Intramuscular loading dose of quinine for falciparum malaria: pharmacokinetics and toxicity.

In a study of intramuscular injection of quinine eight adults with moderately severe falciparum malaria resistant to chloroquine were treated with quinine dihydrochloride, being given a loading dose of 20 mg salt (16.7 mg base)/kg followed by three or four eight hourly maintenance doses of 10 mg salt (8.3 mg base)/kg injected into the anterior thigh. All patients responded to treatment. Fever and parasite clearance times (mean (SD) 60 (23) h and 53 (22) h respectively) were comparable with those obtained with intravenous quinine. The mean peak plasma quinine concentration of 11.0 mg/l (34.4 mu mol/l) [corrected] was reached a median of five hours after administration of the loading dose. In all patients plasma quinine concentrations exceeded the high minimum inhibitory concentration for Plasmodium falciparum malaria prevalent in Thailand within four hours of the start of treatment but did not cause toxicity other than mild cinchonism. When intravenous infusion is not possible an intramuscular quinine loading dose is an effective means of starting treatment in patients with moderately severe falciparum malaria who cannot swallow tablets.     

Sequential treatment with quinine and mefloquine or quinine and pyrimethamine-sulfadoxine for falciparum malaria.

Patients with falciparum malaria were studied in Thailand, an area of known chloroquine resistance. The patients were unselected and some had severe malaria, and they were randomly assigned to one of two sequential regimes. A short course of quinine (average 4 doses, equivalent to 2 g base) followed by a single dose of pyrimethamine-sulfadoxine (Fansidar) cured 92% of patients (36 out of 39), while a short course of quinine followed by a single 1-5-dose of mefloquine cured all of the 35 patients who could be followed up. Gastrointestinal side effects were minimal if at least 12 hours elapsed between the last dose of quinine and the mefloquine. Sequential quinine and mefloquine is the most effective treatment for patients with chloroquine-resistant falciparum malaria, including those with severe or complicated disease. Mefloquine, however, is not commercially available, and the similar regimen using Fansidar is almost as effective.     

Plasmodium falciparum malaria: rosettes are disrupted by quinine, artemisinin, mefloquine, primaquine, pyrimethamine, chloroquine and proguanil.

An assay was developed measuring the disruption of rosettes between Plasmodium falciparuminfected (trophozoites) and uninfected erythrocytes by the antimalarial drugs quinine, artemisinin mefloquine, primaquine, pyrimethamine, chloroquine and proguanil. At 4 hr incubation rosettes were disrupted by all the drugs in a dose dependent manner. Artemisinin and quinine were the most effective anti-malarials at disrupting rosettes at their therapeutic concentrations with South African RSA 14, 15, 17 and The Gambian FCR-3 P. falciparum strains. The least effective drugs were proguanil and chloroquine. A combination of artemisinin and mefloquine was more effective than each drug alone. The combinations of pyrimethamine or primaquine, with quinine disrupted more rosettes than quinine alone. Quinine may be an effective drug in the treatment of severe malaria because the drug efficiently reduces the number of rosettes.     

Ibuprofen does not affect levels of tumor necrosis factor alpha and soluble tumor necrosis factor receptor types I and II in Gabonese children with uncomplicated Plasmodium falciparum malaria

We assessed the ability of ibuprofen to modulate tumor necrosis factor alpha (TNF-alpha), soluble tumor necrosis factor receptor type I (sTNFR-I), and soluble tumor necrosis factor receptor type II (sTNFR-II) responses during the treatment of fever in uncomplicated Plasmodium falciparum malaria, in a placebo-controlled, randomized, double-blind study of 50 pediatric patients in Lambaréné, Gabon. Treatment of the malaria involved the patients receiving intravenous quinine (12 mg/kg of quinine dihydrochloride every 12 h for 72 h) followed by a single dose of oral sulfadoxine/pyrimethamine (25 mg and 1.25 mg/kg). Fever was treated by mechanical treatment plus either ibuprofen (7 mg/kg every 8 h) or placebo during the hospitalization period. We determined serum concentrations of TNF-alpha, sTNFR-I, and sTNFR-II in peripheral blood throughout the treatment period in the two groups: ibuprofen and placebo groups. TNF-alpha levels were found to be positively correlated with body temperature. In contrast, TNF receptors levels did not differ between the two groups and the antipyretic effect of ibuprofen was not correlated with specific changes in sTNFR-I and sTNFR-II production. Our data suggest that TNF-alpha is involved in malarial fever, but soluble TNF receptors play no major role in fever modulation.     

