ABSTRACT
BACKGROUND: The transition from malaria control to elimination requires understanding and targeting interventions among high-risk populations. In Vietnam, forest-goers are often difficult to test, treat and follow-up for malaria because they are highly mobile. If undiagnosed, forest-goers can maintain parasite reservoirs and contribute to ongoing malaria transmission. METHODS: A case-control study was conducted to identify malaria risk factors associated with forest-goers in three communes in Phu Yen Province, Vietnam. Cases (n = 81) were residents from the study area diagnosed with malaria and known to frequent forest areas. Controls (n = 94) were randomly selected forest-going residents from within the study area with no identified malaria infection. Participants were interviewed face-to-face using a standard questionnaire to identify malaria risk factors. Logistic regression was used to calculate odds ratios (ORs) and 95% CI for risk factors after adjusting for socio-demographic characteristics. RESULTS: Among the cases, malaria infection varied by species: 66.7% were positive for Plasmodium falciparum, 29.6% for Plasmodium vivax, and 3.7% were diagnosed as mixed infection. Cases were less likely than controls to use treated nets (aOR = 0.31; 95% CI 0.12-0.80), work after dark (aOR = 2.93; 95% CI 1.35, 6.34), bath in a stream after dark (aOR = 2.44; 95% CI 1.02-5.88), and collect water after dark (aOR = 1.99; 95% CI 1.02-3.90). CONCLUSIONS: As Vietnam moves toward malaria elimination, these findings can inform behaviour change communication and malaria prevention strategies, incorporating the risk of after-dark and water-related activities, in this priority and difficult-to-access population group.
Subject(s)
Malaria, Falciparum/epidemiology , Malaria, Vivax/epidemiology , Plasmodium falciparum/physiology , Plasmodium vivax/physiology , Adult , Case-Control Studies , Female , Forests , Humans , Male , Middle Aged , Prevalence , Risk Factors , Vietnam/epidemiology , Young AdultABSTRACT
PURPOSE: Ophthalmic safety observations are reported from a clinical trial comparing tafenoquine (TQ) efficacy and safety versus sequential chloroquine (CQ)/primaquine (PQ) for acute Plasmodium vivax malaria. METHODS: In an active-control, double-blind study, 70 adult subjects with microscopically confirmed P. vivax malaria were randomized (2:1) to receive 400Ā mg TQ Ć 3Ā days or 1500Ā mg CQ Ć 3Ā days then 15Ā mg PQ Ć 14Ā days. MAIN OUTCOME MEASURES: clinically relevant changes at Day 28 and Day 90 versus baseline in the ocular examination, color vision evaluation, and corneal and retinal digital photography. RESULTS: Post-baseline keratopathy occurred in 14/44 (31.8%) patients with TQ and 0/24 with CQ/PQ (P = 0.002). Mild post-baseline retinal findings were reported in 10/44 (22.7%) patients receiving TQ and 2/24 (8.3%) receiving CQ/PQ (P = 0.15; treatment difference 14.4%, 95% CI -Ā 5.7, 30.8). Masked evaluation of retinal photographs identified a retinal hemorrhage in one TQ patient (Day 90) and a slight increase in atrophy from baseline in one TQ and one CQ/PQ patient. Visual field sensitivity (Humphrey™ 10-2 test) was decreased in 7/44 (15.9%) patients receiving TQ and 3/24 (12.5%) receiving CQ/PQ; all cases were < 5Ā dB. There were no clinically relevant changes in visual acuity or macular function tests. CONCLUSIONS: There was no evidence of clinically relevant ocular toxicity with either treatment. Mild keratopathy was observed with TQ, without conclusive evidence of early retinal changes. Eye safety monitoring continues in therapeutic studies of low-dose tafenoquine (300Ā mg single dose). CLINICAL TRIAL REGISTRATION: Clinicaltrials.gov identifier: NCT01290601.
Subject(s)
Aminoquinolines/administration & dosage , Cornea/pathology , Eye Infections, Parasitic/drug therapy , Malaria, Vivax/drug therapy , Plasmodium vivax/isolation & purification , Primaquine/administration & dosage , Retina/pathology , Adult , Antimalarials/therapeutic use , Dose-Response Relationship, Drug , Double-Blind Method , Eye Infections, Parasitic/diagnosis , Eye Infections, Parasitic/parasitology , Female , Humans , Malaria, Vivax/diagnosis , Malaria, Vivax/parasitology , Male , Middle Aged , Retrospective Studies , Slit Lamp Microscopy , Time Factors , Treatment Outcome , Young AdultABSTRACT
BACKGROUND: Although microscopy is a standard diagnostic tool for malaria and the gold standard, it is infrequently used because of unavailability of laboratory facilities and the absence of skilled readers in poor resource settings. Malaria rapid diagnostic tests (RDT) are currently used instead of or as an adjunct to microscopy. However, at very low parasitaemia (usually < 100 asexual parasites/Āµl), the test line on malaria rapid diagnostic tests can be faint and consequently hard to visualize and this may potentially affect the interpretation of the test results. Fio Corporation (Canada), developed an automated RDT reader named Deki Reader™ for automatic analysis and interpretation of rapid diagnostic tests. This study aimed to compare visual assessment and automated Deki Reader evaluations to interpret malaria rapid diagnostic tests against microscopy. Unlike in the previous studies where expert laboratory technicians interpreted the test results visually and operated the device, in this study low cadre health care workers who have not attended any formal professional training in laboratory sciences were employed. METHODS: Finger prick blood from 1293 outpatients with fever was tested for malaria using RDT and Giemsa-stained microscopy for thick and thin blood smears. Blood samples for RDTs were processed according to manufacturers' instructions automated in the Deki Reader. Results of malaria diagnoses were compared between visual and the automated devise reading of RDT and microscopy. RESULTS: The sensitivity of malaria rapid diagnostic test results interpreted by the Deki Reader was 94.1% and that of visual interpretation was 93.9%. The specificity of malaria rapid diagnostic test results was 71.8% and that of human interpretation was 72.0%. The positive predictive value of malaria RDT results by the Deki Reader and visual interpretation was 75.8 and 75.4%, respectively, while the negative predictive values were 92.8 and 92.4%, respectively. The accuracy of RDT as interpreted by DR and visually was 82.6 and 82.1%, respectively. CONCLUSION: There was no significant difference in performance of RDTs interpreted by either automated DR or visually by unskilled health workers. However, despite the similarities in performance parameters, the device has proven useful because it provides stepwise guidance on processing RDT, data transfer and reporting.
