Comparison of microclimate measurements and perceptions as part of a global evaluation of environmental quality at neighbourhood scale.

The EUREQUA project raises the issue of the definition and evaluation of the environmental quality of neighbourhoods. The approach consists of integrating and cross-referencing observable data characterising the physical environment and people's perception of their quality of life. The study area is a neighbourhood in Toulouse (France) with high social and typo-morphological diversity, subject to noise and air pollution nuisances. Three 3-day field campaigns were organised in January, April, and June 2014. Instrumented and commented walks took place three times per day. For each one, measurements of physical environmental parameters and surveys were performed simultaneously at six locations in the neighbourhood. The study focuses on microclimate and thermal comfort issues. It aims to compare in situ meteorological data of air temperature, humidity, wind speed, and mean radiant temperature, with quantitative results rating human perception of heat, humidity, wind, and thermal comfort. The variability in perception and measurements is mainly driven by seasonal effects, especially for heat and humidity, and, to a lesser extent, for wind. Wind perception and measurement also vary spatially, thus highlighting site effects. Linear models indicate a positive link between heat perception and mean radiant temperature, as well as between wind perception and mean and standard deviation of wind speed (with a higher sensitivity of people to wind under winter climate conditions). Finally, it is found that perception of thermal comfort is only slightly linked to the different microclimate dimensions, and is rather driven by other appreciation factors and emotional criteria related to the general environmental quality of the study area.

Predictive factors of severe disease secondary to falciparum malaria among travelers.

OBJECTIVES: To identify independent risk factors of severe falciparum malaria among travelers to endemic regions. MATERIALS AND METHODS: A retrospective study on imported malaria into metropolitan France. The World's Health Organization severity criteria were used to classify malarial episodes. RESULTS: Nine hundred and twenty-one malarial cases were studied; 81 were severe. Independent risk factors of severe malaria were aged above 40 years, high level of parasitized erythrocytes (more than 4%), parasite acquisition in the south-eastern asian region, infection with a chloroquine resistant Plasmodium falciparum (P. falciparum) phenotype and a self administered antimalarial treatment. CONCLUSION: This study points out two particularly interesting results: severe malaria is significantly associated with the infection by a chloroquine resistant P. falciparum phenotype and with the parasite's acquisition in the south-eastern asian region.

Cytoadherence characteristics to endothelial receptors ICAM-1 and CD36 of Plasmodium falciparum populations from severe and uncomplicated malaria cases.

The adhesion of infected red blood cells (IRBCs) to the cell lining of microvasculature is thought to play a central role in the pathogenesis of severe malaria. Individual IRBC can bind to more than one host receptor and parasites with multiple binding phenotypes may cause severe disease more frequently. However, as most clinical isolates are multiclonal, previous studies were hampered by the difficulty to distinguish whether a multiadherent phenotype was due to one or more parasite population(s). We have developed a tool, based on cytoadhesion assay and GeneScan genotyping technology, which enabled us to assess on fresh isolates the capacity of adherence of individual P. falciparum genotypes to human receptors expressed on CHO transfected cells. The cytoadhesion to ICAM-1 and CD36 of IRBCs from uncomplicated and severe malaria attacks was evaluated using this methodology. In this preliminary series conducted in non immune travelers, IRBCs from severe malaria appeared to adhere more frequently and/or strongly to ICAM-1 and CD36 in comparison with uncomplicated cases. In addition, a majority genotype able to strongly adhere to CD36 was found more frequently in isolates from severe malaria cases. Further investigations are needed to confirm the clinical relevance of these data.

[Tolerance and efficacy of atovaquone-proguanil for the treatment of paediatric imported Plasmodium falciparum malaria in France: clinical practice in a university hospital in Paris]. / Tolérance et efficacité de l'atovaquone-proguanil dans le traitement du paludisme d'importation àPlasmodium falciparum de l'enfant en France métropolitaine: expérience d'un centre hospitalier parisien.