Divided dose intramuscular regimen and single dose subcutaneous regimen for chloroquine: plasma concentrations and toxicity in patients with malaria.

Adults with malaria in Sri Lanka were treated with parenteral chloroquine diphosphate, either 2.5 mg base/kg intramuscularly at 0, 1, 12, 13, 24, and 25 hours or 5 mg base/kg subcutaneously at 0, 12, and 24 hours. Both regimens were completed with oral chloroquine phosphate, 5 mg base/kg, at 36 and 48 hours. Mean peak chloroquine concentrations in the first 12 hours, which were 0.5 (range 0.3-0.6) mg/l (1.4 (0.9-1.7) mu mol/l) [corrected] with the intramuscular regimen and 0.3 (0.2-0.4) mg/l (1.0 (0.7-1.3) mu mol/l) [corrected] with the subcutaneous regimen (p less than 0.05), were reached in median times of 90 (65-90) minutes and 30 (30-60) minutes respectively (p less than 0.05) after the start of treatment. The mean area under the plasma concentration curve for the first 12 hours was 1.4 (0.9-2.1) mg/l.h (4.5 (2.8-6.4) mu mol/l.h) [corrected] after intramuscular administration and 1.8 (0.8-2.3) mg/l.h (5.7 (2.7-7.2) mu mol/l.h) [corrected] after subcutaneous administration (p greater than 0.1). Mean maximum plasma concentrations were higher after intramuscular administration (0.6 (0.4-0.8) mg/l (1.7 (1.3-2.5) mu mol/l)) [corrected] than after subcutaneous administration (0.4 (0.4-0.5) mg/l (1.3 (1.3-1.5) mu mol/l)) [corrected] (p less than 0.05), but both regimens produced satisfactory plasma profiles. Chloroquine resistance was found in the only case of Plasmodium falciparum malaria. Chloroquine is absorbed rapidly after divided dose intramuscular injection and single dose subcutaneous injection and does not cause hypotension or neurotoxicity in adults. Similar regimens should be evaluated in children before the parenteral use of this drug is abandoned.     

Management of malaria in Thailand

The purpose of treatment for uncomplicated malaria is to produce a radical cure using the combination of: artesunate (4 mg/kg/day) plus mefloquine (8 mg/kg day) for 3 days: a fixed dose of artemether and lumefantrine (20/120 mg tablet) named Coartem (4 tablets twice a day for three days for adults weighing more than 35 kg): quinine 10 mg/kg 8-hourly plus tetracycline 250 mg 6-hourly for 7 days (or doxycycline 200 mg as an alternative to tetracycline once a day for 7 days) in patients aged 8 years and over: Malarone (in adult 4 tablets daily for 3 days). In treating severe malaria, early diagnosis and treatment with a potent antimalarial drug is recommended to save the patient's life. The antimalarial drugs of choice are: intravenous quinine or a parenteral form of an artemisinin derivative (artesunate i.v./i.m. for 2.4 mg/kg followed by 1.2 mg/kg injection at 12 and 24 hr and then daily for 5 dayss; artemether i.m. 3.2 mg/kg injection followed by 1.6 mg/kg at 12 and 24 hrs and then daily for 5 days; artemether i.m. (Artemotil) with the same dose of artemether or artesunate suppository (5 mg/kg) given rectally 12 hourly for 3 days. Oral artemisinin derivatives (artesunate, artemether, and dihydroartemisinin with 4 mg/kg/day) could replace parenteral forms when patients can tolerate oral medication. Oral mefloquine (25 mg/kg divided into two doses 8 hrs apart) should be given at the end of the artemisinin treatment course to reduce recrudescence.     