Subject(s)
Diagnostic Tests, Routine/methods , Malaria/diagnosis , Microscopy/methods , Outpatients/statistics & numerical data , Parasitemia/diagnosis , Adolescent , Adult , Female , Health Facilities , Humans , Male , Military Facilities , Sensitivity and Specificity , Tanzania , Young AdultABSTRACT
BACKGROUND: Malaria continues to be a major burden in the endemic regions of Kenya. Health outcomes associated with case management are dependent on the use of appropriate diagnostic methods. Rapid diagnostic tests (RDTs) have provided an important tool to help implement the WHO recommended parasite-based diagnosis in regions where expert microscopy is not available. One of the questions that must be answered when implementing RDTs is whether these tests are useful in a specific endemic region, as well as the most appropriate RDT to use. Data on the sensitivity and specificity of RDT test kits is important information to help guide test selection by national malaria control programmes. METHODS: This study evaluated the diagnostic performance of RDTs including First Response (FR), CareStart (CS), SD Bioline (SD), and Binax Now (BN). The performance of these malaria kits was compared to microscopy, the gold standard, for the detection of malaria parasites. The malaria RDTs were also compared to PCR which is a more sensitive reference test. Five-hundred participants were included in the study through community screening (50Ā %) and testing suspected malaria cases referred from health facilities. RESULTS: Of the 500 participants recruited, 33Ā % were malaria positive by microscopy while 51.2Ā % were positive by PCR. Compared to microscopy, the sensitivity of eight RDTs to detect malaria parasites was 90.3-94.8Ā %, the specificity was 73.3-79.3Ā %, the positive predictive value was 62.2-68.8Ā %, and the negative predictive value was 94.3-96.8Ā %. Compared to PCR, the sensitivity of the RDTs to detect malaria parasites was 71.1-75.4Ā %, the specificity was 80.3-84.4Ā %, the positive predictive value was 80.3-83.3Ā %, and the negative predictive value was 73.7-76.1Ā %. The RDTs had a moderate measure of agreement with both microscopy (>80.1Ā %) and PCR (>77.6Ā %) with a κĀ >Ā 0.6. CONCLUSION: The performance of the evaluated RDTs using field samples was moderate; hence they can significantly improve the quality of malaria case management in endemic regions in Kenya by ensuring appropriate treatment of malaria positive individuals and avoiding indiscriminate use of anti-malarial drugs for parasite negative patients.
Subject(s)
Diagnostic Tests, Routine/methods , Malaria/diagnosis , Adolescent , Adult , Child , Child, Preschool , Female , Humans , Immunoassay , Infant , Kenya , Male , Microscopy , Middle Aged , Polymerase Chain Reaction , Sensitivity and Specificity , Young AdultABSTRACT
Individuals with glucose 6-phosphate dehydrogenase (G6PD) deficiency are at risk for the development of hemolytic anemia when given 8-aminoquinolines (8-AQs), an important class of antimalarial/antiinfective therapeutics. However, there is no suitable animal model that can predict the clinical hemolytic potential of drugs. We developed and validated a human (hu)RBC-SCID mouse model by giving nonobese diabetic/SCID mice daily transfusions of huRBCs from G6PD-deficient donors. Treatment of SCID mice engrafted with G6PD-deficient huRBCs with primaquine, an 8-AQ, resulted in a dose-dependent selective loss of huRBCs. To validate the specificity of this model, we tested known nonhemolytic antimalarial drugs: mefloquine, chloroquine, doxycycline, and pyrimethamine. No significant loss of G6PD-deficient huRBCs was observed. Treatment with drugs known to cause hemolytic toxicity (pamaquine, sitamaquine, tafenoquine, and dapsone) resulted in loss of G6PD-deficient huRBCs comparable to primaquine. This mouse model provides an important tool to test drugs for their potential to cause hemolytic toxicity in G6PD-deficient populations.
