) (ASAZ) to be efficacious (polymerase chain reaction-corrected cure rate of 96.7%) and well tolerated in the treatment of Plasmodium falciparum malaria in children (N = 11) and adults (N = 19), in Vietnam in 2010. In comparison, the cure rate for artesunate (4 mg/kg on day 0, 2 mg/kg on days 1-6) was 90.0% in children (N = 7) and adults (N = 23). Because azithromycin is considered safe in pregnancy, our findings provide further evidence that ASAZ should be evaluated for the treatment of pregnant women with malaria.