Randomised double blind trial of single dose doxycycline for treating cholera in adults.

OBJECTIVE--To compare the efficacy of a single dose of doxycycline (200 or 300 mg) with the standard multiple doses of tetracycline in patients with cholera. DESIGN--Randomised double blind controlled trial. Patients were given a single 200 mg dose of doxycycline, a single 300 mg dose of doxycycline, or multiple doses of tetracycline (500 mg, six hourly intervals). SETTING--Hospital in Bangladesh treating diarrhoea. PATIENTS--261 Patients aged over 15 admitted to the hospital with severe dehydration due to acute watery diarrhoea associated with Vibrio cholerae. All vibrios isolated from the stools and rectal swabs of patients, including those patients with prolonged excretion of vibrios, were sensitive to tetracycline. The stools of all patients at admission were negative for shigella and salmonella. INTERVENTIONS--All patients received rapid intravenous acetate solution for the first four hours after admission to hospital. They were then entered in the study and randomised. Oral rehydration was started immediately after the intravenous treatment. If signs of severe dehydration reappeared during oral treatment patients were given rapid intravenous acetate solution until dehydration was fully corrected. MAIN OUTCOME MEASURES--Stool output in first 24 hours and till diarrhoea stopped, total intake of oral rehydration fluid, duration of diarrhoea, and excretion of vibrio after receiving antibiotic treatment. RESULTS--The median stool outputs during the first 24 hours (275 ml/kg body weight) and till diarrhoea stopped (296 ml/kg body weight) were significantly higher in patients receiving 200 mg doxycycline as a single dose than in patients receiving either standard tetracycline (242 ml/kg body weight and 254 ml/kg body weight) or 300 mg doxycycline (226 ml/kg body weight and 255 ml/kg body weight). Similarly, median consumption of oral rehydration solution (18.45 l) was significantly higher in patients receiving 200 mg doxycycline than in patients receiving either 300 mg doxycycline (16.10 l) or standard tetracycline (14.80 l). Almost equal numbers of patients in each group required unscheduled intravenous acetate solution to correct dehydration during antibiotic treatment. Patients treated with doxycycline (low or high dose), however, had more prolonged excretion of bacteria. CONCLUSIONS--A single 300 mg dose of doxycycline is as effective as the standard multiple dose tetracycline treatment for cholera in terms of stool output, duration of diarrhoea, vomiting, and requirement for oral rehydration solution.     

In vitro schizontocidal activity of standard antimalarial drugs on chloroquine-sensitive and chloroquine-resistant isolates of Plasmodium falciparum

The expanding foci of multiple drug resistant malaria and emergence of different strains requires the reassessment of antimalarial activity with various drugs. In vitro response of a chloroquine sensitive and a chloroquine resistant isolate of P. falciparum to a group of 6 quinine derived and 3 artemisinin derived standard drugs has been screened, to evaluate schizontocidal activity of the drugs. In a conventional test system the IC50s were derived from the log dose response curves and evaluated by a rigorous statistical interpretation. Analysis by Tukey's test was significant for the quinine related drugs (Q < or = 0.01) and excludes the statistical significance of artemisinin related drugs in these isolates. The dose-responses of these two isolates vary with quinine derivatives, with some overlap at lower doses for the sensitive isolate than for the resistant one which manifests at higher doses.     

High incidence of hypoglycaemia in African patients treated with intravenous quinine for severe malaria.

