Great efforts have been developed in the last years to fight against malaria worldwide. Although there has been a reduction in the incidence in the past years, especially in some regions of Africa and the region of Americas, there were still an estimated 214 million cases of malaria in 2015 and 438,000 deaths worldwide. Ninety percent of all malaria deaths occur in sub-Saharan Africa, and 70% in children under five years-old.1

Even though the global burden of malaria is largely carried by endemic areas, globalization has driven to a pronounced rise in the incidence of imported malaria in non-endemic regions.2 Imported malaria is defined as an infection acquired in a malaria-endemic area but diagnosed in a non-endemic area after development of clinical symptoms.2 Children represented around 15–20% of total cases of imported malaria cases, and it was estimated that around 5–10% of them fulfilled criteria for severe malaria according to WHO definition.2,3

They are known to have a higher risk of developing severe disease since they are more likely to be non-immune to malaria.2

Over the past years the majority of malaria cases in Europe have occurred in adults and children settled in non-endemic countries but have travelled to their home country on holidays to visit friends and relatives (VFRs).4,5 Nevertheless in recent years there have been as well changes in immigration patterns, particularly countries accepting immigrants, refugees and adopted children from endemic areas. These groups usually had partial immunity and therefore could be more likely to suffer non-severe disease.5,6

Malaria was declared eradicated in Spain in 1964, and since 1995 a mandatory weekly notification is established. The last temporary bulletin, reported 545 accumulated cases in 2014, 185 in Madrid.7,8

The aim of this study was to describe the epidemiological and clinical features of children diagnosed in Madrid in recent years, as well as their outcomes.

A retrospective study was performed in 24 hospitals (five of them tertiary) from the Public Health System in the Community of Madrid (CAM), Spain. All children younger than 16 years diagnosed with malaria between January 2007 and January 2013 were included. This study was approved by the Ethics Committee.

Main characteristics of the study participants, including epidemiological data (country of origin, travel history, antimalarial prophylaxis, underlying conditions or concurrent infections, previous history of malaria), clinical features (symptoms, complications, admissions, management and outcome), and laboratory and microbiological studies, were obtained from medical records.

The burden of malaria in children was calculated according to the estimated number of children living in CAM from 2007 to 2013.

A patient was considered VFR, when living in a non-endemic country and travelling to visit their friends or relatives in their parent's country of origin, as previously described in the literature.2 The non-VFR group included children born in endemic areas who came to Spain, including immigrants, adopted children or travellers from endemic areas arrived to Spain.

Diagnosis of malaria was done in the basis of parasite visualization through microscopic examination of thick and thin blood smears and/or rapid detection tests (RDTs) or molecular techniques detection. The level of parasitaemia was expressed as the percentage of parasitized erythrocytes. Molecular techniques based on DNA amplification (multiplex polymerase chain reaction [PCR]) for the four species of Plasmodium were conducted at the Parasitology Department of the National Microbiology Centre (Madrid). RDTs used varied according to participating Hospitals, including: BinaxNOW Malaria test, (Binax Inc, Scarborough, ON), Immunoquick Malaria Falciparum, (BioSynex Inc., France), Biotech, (BioSynex Inc., France), Core Malaria Pan/Pf (Core Diagnostics Inc., United Kingdom) and SD Bioline Malaria Ag Pf/Pan (Standard Diagnostics Inc, Korea), detecting all of them panmalaric and falciparum antigen. Vivax or other species could be detected depending on the RDT.

Laboratory values: anaemia was defined as haemoglobin (Hb) concentration values below the normal range for age, and thrombocytopenia as platelets less than 150,000/μl. Hypoglycaemia was defined as blood glucose less than 45mg/dL.

Severe falciparum malaria was defined according to the World Health Organization criteria.9

Antimalarial therapies were collected in database, as well as additional support measures, including transfer to Paediatric Intensive Care Units, intravenous treatment or additional support measures if needed.

Haemodynamic support item included the use of colloid/crystalloid fluids, or vasoactive drugs. Respiratory support included the use of oxygen, or assisted ventilation.

Data were entered into Microsoft Excel database (Office for Windows XP, 2003 and 2010) and analyzed using SPSS software, version 15.0 (SPSS). Categorical variables were expressed as frequencies and percentages; numerical variables were presented as means and standard deviation (SD), or medians and interquartile ranges (IQR), depending on distribution. Categorical variables were compared using Chi-square, linear Chi-square tendency or Fisher test when appropriate.

This is to our knowledge one of the largest series of imported malaria in children in our country. There are few studies of paediatric malaria in developed countries to date.