UNLABELLED: Only few drugs for uncomplicated Plasmodium falciparum malaria are available in children. Atovaquone-proguanil is a recent antimalarial drug licensed in France for the uncomplicated P. falciparum malaria in adults. Few paediatric studies have evaluated atovaquone-proguanil in children for uncomplicated malaria in endemic area, but no study have evaluated this treatment for imported malaria. OBJECTIVE: To evaluate treatment by atovaquone-proguanil for uncomplicated and imported P. falciparum malaria in children. METHODS: We retrospectively evaluated the tolerance and the efficacy of atovaquone-proguanil in the children admitted in Robert-Debré Hospital (Paris) for a P. falciparum malaria. From January 2004 to December 2005, 48 children with a median age of 7,5 years (IQR 4-11) were treated with atovaquone-proguanil for a uncomplicated P. falciparum malaria, except for 5 children who had an isolated hyperparasitemia greater or equal to 5%. RESULTS: Atovaquone-proguanil was stopped for 3/48 children because of vomiting. Fever resolved in all the children between Day 3 and 7, following the beginning of the treatment. One child, with a favourable outcome, had a positive parasitemia at Day 4 equal to the initial parasitemia (0,1%). No late therapeutic failure was observed among the 24 children evaluated up to one month after starting treatment. CONCLUSION: Atovaquone-proguanil is an efficient and well-tolerated antimalarial treatment for uncomplicated P. falciparum malaria in children. The risk of vomiting should lead to a systematic initial hospitalisation of children treated with atovaquone-proguanil.

Report of a case of congenital malaria Plasmodium malariae in France.

Congenital malaria (CM) has been considered to be rare, even in malaria-endemic areas but the disease can result in significant neonatal morbidity. Because of its rarity, the disease may go undiagnosed for a prolonged period in a seriously ill infant. We report the first case of Plasmodium malariae CM from a HIV mother. HIV could have facilitated the transfer of erythrocytic persistent P. malariae through the placenta to the fetus.

[Antimalarial drug resistance]. / Les résistances aux médicaments antipaludiques.

Drug resistant malaria is mostly due to Plasmodium falciparum, the highly prevalent species in tropical Africa, Amazon, and Southeast Asia. P. falciparum is responsible for severe involvement of fever or anemia causing more than a million deaths per year. Rationale for treatment is becoming weak as multiple drug resistance against well-tolerated drugs develops. P. falciparum drug resistant malaria originates from chromosomal mutations. Analyses using molecular, genetic and biochemical approaches showed that: 1) impaired uptake of chloroquine by the parasite vacuole is a common characteristic of resistant strains, this phenotype correlates with pfmdr1 and pfcrt gene mutations; 2) one S108N to four (N51I, C59R, I164L) point mutations of dihydrofolate reductase, the enzyme target of antifolinics (pyrimethamine and proguanil), give moderate to high level of resistance to these drugs; 3) resistance to sulfonamides and sulfones involves mutations of dihydropteroate synthase (A437G, K540E), their enzyme target, impairing their capacity to potentiate antifolinic drugs; 4) resistance to atovaquone plus proguanil involves one single mutation on atovaquone target, cytochrome b (Y268S, C or N); 5) resistance to mefloquine is thought to be linked to the over expression of pfmdr1, a pump expelling toxic waste from eukaryotic cells. P. falciparum resistance levels may differ according to places and time, depending on malaria transmission and drug pressure. Coupling in vivo to in vitro tests, and using molecular tests is essential for the surveillance of replacement drugs. Low cost biochemical tools are urgently needed for a prospective monitoring of resistance.

[Imported malaria in 2000 in 2 northern Paris hospitals]. / Le paludisme d'importation en 2000 dans deux hôpitaux du nord de la région parisienne.

The number of travellers in malaria striken areas increases each year (2). The risk of infection is high in Sub-Saharan Africa, but appropriate chemoprophylaxis can reduce the morbidity and mortality rate of malaria. Half of the samples of malaria cases received by the National reference centre of malaria chemosensibility (CNRCP) for chemosensibility analysis came from two hospitals in the north of Paris: Bichat Claude Bernard in Paris and Delafontaine in Saint-Denis. In 2000, quite all the malaria cases (n = 387) observed at the Bichat and Delafontaine Hospitals came from Africa (99%). Plasmodium falciparum remains the most represented (87.6%) species, with an average parasitic density of 0.3%. Patients with P falciparum came for medical advice on the tenth day after return (median, extremes 0-174 days). More than half of the patients (58%) did not take any medication for chemoprophylaxis and even if they took some, it was irregular or inappropriate. The most used drug chemoprophylaxis is the association of chloroquine and proguanil or Savarine. In 15% of the cases, the travellers took chloroquine as a prophylaxis and 4% other medicine not recommended by the French authorities. An average of 43.7% of these travellers took inappropriate chemoprophylaxis. In total, 27 chemoprophylaxis failures are reported. Some patients (22%) have already taken self treatment which was readjusted during admission at hospital. The first treatment of malaria in 2000 was monotherapy with quinine (P. falciparum) and chloroquine (P. ovale, malariae, vivax). The treatment associations in case of suspicious resistance were quinine + doxycycline and atovaquone + proguanil. Treatment failure was infrequent and resulted above all from a bad observance. More information should be given to travellers as well as doctors about recommendations and treatments.