Subject(s)
Anemia, Hemolytic/diagnosis , Erythrocyte Transfusion/methods , Glucosephosphate Dehydrogenase Deficiency/therapy , Primaquine/therapeutic use , Aminoquinolines/adverse effects , Aminoquinolines/therapeutic use , Anemia, Hemolytic/blood , Anemia, Hemolytic/chemically induced , Animals , Antimalarials/adverse effects , Antimalarials/therapeutic use , Chloroquine/adverse effects , Chloroquine/therapeutic use , Combined Modality Therapy , Dapsone/adverse effects , Dapsone/therapeutic use , Dose-Response Relationship, Drug , Doxycycline/adverse effects , Doxycycline/therapeutic use , Drug Evaluation, Preclinical/methods , Erythrocyte Count , Female , Glucosephosphate Dehydrogenase Deficiency/blood , Humans , Mefloquine/adverse effects , Mefloquine/therapeutic use , Mice , Mice, Inbred NOD , Mice, SCID , Primaquine/adverse effects , Pyrimethamine/adverse effects , Pyrimethamine/therapeutic use , Reproducibility of Results , Sensitivity and Specificity , Transplantation, HeterologousABSTRACT
Primaquine (PQ) remains the sole available drug to prevent relapse of Plasmodium vivax malaria more than 60 years after licensure. While this drug was administered as a racemic mixture, prior studies suggested a pharmacodynamic advantage based on differential antirelapse activity and/or toxicities of its enantiomers. Oral primaquine enantiomers prepared using a novel, easily scalable method were given for 7 days to healthy rhesus macaques in a dose-rising fashion to evaluate their effects on the blood, liver, and kidneys. The enantiomers were then administered to Plasmodium cynomolgi-infected rhesus macaques at doses of 1.3 and 0.6 mg/kg of body weight/day in combination with chloroquine. The (-)-PQ enantiomer had higher clearance and apparent volume of distribution than did (+)-PQ and was more extensively converted to the carboxy metabolite. There is evidence for differential oxidative stress with a concentration-dependent rise in methemoglobin (MetHgb) with increasing doses of (+)-PQ greater than that seen for (-)-PQ. There was a marked, reversible hepatotoxicity in 2 of 3 animals dosed with (-)-PQ at 4.5 mg/kg. (-)-PQ in combination with chloroquine was successful in preventing P. cynomolgi disease relapse at doses of 0.6 and 1.3 mg/kg/day, while 1 of 2 animals receiving (+)-PQ at 0.6 mg/kg/day relapsed. While (-)-PQ was also associated with hepatotoxicity at higher doses as seen previously, this has not been identified as a clinical concern in humans during >60 years of use. Limited evidence for increased MetHgb generation with the (+) form in the rhesus macaque model suggests that it may be possible to improve the therapeutic window for hematologic toxicity in the clinic by separating primaquine into its enantiomers.
Subject(s)
Antimalarials/pharmacokinetics , Chloroquine/pharmacology , Malaria/drug therapy , Plasmodium cynomolgi/drug effects , Primaquine/pharmacokinetics , Animals , Antimalarials/blood , Antimalarials/chemistry , Antimalarials/pharmacology , Disease Models, Animal , Drug Administration Schedule , Drug Therapy, Combination , Humans , Kidney/drug effects , Liver/drug effects , Macaca mulatta , Malaria/blood , Malaria/parasitology , Malaria, Vivax , Male , Methemoglobin/metabolism , Oxidative Stress , Plasmodium cynomolgi/growth & development , Plasmodium vivax , Primaquine/blood , Primaquine/chemistry , Primaquine/pharmacology , Recurrence , StereoisomerismABSTRACT
Hematotoxicity in individuals genetically deficient in glucose-6-phosphate dehydrogenase (G6PD) activity is the major limitation of primaquine (PQ), the only antimalarial drug in clinical use for treatment of relapsing Plasmodium vivax malaria. PQ is currently clinically used in its racemic form. A scalable procedure was developed to resolve racemic PQ, thus providing pure enantiomers for the first time for detailed preclinical evaluation and potentially for clinical use. These enantiomers were compared for antiparasitic activity using several mouse models and also for general and hematological toxicities in mice and dogs. (+)-(S)-PQ showed better suppressive and causal prophylactic activity than (-)-(R)-PQ in mice infected with Plasmodium berghei. Similarly, (+)-(S)-PQ was a more potent suppressive agent than (-)-(R)-PQ in a mouse model of Pneumocystis carinii pneumonia. However, at higher doses, (+)-(S)-PQ also showed more systemic toxicity for mice. In beagle dogs, (+)-(S)-PQ caused more methemoglobinemia and was toxic at 5 mg/kg of body weight/day given orally for 3 days, while (-)-(R)-PQ was well tolerated. In a novel mouse model of hemolytic anemia associated with human G6PD deficiency, it was also demonstrated that (-)-(R)-PQ was less hemolytic than (+)-(S)-PQ for the G6PD-deficient human red cells engrafted in the NOD-SCID mice. All these data suggest that while (+)-(S)-PQ shows greater potency in terms of antiparasitic efficacy in rodents, it is also more hematotoxic than (-)-(R)-PQ in mice and dogs. Activity and toxicity differences of PQ enantiomers in different species can be attributed to their different pharmacokinetic and metabolic profiles. Taken together, these studies suggest that (-)-(R)-PQ may have a better safety margin than the racemate in human.
Subject(s)
Antimalarials/pharmacokinetics , Hemolysis/drug effects , Malaria/drug therapy , Pneumonia, Pneumocystis/drug therapy , Primaquine/pharmacokinetics , Animals , Antimalarials/isolation & purification , Antimalarials/toxicity , Dogs , Erythrocyte Transfusion , Erythrocytes/drug effects , Erythrocytes/parasitology , Female , Glucosephosphate Dehydrogenase Deficiency/metabolism , Humans , Lethal Dose 50 , Malaria/parasitology , Mice , Mice, Inbred BALB C , Mice, Inbred ICR , Mice, Inbred NOD , Mice, SCID , Plasmodium berghei/drug effects , Plasmodium berghei/physiology , Pneumocystis carinii/drug effects , Pneumocystis carinii/physiology , Pneumonia, Pneumocystis/microbiology , Primaquine/isolation & purification , Primaquine/toxicity , Stereoisomerism , Transplantation, HeterologousABSTRACT
BACKGROUND: Intravenous artesunate (IV AS) is the present treatment of choice for severe malaria, but development of artemisinin resistance indicates that a further agent will be needed. Methylene blue (MB) is an approved human agent for IV and oral use, and is already being investigated for oral treatment of uncomplicated malaria. To initiate investigation of IV MB for severe malaria, the efficacy of IV MB was compared to IV AS and to their combination in rat and non-human primate malaria models. METHODS: IV MB was compared to IV AS and to their combination in the Plasmodium berghei-infected rat, a self-curing model; the Plasmodium falciparum-infected Aotus monkey, a fatal model; and the Plasmodium cynomolgi-infected rhesus monkey, a fatal model. Key endpoints were clearance of all parasites from the blood and cure (clearance without recrudescence). RESULTS: In rats, the minimal dose of individual drugs and their combination that cleared parasites from all animals was 20 mg IV MB/kg/day, 60 mg IV AS/kg/day and 10 mg IV MB/kg/day plus 30 mg IV AS/kg/day. In Aotus, 8 mg IV MB/kg/day and 8 mg IV AS/kg/day each cured two of three monkeys by one day after therapy, and the third monkey in each group was cured two days later. The combination of both drugs did not result in superior efficacy. In rhesus, 8 mg IV MB/kg/day and 8 mg IV AS/kg/day performed comparably: parasite clearance occurred by day 3 of therapy, although only one of four animals in each dose group cured. Eight mg/kg/day of both drugs in combination was 100% successful: all four of four animals cured. CONCLUSIONS: In each of the three animal models, the efficacy of IV MB was approximately equal to that of standard of care IV AS. In the rat and rhesus models, the combination was more effective than either single agent. This preclinical data suggests that IV MB, alone or in combination with IV AS, is effective against Plasmodium spp. and can be evaluated in severe malaria models.