The high proportion of children less than five years observed is concerning, being this group at special risk of developing severe malaria. We observed also that many of them use to travel to endemic-areas without the appropriate prophylaxis measures. This feature has been observed also in other imported malaria series in Western Europe such as Ladhani et al.10

Seventy-five children had had other malaria episodes prior the current, 42.4% out of the overall VFRs, and 56.8% of immigrant/adopted children. Of the total amount of VFRs with previous malaria only four of them had received prophylaxis, and none of them was taken appropriately. This high numbers should encourage physicians to educate and follow-up those children susceptible to travel to endemic areas, and prescribe them adequate prophylaxis when applicable.5

As described in other European series the majority of children were from sub-Saharan Africa settings. In our study almost 45% of the patients were from Equatorial Guinea. It is likely due to have been a former Spanish colony.11 Interestingly we have not observed imported malaria in children from the Americas during the study period, being Spain still commonly selected by immigrants from those areas (in 2009 the 30% of the total amount of immigrants were from Ecuador, Colombia, Peru and Bolivia).11 It subscribes, nevertheless, to the last WHO malaria report, showing a decrease in number of estimated cases of 80% in the region of the Americas.1

Paediatricians must still be aware of the unspecific features of malaria in early stages. Fever, although frequent, is not always present (and, in our series, especially in non-VFRs), and respiratory and gastrointestinal symptoms are common.10–13 In addition, it is described that most children with severe malaria have neurologic involvement rather than respiratory distress or severe anaemia.14,15

It is remarkable the absence of Plasmodium vivax isolation. Interestingly there were not children from the Americas region, where P. vivax is more common. P. vivax is a well-defined cause of malaria in sub-Saharan Africa; however, it is less common in Western Africa, including Equatorial Guinea.1 That may explain the results in our series.16,17

Special attention deserves the group of patients VFRs. Over the past years there is a significant increase of malaria cases in Europe people settled in non-endemic countries but travelling to their home country on holidays to visit friends and relatives (VFRs).2,18 This group is less likely to seek pretravel advice or take prophylaxis, and more likely to travel to rural-endemic areas for longer periods. It is more common as well the delay in seeking medical help when returning. Although in our series we did not observe more risk of severe malaria, they used to have fever more frequently, longer fever and more delayed diagnosis than those immigrants or adopted children. Prevention measures are especially mandatory in this group of patients, including chemoprophylaxis or vector control measures.5,19

The management in children malaria has been a challenge for clinicians, since there have not been many studies until recently about safeness and efficacy of drugs in them, and they are off license in some countries for paediatric population.

The 2005 SEAQUAMAT study and subsequent 2010 AQUAMAT, this one performed in 5425 African children, revealed a significant reduction of mortality and clinical complications in patients receiving IV artesunate compared with quinine in severe falciparum malaria.20,21 These trials, along with other similar22 have led to a change in WHO guidelines,23 and therefore the recommendations in other developed areas such as Australia, Canada or USA.24–28 Nonetheless, to date this drug is not licensed for use in some countries,29 hence not always available in their hospitals; it leaves the combination quinine plus doxy/clinda remaining an acceptable option.24,27,28

The current recommendations in Spain30 agree with the use of parenteral artesunate as the treatment of choice in these patients. However, artemisinin derivatives were not available at least widely during most of the years of the study; subsequently many of our children were treated with quinine, needing more days of admission. Given the recommendations worldwide we encourage the use of artesunate when available.

In uncomplicated falciparum malaria it is recommended the use of atovaquone-proguanil, and equally, if available, artemisinin derivatives as first choice.24–30 Most of our patients were managed with atovaquone-proguanil, with adequate oral tolerance and no remarkable side effects.

One of the limitations of our study was the retrospective design, and heterogeneous management in some cases, given the different hospitals, and different population of each area.

The characteristics of children with imported malaria in Madrid are similar to those previously described in Western Europe. Epidemiological changes in worldwide malaria infection are to be noticed, as observed in our study, with no episodes of malaria observed in children coming from the region of Americas.

Over the past years there are concerns based on the reports of malaria cases in Europe from children VFRs. We observed that these children delay the visit to the physician, dilating the length of fever, and subsequent delaying in diagnosis.

The low rates of appropriate prophylaxis are concerning as well. Further studies to assess the barriers for pre-travel advices, appropriate prophylaxis and adequate follow up after returning are mandatory.

The authors acknowledge no financial support.

The authors declare that they have no conflict of interest.