Molecular survey of Plasmodium falciparum resistance in south-eastern Iran.

In south-eastern Iran, the sulfadoxine-pyrimethamine (SP) combination has been used to treat malaria caused by chloroquine-resistant Plasmodium falciparum. To explore the molecular basis of antimalarial resistance in this region, the dhfr, dhps and pfcrt genes of 50 clinical isolates of P. falciparum, collected from cases of uncomplicated malaria in 2000-2001, were checked for the point mutations that appear associated with SP or chloroquine (CQ) resistance. The results of the study, which was based on a PCR followed by DNA sequencing, indicated that all 50 isolates presented the DHFR S108N mutation associated with pyrimethamine resistance. Seven isolates (14%) had a triple DHFR mutation (S108N, N51I, C59R) and 32 (64%) had a double mutation in this domain. Thirty-nine isolates (78%) had the wild-type DHFR 51 codon but only 15 (30%) had the wild-type DHFR 59 codon. Eleven isolates (22%) only had the DHFR S108N mutation. All isolates had the wild-type DHPS 436 and 540 codons and all but two of the isolates had the wild-type DHPS 437 codon. All isolates but one had the PFCRT K76T mutation associated with CQ treatment failure. The results of this preliminary investigation indicate that SP may remain the treatment of choice for cases of uncomplicated malaria in south-eastern Iran.

Iron chelators as antimalarial agents: in vitro activity of dicatecholate against Plasmodium falciparum.

The present study was undertaken to explore the antimalarial effect of a series of dicatecholate iron chelators. They may be made more or less lipophilic by increasing or reducing the length of the R substituent on the nitrogen. In vitro activity against the W2 and 3D7 clones of Plasmodium falciparum, toxicity on Vero cells and toxicity on uninfected erythrocytes by measure of the released haemoglobin were assessed for each compound. These findings were compared with the ability of iron(III), iron(II) and ferritin to reverse the inhibitory effect of catecholates. This study shows that increased lipid solubility of catecholate iron chelators does not lead to improved antimalarial activity. However, their activity is well correlated with their interaction with iron and with their toxicity against Vero cells. This study demonstrates a potent antimalarial effect of FR160 (R = C9H19) on five different strains of P. falciparum in vitro. FR160 inhibited parasite growth with an IC50 between 0.8 and 1.5 micro M. The effects of FR160 on mammalian cells were minimal compared with those obtained with malaria parasites. FR160 acted on parasites at considerably higher rates than desferrioxamine, and at all stages of parasite growth. The drug was more effective at the late trophozoite and young schizont stages, although FR160 affected rings and schizonts as well. Ascorbic acid, a free radical scavenger, reduced the activities of FR160 and artesunate. FR160 might induce formation of free radicals, which could explain why FR160 antagonized the effects of artesunate and dihydroartemisinin.

Molecular characterisation of airport malaria: four cases in France during summer 1999.

Four airport malaria cases have been observed in the vicinity of the Roissy-Charles-de-Gaulle International Airport, Paris, France. These cases were geographically very close to each other and clustered in a short period of time during the summer of 1999. The phenotype and genotype of the Plasmodium falciparum isolates obtained from these patients were determined in order to know whether a single mosquito could have infected more than one subject. The genomic characterisation of isolates was performed using the polymorphic markers merozoite surface protein 1 (Msp 1) and merozoite surface protein 2 (Msp 2) genes, the kappa and omega repeats domains of cg2 and the dihydrofolate reductase (DHFR) genotypes. Results showed identical genotypes for isolates 1, 2 and 4 whereas the genotype of isolate 3 differed at one locus. The molecular analysis was consistent with the hypothesis that all patients could have been bitten by the same mosquito and that patient 3, may have received a different clone and an additional species. In vitro susceptibility data did not confirm or rule out this hypothesis because isolates had the same profile of susceptibility to the tested drugs.

High Plasmodium falciparum resistance to chloroquine and sulfadoxine-pyrimethamine in Harper, Liberia: results in vivo and analysis of point mutations.