Subject(s)
Antimalarials/pharmacology , Artemisinins/pharmacology , Malaria/drug therapy , Methylene Blue/pharmacology , Administration, Intravenous , Animals , Aotidae , Artesunate , Disease Models, Animal , Drug Evaluation, Preclinical/methods , Drug Therapy, Combination , Female , Macaca mulatta , Male , Plasmodium berghei , Plasmodium cynomolgi , Rats , Rats, Sprague-Dawley , Treatment OutcomeABSTRACT
BACKGROUND: Mirincamycin is a close analog of the drug clindamycin used to treat Plasmodium falciparum blood stages. The clinical need to treat Plasmodium vivax dormant liver stages and prevent relapse with a drug other than primaquine led to the evaluation of mirinicamycin against liver stages in animals. METHODS: cis-mirinicamycin and trans-mirinicamycin were evaluated as prophylaxis against early liver stages of Plasmodium berghei in mice and as antirelapse hypnozoiticides against Plasmodium cynomolgi in the Rhesus monkey (Macaca mulatta). RESULTS: Mirincamycin was very effective against early liver stages of P. berghei in mice: both cis and trans enantiomers were 90-100% causally prophylactic at 3.3Ā mg/kg/day for 3Ā days orally. Both cis and trans mirincamycin, however, failed to kill dormant liver stages (hypnozoites) in the P. cynomolgi infected Rhesus monkey, the only preclinical hypnozoite model. Mirincamycin enantiomers at 80Ā mg/kg/day for 7Ā days orally, a dose that generated exposures comparable to that seen clinically, did not prevent relapse in any of four monkeys. CONCLUSIONS: Although efficacy against early liver stages of P. berghei was thought to correlate with anti-hypnozoite activity in primates, for mirincamycin, at least, there was no correlation. The negative P. cynomolgi hypnozoite data from Rhesus monkeys indicates that mirincamycin is unlikely to have potential as a clinical anti-relapse agent.
Subject(s)
Antimalarials/therapeutic use , Clindamycin/analogs & derivatives , Malaria/drug therapy , Plasmodium cynomolgi , Animals , Antibiotic Prophylaxis , Antimalarials/administration & dosage , Antimalarials/pharmacokinetics , Clindamycin/administration & dosage , Clindamycin/pharmacokinetics , Clindamycin/therapeutic use , Disease Models, Animal , Female , Macaca mulatta , Malaria/parasitology , Mice , Mice, Inbred ICR , Parasitemia , Plasmodium vivax , RecurrenceABSTRACT
BACKGROUND: Haemoglobin (Hb) recovers slowly in malaria and may be influenced by naturally acquired immunity. Hb recovery was compared in malaria immune, indigenous Papuan and non-Papuan adults with limited malaria exposure. METHODS: Hb concentrations were measured on Days (D) 0, 3, 7, and 28 in 57 Papuans and 105 non-Papuans treated with chloroquine, doxycycline or both drugs for acute, uncomplicated Plasmodium vivax (n = 64) or Plasmodium falciparum (n = 98). RESULTS: Mean (SD, range) D0 Hb was 12.7 (2.2, 7Ā21.3) g/dL and was similar in P. falciparum infected Papuans and non-Papuans: 12.2 vs. 12.8 g/dL (P = 0.15) but significantly lower in: (i) P. vivax-infected Papuans vs. P. vivax-infected non-Papuans: 11.4 vs. 13.47 g/dL [Δ = −2.07 (95% CI: Ā3.3 Ā Ā0.8), P = 0.0018], (ii) all patients with splenomegaly (vs. those without splenomegaly): 12.16 vs. 13.01 g/dL [Δ = −0.85 (−1.6Ā Ā0.085), P = 0.029], and (iii) all females vs. all males: 10.18 vs. 13.01 g/dL [Δ = −2.82 (−3.97 Ā Ā1.67), P < 0.0001].Multiple regression identified female sex (P = 0.000), longer illness duration (P = 0.015) (P. falciparum patients) and Papuan ethnicity (P = 0.017) (P. vivax patients) as significant factors for a lower D0 Hb. Mean D28 Hb increased to 13.6 g/dL [Δ = 1.01 (0.5-1.5) vs. D0 Hb, P = 0.0001]. It was: (i) positively correlated with the D0 Hb (adjusted R2 = 0.24, P = 0.000), and was significantly lower in P. vivax infected Papuans vs. non-Papuans: 12.71 vs. 14.46 g/dL [Δ = −1.7 (−2.95Ā Ā0.5, P = 0.006). CONCLUSIONS: Haemoglobin recovery was related to baseline Hb. Vivax-infected malaria immune Papuans had persistently lower Hb concentrations compared to non-Papuans with limited malaria exposure. This haematological disadvantage remains unexplained.