Changes in plasma glucose and insulin concentrations were monitored over 24 hours in 28 African patients receiving quinine intravenously in an average dose of 8.5 mg base/kg over one hour eight hourly for severe malaria. The patients (nine children and 19 adults) were moderately undernourished; none was pregnant or had renal insufficiency. Plasma insulin concentrations rose during the infusion and then declined. Plasma glucose concentrations were decreased at two, three, and four hours after the start of the infusion. Insulin: glucose ratios were raised between half an hour and two hours after the start of the infusion. The three infusions of quinine increased plasma insulin concentrations in a similar way. In nine patients, including four children, plasma glucose concentrations fell below 2.8 mmol/l on one or two occasions. At the time of the hypoglycaemia plasma insulin concentrations were inappropriately high as shown by a consistent and often considerable increase in the insulin:glucose ratio. Hypoglycaemia that may pass unnoticed in comatose patients is thus a common complication of treating severe malaria with quinine, in particular in children. Its high incidence calls for attentive monitoring and preventive measures.     

Falciparum malaria cured by quinine followed by sulfadoxine-pyrimethamine.

Quinine (at least four doses given at intervals of eight to 12 hours) followed by a single dose of sulfadoxine-pyrimethamine (Fansidar) is the most effective treatment of chloroquine-resistant falciparum malaria. This regimen cured 96% of patients (302 out of 314) with an average initial parasite count of 90 X 10-9/1.     

Comparison of chloroquine,pyrimethamine and sulfadoxine,and chlorproguanil and dapsone as treatment for falciparum malaria in pregnant and non-pregnant women,Kakamega District,Kenya.

OBJECTIVE--To compare treatment and protection against falciparum malaria in pregnant and non-pregnant women with three drug regimens. DESIGN--Prospective intervention study with six weeks'' follow up. Patients received one of three drug regimens in order of entry. SETTING--Primary care hospital and secondary girls'' school in rural western Kenya. PATIENTS--158 of 988 pregnant women (89 primigravid and 69 multigravid) in the third trimester and 105 of 1488 non-pregnant schoolgirls of reproductive age were parasitaemic (more than 500 asexual forms/microliter. These women were divided into three treatment groups by gravid state. INTERVENTIONS--Women were treated with chloroquine base 25 mg/kg over three days or pyrimethamine 75 mg and sulfadoxine 1500 mg as a single dose or chlorproguanil 1.2 mg/kg and dapsone 2.4 mg/kg as a single dose. MAIN OUTCOME MEASURES--Parasitaemia and haemoglobin concentrations measured at seven day intervals for six weeks. RESULTS--Primigravid women were more likely to be parasitaemic on follow up than multigravidas or nulligravidas, whose response was about the same. Parasites did not clear by day 7 in primigravidas in six (20%) of 30 who received chloroquine, three (8%) of 35 treated with pyrimethamine and sulfadoxine, and none of 23 treated with chlorproguanil and dapsone. At day 28, 83%, 19%, and 67% of primigravidas in these treatment groups were parasitaemic. Haemoglobin concentrations rose in all women, but improvement was sustained only in women who remained free of parasites. CONCLUSIONS--Clearance of parasites was better with either pyrimethamine and sulfadoxine or chlorproguanil and dapsone than with chloroquine. Longest protection was obtained with pyrimethamine and sulfadoxine.     

Antimalarial iron chelator, FBS0701, shows asexual and gametocyte Plasmodium falciparum activity and single oral dose cure in a murine malaria model

Iron chelators for the treatment of malaria have proven therapeutic activity in vitro and in vivo in both humans and mice, but their clinical use is limited by the unsuitable absorption and pharmacokinetic properties of the few available iron chelators. FBS0701, (S)3"-(HO)-desazadesferrithiocin-polyether [DADFT-PE], is an oral iron chelator currently in Phase 2 human studies for the treatment of transfusional iron overload. The drug has very favorable absorption and pharmacokinetic properties allowing for once-daily use to deplete circulating free iron with human plasma concentrations in the high μM range. Here we show that FBS0701 has inhibition concentration 50% (IC(50)) of 6 μM for Plasmodium falciparum in contrast to the IC(50) for deferiprone and deferoxamine at 15 and 30 μM respectively. In combination, FBS0701 interfered with artemisinin parasite inhibition and was additive with chloroquine or quinine parasite inhibition. FBS0701 killed early stage P. falciparum gametocytes. In the P. berghei Thompson suppression test, a single dose of 100 mg/kg reduced day three parasitemia and prolonged survival, but did not cure mice. Treatment with a single oral dose of 100 mg/kg one day after infection with 10 million lethal P. yoelii 17XL cured all the mice. Pretreatment of mice with a single oral dose of FBS0701 seven days or one day before resulted in the cure of some mice. Plasma exposures and other pharmacokinetics parameters in mice of the 100 mg/kg dose are similar to a 3 mg/kg dose in humans. In conclusion, FBS0701 demonstrates a single oral dose cure of the lethal P. yoelii model. Significantly, this effect persists after the chelator has cleared from plasma. FBS0701 was demonstrated to remove labile iron from erythrocytes as well as enter erythrocytes to chelate iron. FBS0701 may find clinically utility as monotherapy, a malarial prophylactic or, more likely, in combination with other antimalarials.     