In Liberia, little information is available on the efficacy of antimalarials against Plasmodium falciparum malaria. We measured parasitological resistance to chloroquine and sulfadoxine-pyrimethamine (SP) in Harper, south-west Liberia in a 28-d study in vivo. A total of 50 patients completed follow-up in the chloroquine group, and 66 in the SP group. The chloroquine failure rate was 74.0% (95% confidence interval [95% CI] 59.7-85.4%) after 14 d of follow-up and 84.0% (95% CI 70.9-92.8%) after 28 d (no polymerase chain reaction [PCR] analysis was performed to detect reinfections in this group). In the SP group, the failure rate was 48.5% (95% CI 36.2-61.0%) after 14 d and 69.7% (95% CI 57.1-80.4%) after 28 d, readjusted to 51.5% (95% CI 38.9-64.0%) after taking into account reinfections detected by PCR. Genomic analysis of parasite isolates was also performed to look for point mutations associated with resistance. Genotyping of parasite isolates revealed that all carried chloroquine-resistant K-76T mutations at gene pfcrt, whereas the triple mutation (S108N, N511, C59R) at dhfr and the A437G mutation at dhps, both associated with resistance to SP, were present in 84% and 79% of pretreatment isolates respectively. These results seriously question the continued use of chloroquine and SP in Harper and highlight the urgency of making alternative antimalarial therapies available. Our study confirms that resistance to chloroquine may be high in Liberia and yields hitherto missing information on SP.

Profile and evolution of the chemosusceptibility of falciparum malaria imported into France in 2000.

In 2000, the chemosusceptibility of imported malaria was stable in France. All countries of infection considered, the bi-resistance to chloroquine and cycloguanil has not changed from 1996 to 2000. The monotherapy using quinine or mefloquine remains the first-line treatment to falciparum malaria. Resistance to these two antimalarials is rare in Africa and has not evolved over the past 15 years.

Analysis of pfcrt point mutations and chloroquine susceptibility in isolates of Plasmodium falciparum.

Recent transfection based studies demonstrated that cg2, a candidate gene for chloroquine resistance in Plasmodium falciparum, was not the resistance determinant. A further analysis of the initial 36 kb locus comprising the cg2 gene led to the discovery of another gene, pfcrt, which was absolutely associated with chloroquine resistance in forty parasite lines [Fidock DA, Nomura T, Talley AT, Su XZ, Cooper R, Dzekunov SM, Ferdig MT, Ursos LMB, Sidhu ABS, Naudé B, Deitsch KW, Su XZ, Wootton JC, Roepe PD, Wellems TE. Mutations in the P. falciparum digestive vacuole transmembrane protein PfCRT and evidence for their role in chloroquine resistance. Mol Cell 2000;6:861-71]. The aim of this study was to evaluate, in 146 unselected clinical isolates obtained mostly from non-immune travellers returning from various endemic countries to France in years 1995-1999, the association between in vitro chloroquine resistance and the sequence of a part of the pfcrt gene. For comparison, the determination of the cg2 kappa and the pfmdr1 codon 86 genotypes were also performed on the same isolates. As determined by an isotopic semi-microtest, 70 isolates were susceptible to chloroquine (50% inhibitory concentration<80 nM) and 76 were resistant. The amplification of a portion of the pfcrt gene spanning codons 72-76, followed by sequencing showed three distinct genotypes: one type associated with susceptible isolates, one type associated mostly with resistant isolates and one type found in a resistant isolate originating from South America. Three different zones could be defined according to the status of codon 76. For 50% inhibitory concentration values< or =40 nM (n=47), all isolates but one had K76 (wild type). For 50% inhibitory concentration values located between 40 and 60 nM, isolates had either K76 (n=5) or K76T (mutant type) (n=6). For 50% inhibitory concentration values>60 nM (n=88), all isolates had K76T. A lack of a strong association between the pfmdr1 N86Y mutation and in vitro chloroquine resistance was observed. Cg2 genotypes were less strongly linked than pfcrt genotypes with in vitro chloroquine susceptibility in isolates located below 40 and above 60 nM. Further studies are needed to determine the reliability of the pfcrt gene as a genetic marker for chloroquine resistance.

[Molecular aspects of chloroquine and antifols resistance in P. falciparum]. / Aspects moléculaires de la résistance aux antifolates et à la chloroquine chez P. falciparum.