Subject(s)
Anemia/pathology , Antimalarials/administration & dosage , Malaria, Falciparum/complications , Malaria, Falciparum/drug therapy , Malaria, Vivax/complications , Malaria, Vivax/drug therapy , Adolescent , Adult , Chloroquine/administration & dosage , Doxycycline/administration & dosage , Female , Hemoglobins/analysis , Humans , Indonesia , Male , Time Factors , Treatment Outcome , Young AdultABSTRACT
BACKGROUND: The efficacy of the 8-aminoquinoline (8AQ) drug primaquine (PQ) has been historically linked to CYP-mediated metabolism. Although to date no clear evidence exists in the literature that unambiguously assigns the metabolic pathway or specific metabolites necessary for activity, recent literature suggests a role for CYP 2D6 in the generation of redox active metabolites. METHODS: In the present study, the specific CYP 2D6 inhibitor paroxetine was used to assess its effects on the production of specific phenolic metabolites thought to be involved in PQ efficacy. Further, PQ causal prophylactic (developing liver stage) efficacy against Plasmodium berghei in CYP 2D knockout mice was assessed in comparison with a normal C57 background and with humanized CYP 2D6 mice to determine the direct effects of CYP 2D6 metabolism on PQ activity. RESULTS: PQ exhibited no activity at 20 or 40Ā mg/kg in CYP 2D knockout mice, compared to 5/5 cures in normal mice at 20Ā mg/kg. The activity against developing liver stages was partially restored in humanized CYP 2D6 mice. CONCLUSIONS: These results unambiguously demonstrate that metabolism of PQ by CYP 2D6 is essential for anti-malarial causal prophylaxis efficacy.
Subject(s)
Antimalarials/metabolism , Cytochrome P-450 CYP2D6/genetics , Cytochrome P-450 CYP2D6/metabolism , Primaquine/metabolism , Animals , Antimalarials/chemistry , Antimalarials/pharmacokinetics , Antimalarials/therapeutic use , Hydroxylation , Malaria/drug therapy , Malaria/parasitology , Male , Mice , Mice, Inbred BALB C , Mice, Knockout , Plasmodium berghei , Primaquine/chemistry , Primaquine/pharmacokinetics , Primaquine/therapeutic useABSTRACT
AIMS: The long-acting 8-aminoquinoline tafenoquine (TQ) coadministered with chloroquine (CQ) may radically cure Plasmodium vivax malaria. Coadministration therapy was evaluated for a pharmacokinetic interaction and for pharmacodynamic, safety and tolerability characteristics. METHODS: Healthy subjects, 18-55 years old, without documented glucose-6-phosphate dehydrogenase deficiency, received CQ alone (days 1-2, 600 mg; and day 3, 300 mg), TQ alone (days 2 and 3, 450 mg) or coadministration therapy (day 1, CQ 600 mg; day 2, CQ 600 mg + TQ 450 mg; and day 3, CQ 300 mg + TQ 450 mg) in a randomized, double-blind, parallel-group study. Blood samples for pharmacokinetic and pharmacodynamic analyses and safety data, including electrocardiograms, were collected for 56 days. RESULTS: The coadministration of CQ + TQ had no effect on TQ AUC0-t , AUC0-∞ , Tmax or t1/2 . The 90% confidence intervals of CQ + TQ vs. TQ for AUC0-t , AUC0-∞ and t1/2 indicated no drug interaction. On day 2 of CQ + TQ coadministration, TQ Cmax and AUC0-24 increased by 38% (90% confidence interval 1.27, 1.64) and 24% (90% confidence interval 1.04, 1.46), respectively. The pharmacokinetics of CQ and its primary metabolite desethylchloroquine were not affected by TQ. Coadministration had no clinically significant effect on QT intervals and was well tolerated. CONCLUSIONS: No clinically significant safety or pharmacokinetic/pharmacodynamic interactions were observed with coadministered CQ and TQ in healthy subjects.
Subject(s)
Aminoquinolines , Antimalarials , Chloroquine , Administration, Oral , Adolescent , Adult , Aminoquinolines/administration & dosage , Aminoquinolines/adverse effects , Aminoquinolines/pharmacokinetics , Antimalarials/administration & dosage , Antimalarials/adverse effects , Antimalarials/pharmacokinetics , Area Under Curve , Chloroquine/administration & dosage , Chloroquine/adverse effects , Chloroquine/pharmacokinetics , Double-Blind Method , Drug Interactions , Drug Therapy, Combination , Female , Glucosephosphate Dehydrogenase/genetics , Glucosephosphate Dehydrogenase/metabolism , Humans , Male , Middle Aged , Polymorphism, Single Nucleotide , Young AdultABSTRACT
BACKGROUND: The 8-aminoquinoline (8AQ) drug primaquine (PQ) is currently the only approved drug effective against the persistent liver stage of the hypnozoite forming strains Plasmodium vivax and Plasmodium ovale as well as Stage V gametocytes of Plasmodium falciparum. To date, several groups have investigated the toxicity observed in the 8AQ class, however, exact mechanisms and/or metabolic species responsible for PQ's haemotoxic and anti-malarial properties are not fully understood. METHODS: In the present study, the metabolism of PQ was evaluated using in vitro recombinant metabolic enzymes from the cytochrome P450 (CYP) and mono-amine oxidase (MAO) families. Based on this information, metabolite identification experiments were performed using nominal and accurate mass measurements. RESULTS: Relative activity factor (RAF)-weighted intrinsic clearance values show the relative role of each enzyme to be MAO-A, 2C19, 3A4, and 2D6, with 76.1, 17.0, 5.2, and 1.7% contributions to PQ metabolism, respectively. CYP 2D6 was shown to produce at least six different oxidative metabolites along with demethylations, while MAO-A products derived from the PQ aldehyde, a pre-cursor to carboxy PQ. CYPs 2C19 and 3A4 produced only trace levels of hydroxylated species. CONCLUSIONS: As a result of this work, CYP 2D6 and MAO-A have been implicated as the key enzymes associated with PQ metabolism, and metabolites previously identified as potentially playing a role in efficacy and haemolytic toxicity have been attributed to production via CYP 2D6 mediated pathways.
