Description of Plasmodium falciparum infections in central Gabon demonstrating high parasite densities among symptomatic adolescents and adults

Malaria remains a leading cause of morbidity and mortality in sub-Saharan Africa despite the considerable progress made since the year 2000 [1‐3]. The World Health Organization (WHO) estimated 219 million malaria cases worldwide and 435,000 malaria deaths in 2017 [4]. Some groups are considered at higher risk of becoming severely ill from Plasmodium falciparum infections in endemic regions, including pregnant women, infants, children under 5 years of age, and the non-immune migrants, as well as travellers.

There is evidence of age-dependent protection against severe malaria acquired by residents of high endemic malaria areas [5, 6]. Partial immunity is acquired gradually after repeated P. falciparum infections and is sequentially reflected first by a reduction of severe forms of malaria, then by a reduction in parasite density, but adults still can become infected and often remain asymptomatic [7, 8]. Age-dependent acquired immunity may be explained by the cumulative exposure to the large repertoire of P. falciparum antigen variants and also the fact that the immune mechanisms change with age [6, 8‐10]. Consequently, adults continuously living in malaria endemic areas generally present with less severe symptoms and reduced parasite loads when infected by the parasite [11].

There is little known about the epidemiology of malaria and parasite level in the adult population in high transmission regions in comparison to what has been published about children, especially in Gabon. The prevalence of parasitaemia in the adult population remains an important issue because they act as a community reservoir for ongoing Plasmodium transmission [12]. There is concern that with control interventions targeting children under 5 years, the acquisition of immunity may be compromised, and the burden of malaria may shift to older children and adults [5]. In Gabon, the shift of the increased risk of malaria to children older than 5 years was reported in 2013 and hospital surveys have shown that half of adults with fever in urban areas had malaria [13, 14]. Studies characterizing malaria in adults from rural areas in Gabon are scarce. Results from a recent clinical trial from 2014 to 2016 in Lambaréné and Fougamou suggests that adults and adolescents above the age of 14 years experienced fewer symptoms with lower parasite densities than children [15]. This report aims to characterize the epidemiology of P. falciparum infections and its parasite density in the adolescent and adult population living in a rural endemic area of Gabon.

Of the subjects screened for malaria from January 9 to June 30, 2018, data was available for 1589 subjects included in this analysis as shown in Fig. 1. Of the 1589 subjects, 30% were young children and 24% were school children while the remaining subjects were adolescents (15%) and adults (31%), with median age (interquartile range) of 3 (2–5) years, 9 (7–11) years, 15 (14–17) years, and 33 (24–48) years, respectively. The gender was equally distributed within all age groups.

A total of 1377 subjects were screened for malaria by RDT and 792 (58%) were positive for P. falciparum (Table 1). Higher prevalence of positive RDTs were observed in the school age children (72%) and adolescents (68%) while the rate of positive RDTs was below the average in young children (55%) and adults (44%). Microscopy screening of malaria was systematically performed during January 2018 for 274 subjects with 159 (58%) positive for P. falciparum infection and the proportions of positives within the different age groups were similar to the RDTs, as shown in Table 1. Parasite densities of the 274-microscopy results are shown in Table 2. Among the highest parasite densities > 10,000, the school age children were the most frequent (47%) followed by adults (20%).

During that same month of January, data on haemoglobin level and body temperature were available for 256 and 264 subjects, respectively. The overall median (IQR) haemoglobin level was 10.7 (9.3–11.9) g/dl, while for young children, school children, adolescents and adults the median (IQR) haemoglobin levels were 9.6 (7.9–10.8) g/dl, 10.7 (9.7–11.8) g/dl, 11.3 (10.2–12.4) g/dl, and 11.4 (10.0–13.2) g/dl, respectively. The young children age group was the most affected while all the other groups had proportions of anaemic less than 30% as shown in Table 3. Overall, fever was observed in 30% of the examined subjects with the children in general more febrile. However, more than 20% of the adolescents and adults presented with fever (Table 3).

Children under five years and pregnant women in high malaria endemic regions are the most vulnerable to malaria and studies mainly focus on these populations. Plasmodium falciparum infection in adults is reported as being of low parasitaemia due to age-dependent acquired immunity [6, 24]. Rarely do adults become severely ill to malaria in hyperendemic malaria areas [5]. This study conducted in Lambaréné and Fougamou showed an overall P. falciparum infection rate of 58%, with school children and adolescents bearing the highest proportions of infections, with adults as much infected as young children. The findings are similar to the prevalence found in adults in Libreville, the capital of Gabon, in 2012 [13]. This is different from other findings of 21% prevalence in asymptomatic populations in a study conducted in rural areas of Gabon in 2014 [25]. The observed difference can be explained by the difference of the population as our population was made of patients seeking for care which is different of asymptomatic adults certainly screened for malaria in their households. In Kenya and Mozambique, the prevalence of P. falciparum infections in adults was reported to be approximately 28% and 14%, respectively [12, 26]. These results correspond with the results of Bouyou-Akotet et al. supporting the hypothesis that there may be a change in the epidemiological profile of P. falciparum infections in adolescents and adults. This high prevalence of P. falciparum reported by other studies could also be explained by a decrease in malaria control strategies, such as a reduction of the free distribution of insecticide-treated bed nets and the lack of re-impregnation of used bed nets [3, 27].

The highest rate of P. falciparum infections was found in school children and adolescents in this study. This finding suggests a shift of malaria risk from very young children to school-age children, which is in line with the results reported by Mawili-Mboumba et al. who stated that children above 5 years of age would now become an at-risk population for malaria [13]. Substantial declines in malaria transmission, morbidity, and mortality in numerous countries where new malaria control strategies have been implemented were reported by several studies [28, 29]. These declines are more important in children under 5 years of age, the authors also suggested malaria control strategies to be extended to older children, and adults to reduce the prevalence since these groups may act as reservoirs for P. falciparum transmission.

Proportions of people with high parasite densities in young children, adolescents, and adults were similar with 15%, 18%, and 20%, respectively, having a high parasitaemia of ≥ 10,000 P. falciparum/µl while the proportion was much higher for school children (47%). Studies suggest that semi-immunity to P. falciparum develops with age based on cumulative exposure to the parasites, therefore, parasite densities are much lower in adults than in children [5, 6]. This data suggests no major difference in parasitaemia between young children, adolescents, and adults, which may further highlight the possibility of a shift in P. falciparum infections in the general population in Gabon.

Approximately one-third of the participants had anaemia, which may be related to the presence of a P. falciparum infection. The majority of anaemic individuals had haemoglobin values between 6 and 10 g/dl with only a few participants having severe anaemia, similar to reports in Cameroon and Thailand [30, 31]. No other infections were found in the participants, but nutritional deficiencies and malaria are recognized as the main causes of anaemia in African children [32]. Other factors contributing to anaemia include infections such as hookworm, helminthiasis, and HIV-AIDS. Soil-transmitted infections were not searched in this study. This study contributes to the description of P. falciparum infections in adults in a high transmission area. One limitation to this study is the absence of a full parasitological diagnosis for all participants as the finding related to parasite density may be specific to the only month of January and not be generalized to the other periods of the year. Nonetheless, it was observed that the prevalence of malaria during the 6-month period assessed by RDT was similar to the 1-month period assessed by microscopy. Further studies are necessary to more extensively characterize P. falciparum infections and prevalence in adolescents and adults in Gabon as adolescents and adults may be at greater risk of malaria with the control programmes oriented at earlier life periods.