Plasmodium falciparum: drug-resistant malaria complicating leukemias and lymphomas in children.

The present communication deals with drug-resistant Plasmodium falciparum malaria complicating hematologic malignancies (leukemias, n = 24, and lymphomas, n = 7) in children. Of 50 cases of hematologic malignancies, 31 patients were microscopically diagnosed as having P. falciparum infection (MP +). Initially, all the patients were treated with chloroquine. The results of primary treatment showed chloroquine resistance in 16 (51. 62%) cases. Of these 16 chloroquine-resistant cases, 13 were secondarily treated with a combination of pyrimethamine plus sulfamethopyrazine. The results of secondary treatment also revealed resistance to pyrimethamine plus sulfamethopyrazine in 6 of 13 (46. 10%) cases. The 6 pyrimethamine plus sulfamethopyrazine-resistant P. falciparum cases were finally cured by quinine therapy, against which no resistance was encountered. Conversely, in the control group comprising 38 cases of P. falciparum without malignancy, the incidence of chloroquine resistance was found in only 9 cases, which is rather low (23.70%). Of these 7 chloroquine-resistant cases, 5 were found to be sensitive to pyrimethamine plus sulfamethopyrazine treatment, while the 2 nonresponders were finally cured with quinine. The overall results of this study show a high prevalence of chloroquine resistance among clinical cases of falciparum malaria (25/69; 30.6%). Among the nonresponders (n = 20) 40% of cases were also resistant to the pyrimethamine plus sulfamethopyrazine combination. There was no resistance to quinine.     

Clinical efficacy of chloroquine versus artemether-lumefantrine for Plasmodium vivax treatment in Thailand

Chloroquine remains the drug of choice for the treatment of vivax malaria in Thailand. Mixed infections of falciparum and vivax malaria are also common in South-East Asia. Laboratory confirmation of malaria species is not generally available. This study aimed to find alternative regimens for treating both malaria species by using falciparum antimalarial drugs. From June 2004 to May 2005, 98 patients with Plasmodium vivax were randomly treated with either artemether-lumefantrine (n = 47) or chloroquine (n = 51). Both treatments were followed by 15 mg of primaquine over 14 days. Adverse events and clinical and parasitological outcomes were recorded and revealed similar in both groups. The cure rate was 97.4% for the artemether-lumefantrine treated group and 100% for the chloroquine treated group. We concluded that the combination of artemether-lumefantrine and primaquine was well tolerated, as effective as chloroquine and primaquine, and can be an alternative regimen for treatment of vivax malaria especially in the event that a mixed infection of falciparum and vivax malaria could not be ruled out.     