Subject(s)
Aminoquinolines/metabolism , Antimalarials/metabolism , Cytochrome P-450 Enzyme System/metabolism , Primaquine/metabolism , Cytochrome P-450 Enzyme System/genetics , Humans , Mass Spectrometry , Metabolic Networks and Pathways , Recombinant Proteins/genetics , Recombinant Proteins/metabolismABSTRACT
The pharmacokinetics, oral bioavailability, and ex vivo antimalarial activity of mirincamycin isomers in a healthy rhesus monkey model were assessed to support lead optimization of novel nonhemolytic drugs for radical cure and causal prophylaxis of malaria. Fourteen male rhesus monkeys were randomized to four groups, which included cis and trans isomers by the oral and intravenous routes, with vehicle-only controls for each dosing route. Concentration-time data were collected for 7 days and were analyzed by noncompartmental analysis. cis-Mirincamycin had an absolute oral bioavailability of 13.6%, which was slightly higher than that of trans-mirincamycin (11.7%), but this difference was not statistically significant. There was a statistically significant difference between the area under the concentration-time curve from zero to 48 h (AUC(0-48)) of cis-mirincamycin and that of trans-mirincamycin after oral dosing. When cultured in vitro with the W2 clone of Plasmodium falciparum, the 50% inhibitory concentrations for cis-mirincamycin, trans-mirincamycin, and dihydroartemisinin were 11,300, 12,300, and 2.30 nM, respectively. However, when dosed primate plasma was cultured ex vivo against the W2 clone, both isomers had much greater relative potencies than their in vitro activities relative to results for dihydroartemisinin, an increase of approximately 100-fold for the cis isomer and 150-fold for the trans isomer. Further, oral ex vivo activity was significantly higher than intravenous activity for both isomers, particularly during the first 90 min following dosing, suggesting the first-pass formation of one or more metabolites with blood-stage antimalarial activity. Identification of the metabolic pathways and metabolites may help to further delineate the properties of this class of drugs with previously demonstrated liver-stage antimalarial activity.
Subject(s)
Antimalarials/pharmacokinetics , Clindamycin/analogs & derivatives , Administration, Oral , Animals , Antimalarials/administration & dosage , Antimalarials/chemistry , Antimalarials/pharmacology , Biological Availability , Clindamycin/administration & dosage , Clindamycin/chemistry , Clindamycin/pharmacokinetics , Clindamycin/pharmacology , Dose-Response Relationship, Drug , Drug Administration Schedule , Injections, Intravenous , Isomerism , Macaca mulatta , Malaria, Falciparum/drug therapy , Malaria, Falciparum/metabolism , Male , Parasitic Sensitivity Tests , Plasmodium falciparum/drug effects , Treatment OutcomeABSTRACT
BACKGROUND: Tafenoquine is an 8-aminoquinoline being developed for radical cure (blood and liver stage elimination) of Plasmodium vivax. During monotherapy treatment, the compound exhibits slow parasite and fever clearance times, and toxicity in glucose-6-phosphate dehydrogenase (G6PD) deficiency is a concern. Combination with other antimalarials may mitigate these concerns. METHODS: In 2005, the radical curative efficacy of tafenoquine combinations was investigated in Plasmodium cynomolgi-infected naĆÆve Indian-origin Rhesus monkeys. In the first cohort, groups of two monkeys were treated with a three-day regimen of tafenoquine at different doses alone and in combination with a three-day chloroquine regimen to determine the minimum curative dose (MCD). In the second cohort, the radical curative efficacy of a single-day regimen of tafenoquine-mefloquine was compared to that of two three-day regimens comprising tafenoquine at its MCD with chloroquine or artemether-lumefantrine in groups of six monkeys. In a final cohort, the efficacy of the MCD of tafenoquine against hypnozoites alone and in combination with chloroquine was investigated in groups of six monkeys after quinine pre-treatment to eliminate asexual parasites. Plasma tafenoquine, chloroquine and desethylchloroquine concentrations were determined by LC-MS in order to compare doses of the drugs to those used clinically in humans. RESULTS: The total MCD of tafenoquine required in combination regimens for radical cure was ten-fold lower (1.8 mg/kg versus 18 mg/kg) than for monotherapy. This regimen (1.8 mg/kg) was equally efficacious as monotherapy or in combination with chloroquine after quinine pre-treatment to eliminate asexual stages. The same dose of (1.8 mg/kg) was radically curative in combination with artemether-lumefantrine. Tafenoquine was also radically curative when combined with mefloquine. The MCD of tafenoquine monotherapy for radical cure (18 mg/kg) appears to be biologically equivalent to a 600-1200 mg dose in humans. At its MCD in combination with blood schizonticidal drugs (1.8 mg/kg), the maximum observed plasma concentrations were substantially lower than (20-84 versus 550-1,100 ng/ml) after administration of 1, 200 mg in clinical studies. CONCLUSIONS: Ten-fold lower clinical doses of tafenoquine than used in prior studies may be effective against P. vivax hypnozoites if the drug is deployed in combination with effective blood-schizonticidal drugs.