Drug resistant malaria is mostly due to Plasmodium falciparum, a species highly prevalent in tropical Africa, Amazon and Southeast Asia. P. falciparum is responsible for severe involvement of fever or anaemia prompting more than a million deaths per year. The emergence of chloroquine resistance has been associated with a dramatic increase in malaria mortality in some human populations from endemic regions. Rationale for chemoprophylaxis is becoming week as multiple drug resistance against well tolerated drugs develops. Plasmodium falciparum drug resistant malaria originate from chromosomal mutations. Analysis using molecular, genetic and biochemical approaches has shown that Epidemiological studies have established that the frequency of chloroquine resistant mutants varies among parasites isolates populations while resistance to antifolinics is highly prevalent in most malarial endemic countries. An established and strong drug pressure and a low antiparasitic immunity probably explains the multidrug-resistance encountered in forests of Southeast Asia and South America. In Africa, frequent genetic recombinations in Plasmodium originate from a high level of malaria transmission, and falciparum chloroquine-resistant prevalence seems to stabilise at an equal level as chloroquine-sensitive malaria. Nevertheless, resistance levels may differs according to places and time. In vivo and in vitro tests are insufficient to give an accurate map of resistance. Biochemical tools at a low cost are urgently needed for a prospective monitoring of resistance.

[Plasmodium falciparum: point mutations of pcfrt and chloroquine susceptibility]. / Plasmodium falciparum: mutations ponctuelles de pfcrt et chimiosensibilité à la chloroquine.

Recent transfection based studies demonstrated that cg2, a candidate gene for chloroquine resistance in Plasmodium faiciparum, was not the resistance determinant. A further analysis of the initial 36 kb locus comprising the cg2 gene led to the discovery of another gene, pfcrt, which was absolutely associated with chloroquine resistance in forty parasite lines. The aim of this study was to evaluate, in 146 unselected clinical isolates obtained mostly from non-immune travellers returning from various endemic countries to France in years 1995-1999, the association between in vitro chloroquine resistance and the sequence of a part of the pfcrt gene. For comparison, the determination of the cg2 kappa and the pfmdr1 codon 86 genotypes were also performed on the same isolates. As determined by an isotopic semi-microtest, 70 isolates were susceptible to chloroquine (50% inhibitory concentration < 80 nM) and 76 were resistant. The amplification of a portion of the pfcrt gene spanning codons 72 to 76, followed by sequencing showed three distinct genotypes: one type associated with susceptible isolates, one type associated mostly with resistant isolates and one type found in a resistant isolate originating from South America. Three different zones could be defined according to the status of codon 76. For 50% inhibitory concentration values < or = 40 nM (n = 47), all isolates but one had K76 (wild type). For 50% inhibitory concentration values located between 40 and 60 nM, isolates had either K76 (n = 5) or K76T (mutant type) (n = 6). For 50% inhibitory concentration values > 60 nM (n = 88), all isolates had K76T. A lack of a strong association between the pfmdr1 N86Y mutation and in vitro chloroquine resistance was observed. Cg2 genotypes were less strongly linked than pfcrt genotypes with in vitro chloroquine susceptibility in isolates located below 40 nM and above 60 nM. Further studies are needed to determine the reliability of the pfcrt gene as a genetic marker for chloroquine resistance.

Use of molecular beacons to detect an antifolate resistance-associated mutation in Plasmodium falciparum.

A PCR-based technique using new fluorescent probes, called molecular beacons, was developed to detect the antifolate resistance-associated S108N point mutation in Plasmodium falciparum. One hundred African clinical isolates were tested by the new method in comparison with the PCR-restriction fragment length polymorphism method. This new molecular technique appears to be a promising tool for epidemiological studies.

Use of the Parasight-F diagnostic test for imported malaria in a travel clinic.

The Parasight-F test based on the detection of a soluble antigen specific for Plasmodium falciparum is designed for the immediate diagnosis of malaria infection. We evaluated its use by clinicians during consultations. This prospective study of its diagnostic utility in febrile patients consulting a travel clinic on their return from areas endemic for malaria was conducted between May 1996 and May 1997. The Parasight-F test was performed by the clinician with confirmation by means of standard microscopic examination of venous blood. One-hundred and forty patients were enrolled. Forty-three (31%) cases of malaria were identified by microscopic examination. Thirty-eight were due to P. falciparum. The Parasight-F tests yielded 6 false-positive and 3 false-negative results compared to the microscopic findings. The specificity and sensitivity for the diagnosis of P. falciparum malaria were 94% and 92%. These results show that the Parasight-F test alone cannot replace microscopic diagnosis of malaria in travel clinics.