Plasmodium yoelii nigeriensis (MDR)-efficacy of oral pyronaridine against multidrug-resistant malaria in Swiss mice

A multidrug-resistant strain of Plasmodium yoelii nigeriensis (MDR) showing a wide spectrum of resistance to chloroquine, amodiaquine, mepacrine, mefloquine, halofantrine, quinine, and quinidine was used in this study for in vivo evaluation of the blood schizontocidal activity of pyronaridine, a topoisomerase II inhibitor, in Swiss mice. The parasite produces 100% lethal infection in mice. The drug was administered orally once a day from day 0 onward. The initial studies showed that low doses of pyronaridine (0.625 to 5.0 mg base/kg x9 days) did not completely control blood-induced P. yoelii nigeriensis infection. Finally a series of doses of pyronaridine ranging from 1.25 to 30.0 mg/kg administered orally for 7 consecutive days were evaluated and in spite of high level of resistance to standard antimalarials, the parasite P. yoelii nigeriensis has shown complete susceptibility to pyronaridine (15 mg/kg dose x7 days). The present paper also compares the merits of a single MDR strain vs a battery of different resistant lines for quick antimalarials screening.     

Plasmodium berghei: Development of resistance to clindamycin and minocycline in mice

Strains of Plasmodium berghei resistant to clindamycin or minocycline were selected by a procedure in which groups of infected mice were treated with increasing doses of drug during each of a series of subpassages. Groups of five mice, each infected by intravenous inoculation with 10 million parasitized erythrocytes, were treated orally with different doses of drug for four consecutive days beginning on the day of infection. Subpassages were routinely made by Day 7, using donor mice from the group that had been treated with the highest dose of drug that allowed for some development of parasitemia during the preceding passage. Drug doses were increased in each passage as dictated by the development of parasitemia during the previous treated passage.The rate of development of resistance to clindamycin or minocycline was much slower than to conventional antimalarials such as chloroquine, quinine, or pyrimethamine. P. berghei developed total resistance to the latter compounds in nine to 12 treated passages in mice over a period of 60 to 85 days. In contrast, development of total resistance to clindamycin required 42 treated passages over a period of 300 days. Total resistance to minocycline was not attained during 86 successive minocycline-treated passages in mice over a period of 600 days, but a sixfold increase in resistance to minocycline was observed.The clindamycin-resistant strain was normally sensitive to minocycline, chloroquine, quinine, and pyrimethamine. The strain partially resistant to minocycline was normally sensitive to clindamycin, chloroquine, quinine, and pyrimethamine. Resistance to clindamycin was stable during 51 drug-free passages in mice over a period of 1 year. Resistance to minocycline was unstable. During 16 drug-free passages in mice the strain reverted towards normal sensitivity to minocycline. Strains resistant to clindamycin or minocycline showed no difference in rate of development in mice as compared to the parent strain. Likewise, only minor morphological modifications were seen in Giemsa-stained blood smears between the two resistant strains and the parent strain.These results suggest that other species of malaria may develop resistance to clindamycin or minocycline. Should resistance to one of these compounds appear, however, it should not invalidate the use of the other in the treatment of malaria.     

Oral artesunate prevents Plasmodium berghei Anka infection in mice

Artesunate, a semi-synthetic derivative of a naturally occurring anti-malarial artemisinin was compared with chloroquine in C57BL/6 mice infected with Plasmodium berghei Anka (PbA). A 7-day oral administration of artesunate prevented parasitaemia at 10 mg/kg/day. However, recrudescence of parasitaemia and cerebral malaria occurred upon cessation of treatment followed by death within 28 days. However, a 14-day course of artesunate (100 mg/kg/day) prevented completely the development of parasitaemia and cerebral malaria with a survival of more than 60-days as did 10 mg/kg/day chloroquine. These data demonstrate that oral artesunate inhibits PbA and prevents cerebral malaria, but needs to be administered at high dose and for prolonged time to eradicate PbA infection in mice.     