Subject(s)
Aminoquinolines/administration & dosage , Antimalarials/administration & dosage , Macaca mulatta/parasitology , Malaria/drug therapy , Primate Diseases/drug therapy , Aminoquinolines/pharmacokinetics , Animals , Antimalarials/pharmacokinetics , Artemether, Lumefantrine Drug Combination , Artemisinins/administration & dosage , Artemisinins/pharmacokinetics , Chloroquine/administration & dosage , Chloroquine/pharmacokinetics , Chromatography, Liquid , Disease Models, Animal , Drug Combinations , Drug Therapy, Combination/methods , Ethanolamines/administration & dosage , Ethanolamines/pharmacokinetics , Fluorenes/administration & dosage , Fluorenes/pharmacokinetics , Humans , Male , Mass Spectrometry , Mefloquine/administration & dosage , Mefloquine/pharmacokinetics , Plasma/chemistry , Plasmodium cynomolgi , Quinine/administration & dosage , Quinine/pharmacokinetics , Treatment OutcomeABSTRACT
A series of 15-membered azalide urea and thiourea derivatives has been synthesized and evaluated for their in vitro antimalarial activity against chloroquine-sensitive (D6), chloroquine/pyremethamine resistant (W2) and multidrug resistant (TM91C235) strains of Plasmodium falciparum. We have developed an effective automated synthetic strategy for the rapid synthesis of urea/thiourea libraries of a macrolide scaffold. Compounds have been synthesized using a solution phase strategy with overall yields of 50-80%. Most of the synthesized compounds had inhibitory effects. The top 10 compounds were 30-65 times more potent than azithromycin, an azalide with antimalarial activity, against all three strains.
Subject(s)
Antimalarials/chemical synthesis , Plasmodium falciparum/drug effects , Thiourea/chemical synthesis , Urea/chemical synthesis , Antimalarials/chemistry , Antimalarials/pharmacology , Automation , Azithromycin/pharmacology , Drug Resistance, Multiple , Inhibitory Concentration 50 , Macrolides/pharmacology , Molecular Structure , Structure-Activity Relationship , Thiourea/chemistry , Thiourea/pharmacology , Urea/chemistry , Urea/pharmacologyABSTRACT
This study represents the first phase III trial of the safety, tolerability, and effectiveness of tafenoquine for malaria prophylaxis. In a randomized (3:1), double-blinded study, Australian soldiers received weekly malaria prophylaxis with 200 mg tafenoquine (492 subjects) or 250 mg mefloquine (162 subjects) for 6 months on a peacekeeping deployment to East Timor. After returning to Australia, tafenoquine-receiving subjects received a placebo and mefloquine-receiving subjects received 30 mg primaquine daily for 14 days. There were no clinically significant differences between hematological and biochemical parameters of the treatment groups. Treatment-related adverse events for the two groups were similar (tafenoquine, 13.4%; mefloquine, 11.7%). Three subjects on tafenoquine (0.6%) and none on mefloquine discontinued prophylaxis because of possible drug-related adverse events. No diagnoses of malaria occurred for either group during deployment, but 4 cases (0.9%) and 1 case (0.7%) of Plasmodium vivax infection occurred among the tafenoquine and mefloquine groups, respectively, up to 20 weeks after discontinuation of medication. In a subset of subjects recruited for detailed safety assessments, treatment-related mild vortex keratopathy was detected in 93% (69 of 74) of tafenoquine subjects but none of the 21 mefloquine subjects. The vortex keratopathy was not associated with any effect on visual acuity and was fully resolved in all subjects by 1 year. Tafenoquine appears to be safe and well tolerated as malaria prophylaxis. Although the volunteers' precise exposure to malaria could not be proven in this study, tafenoquine appears to be a highly efficacious drug for malaria prophylaxis.
Subject(s)
Aminoquinolines/therapeutic use , Antimalarials/therapeutic use , Malaria/drug therapy , Mefloquine/therapeutic use , Adult , Aminoquinolines/adverse effects , Antimalarials/adverse effects , Australia , Double-Blind Method , Female , Humans , Male , Mefloquine/adverse effects , Middle Aged , Military Personnel , Treatment Outcome , Young AdultABSTRACT
BACKGROUND: Malaria microscopy remains the reference standard for malaria diagnosis in clinical trials (drug and vaccine), new diagnostic evaluation, as well as in clinical care in much of the world today. It is known that microscopy is an imperfect gold standard, and that very low false positive rates can dramatically lower protective efficacy estimates in malaria prevention trials. Although new methods are now available, including malaria rapid diagnostic tests and PCR, neither is as yet validated in the clinical trial setting and both have limitations. Surprisingly, the sensitivity of thin smears is not well established and thin smears are not commonly used in the developing world. METHODS: Malaria thick and thin films were collected in the lowlands of Western Kenya. All had density determined by four readings with two methods, as well as species identified. Thirty-six with low density parasitaemia had the thin smear read by five independent microscopists, two were expert and three were qualified. Microscopists read the entire thin film. For the first 10 parasites seen, they reported the species, appearance, time, field number, and red blood cells in the field. Total parasites, total fields, and total time to examine the smear were also recorded. RESULTS: Median parasitaemia was 201 parasites/mul, mean 1,090 +/- 2,195, range 6-11,124 parasites/mul for the 36 smears evaluated. The data revealed a density dependent increase in sensitivity, with 100% sensitivity achieved at >200 parasites/mul for experts and >500 parasites/mul for qualified readers. Thin film readings confirmed parasitaemia 74% of the time by experts, and 65% of the time for qualified microscopists. The 95th percentile for time to detect parasitaemia was 15 minutes for experts, 17 minutes for qualified microscopists. This decreased to 4-10 minutes for experts at densities of > 200 parasites/mul. Additionally, substantial discordance for species identification was observed. CONCLUSION: The thin film is sensitive enough to be a useful tool to confirm malaria diagnosis in study subjects in some settings. Specificity of the thin film and its utility for confirming thick film or other diagnostic test results should be assessed further.