Post-treatment haemolysis in severe imported malaria after intravenous artesunate: case report of three patients with hyperparasitaemia

ABSTRACT: Parenteral artesunate has been shown to be a superior treatment option compared to parenteral quinine in adults and children with severe malaria. Little evidence, however, is available on long-term safety. Recently, cases of late-onset haemolysis after parenteral treatment with artesunate have been reported in European travellers with imported Plasmodium falciparum malaria. Therefore, an extended follow-up of adult patients treated for severe imported malaria was started in August 2011 at the University Medical Center Hamburg-Eppendorf. Until January 2012, three patients with hyperparasitaemia (range: 14-21%) were included for analysis. In all three patients, delayed haemolysis was detected in the second week after the first dose of intravenous artesunate. Reticulocyte production index remained inadequately low in the 7 - 14 days following the first dose of artesunate despite rapid parasite clearance. Post-treatment haemolysis after parenteral artesunate may be of clinical relevance in particular in imported severe malaria characterized by high parasite levels. Extended followup of at least 30 days including controls of haematological parameters after artesunate treatment seems to be indicated. Further investigations are needed to assess frequency and pathophysiological background of this complication.     

Pharmacokinetics and pharmacodynamics of intravenous artesunate during severe malaria treatment in Ugandan adults

ABSTRACT: BACKGROUND: Severe malaria is a medical emergency with high mortality. Prompt achievement of therapeutic concentrations of highly effective anti-malarial drugs reduces the risk of death. The aim of this study was to assess the pharmacokinetics and pharmacodynamics of intravenous artesunate in Ugandan adults with severe malaria. METHODS: Fourteen adults with severe falciparum malaria requiring parenteral therapy were treated with 2.4 mg/kg intravenous artesunate. Blood samples were collected after the initial dose and plasma concentrations of artesunate and dihydroartemisinin measured by solid-phase extraction and liquid chromatography-tandem mass spectrometry. The study was approved by the Makerere University Faculty of Medicine Research and Ethics Committee (Ref2010-015) and Uganda National Council of Science and Technology (HS605) and registered with ClinicalTrials.gov (NCT01122134). RESULTS: All study participants achieved prompt resolution of symptoms and complete parasite clearance with median (range) parasite clearance time of 17 (8-24) hours. Median (range) maximal artesunate concentration (Cmax) was 3260 (1020-164000) ng/mL, terminal elimination half-life (T1/2) was 0.25 (0.1-1.8) hours and total artesunate exposure (AUC) was 727 (290-111256) ngh/mL. Median (range) dihydroartemisinin Cmax was 3140 (1670-9530) ng/mL, with Tmax of 0.14 (0.6 - 6.07) hours and T1/2 of 1.31 (0.8-2.8) hours. Dihydroartemisinin AUC was 3492 (2183-6338) ngh/mL. None of the participants reported adverse events. CONCLUSIONS: Plasma concentrations of artesunate and dihydroartemisinin were achieved rapidly with rapid and complete symptom resolution and parasite clearance with no adverse events.     

Cocaine as a cause of congenital malformations of vascular origin: experimental evidence in the rat

Cocaine hydrochloride was administered to pregnant Sprague-Dawley rats as a single intraperitoneal dose or as two doses 1-4 hours apart. A single dose administered on day 16 of gestation was teratogenic in a dose-dependent manner, with 40 mg/kg being a no-effect dose and 50 mg/kg the lowest teratogenic dose; 80 mg/kg was lethal to the dam. Forty-eight hours after exposure to a teratogenic dose on day 16 of pregnancy, the fetuses showed severe hemorrhage and edema in the their extremities, particularly the footplates, tail, genital tubercle, and upper lip/nose. When the fetuses were examined on day 21 of gestation, the main externally visible malformations were reduction deformities of the limbs and tail. When two doses of cocaine were administered 1-4 hours apart, the incidence of affected fetuses increased as the time interval between the two doses decreased. Two doses of cocaine administered 2 hours apart were not teratogenic on day 9, 10, 11, 12, 13, or 14 of gestation but did induce reduction deformities on days 15, 16, 17, 18, or 19. The same dose administered 1 hour apart was teratogenic on days 14-19. In general, cocaine administration on gestational days 14, 15, or 16 induced more severe and more widespread hemorrhage and edema than administration on days 17, 18, or 19. In the latter cases, damage was restricted to the distal parts of the hindlimb digits and the tail. The results show that in the rat cocaine is only teratogenic during the late organogenic or postorganogenic period.(ABSTRACT TRUNCATED AT 250 WORDS)