Subject(s)
Diagnostic Tests, Routine/standards , Malaria/diagnosis , Parasitemia/diagnosis , Plasmodium/isolation & purification , Animals , Erythrocytes/parasitology , Humans , Kenya , Malaria/parasitology , Microscopy , Pilot Projects , Plasmodium/classification , Sensitivity and SpecificityABSTRACT
BACKGROUND: There are limited data on the evolution of the leukocyte and platelet counts in malaria patients. METHODS: In a clinical trial of chloroquine vs. chloroquine plus doxycycline vs. doxycycline alone against Plasmodium vivax (n = 64) or Plasmodium falciparum (n = 98) malaria, the total white cell (WCC) and platelet (PLT) counts were measured on Days 0, 3, 7 and 28 in 57 indigenous Papuans with life long malaria exposure and 105 non Papuan immigrants from other parts of Indonesia with limited malaria exposure. RESULTS: The mean Day 0 WCC (n = 152) was 6.492 (range 2.1-13.4) x 10(9)/L and was significantly lower in the Papuans compared to the non Papuans: 5.77 x 10(9)/L vs. 6.86 x 10(9)/L, difference = -1.09 [(95% CI -0.42 to -1.79 x 10(9)/L), P = 0.0018]. 14 (9.2%) and 9 (5.9%) patients had leukopaenia (<4.0 x 10(9)/L) and leukocytosis (>10.0 x 10(9)/L), respectively. By Day 28, the mean WCC increased significantly (P = 0.0003) from 6.37 to 7.47 x 10(9)/L (73 paired values) and was similar between the two groups. Ethnicity was the only WCC explanatory factor and only on Day 0.The mean Day 0 platelet count (n = 151) was 113.0 (range 8.0-313.0) x 10(9)/L and rose significantly to 186.308 x 10(9)/L by Day 28 (P < 0.0001). There was a corresponding fall in patient proportions with thrombocytopaenia (<150 x 10(9)/L): 119/151 (78.81%) vs. 16/73 (21.92%, P < 0.00001). Papuan and non Papuan mean platelet counts were similar at all time points. Only malaria species on Day 0 was a significant platelet count explanatory factor. The mean D0 platelet counts were significantly lower (P = 0.025) in vivax (102.022 x 10(9)/L) vs. falciparum (122.125 x 10(9)/L) patients. CONCLUSION: Changes in leukocytes and platelets were consistent with other malaria studies. The Papuan non Papuan difference in the mean Day 0 WCC was small but might be related to the difference in malaria exposure.
Subject(s)
Leukocytosis , Leukopenia , Malaria, Falciparum/complications , Malaria, Vivax/complications , Thrombocytopenia , Adolescent , Adult , Animals , Emigrants and Immigrants , Female , Humans , Indonesia , Leukocyte Count , Malaria, Falciparum/pathology , Malaria, Vivax/pathology , Male , Platelet Count , Population Groups , Young AdultABSTRACT
INTRODUCTION: Internal and external quality control (QC) of rapid diagnostic tests (RDTs) is important to increase reliability of RDTs currently used to diagnose malaria. However, cross-checking of used RDTs as part of quality assurance can rarely be done by off-site personnel because there is no guarantee of retaining visible test lines after manufacturers' recommended reading time. Therefore, this study examined the potential of using Fionet™ technology for remote RDT quality monitoring at seven clinics, identifying reasons for making RDT processing and interpretation errors, and taking corrective actions for improvement of diagnosis and consequently improved management of febrile patients. METHODS: The study was conducted at seven military health facilities in Mainland Tanzania and utilized RDTs capable of detecting Plasmodium falciparum specific Histidine-rich protein 2 (Pf-HRP2) and the genus specific Plasmodium lactate dehydrogenase (pLDH) for other species of plasmodium (P. vivax, P. malariae or P. ovale; pan-pLDH). Patients' data and images of processed RDTs from seven clinics were uploaded on a Fionet web portal and reviewed regularly to monitor preparation procedures and visual interpretation of test results compared to automated analysis using the Deki reader of RDT. Problems detected were rapidly communicated to remote laboratory personnel at the clinic for corrective action and follow-up of patients who were falsely diagnosed as negative and missed treatment. Factors contributing to making errors in visual interpretation of RDT results were analyzed during visits to the health facilities. RESULTS: A total of 1,367 (1.6%) out of 83,294 RDT test images uploaded to the Fionet portal had discordant test results of which 822 (60.1%) and 545 (39.9%) were falsely reported as negative and positive, respectively. False negative and false positive test results were common for a single test line in 515 (62.7%) and 741 (54.2%) tests, respectively. Out of 1,367 RDT images assessed, 98 (7.2%) had quality problems related to preparation procedures of which 95(96.9%) errors were due to putting too much blood on the sample well or insufficient buffer in the respective wells. The reasons for discrepant results included, false reporting of none existent lines in 526 (38.5%) tests, missing a faint positive line in 493 (36.1%), missing a strong positive line in 248(18.1%) and errors caused by poorly processed RDTs in 96 (7.2%) tests. Among the false negative tests (n = 822), 669 (48.9%) patients were eligible for follow-up and only 339 (48.5%) were reached and 291 (85.8%) received appropriate anti-malaria therapy. CONCLUSION: Fionet technology enabled remote monitoring of RDT quality issues, identifying reasons contributing to laboratory personnel making errors and provided a rapid method to implement corrective actions at remote sites to improve malaria diagnosis and consequently improved health care management of febrile patients infected with malaria.