Concomitant Plasmodium falciparum and intestinal helminth infections in a rural community of southern Côte d’lvoire

Abstract

Background Despite eff orts to control the disease, malaria is still threatening the life of millions of people in sub-Saharan Africa [1]. In addition the distribution of malaria often overlaps in space with so called neglected tropical diseases (NTDs). People in endemic areas can therefore host more than one parasite species infection at the same time, hence making polyparasitism a common phenomenon [2-4]. The consequences of these diseases are manifold and can include impairment of cognitive development and anemia, school agedchildren and pregnant women representing the most vulnerable groups with particular risk of morbidity [4-6]. In Cote d'Ivoire, these diseases are widely prevalent but vary in their spatial distribution and present diff erent patterns of associations. Risk factors such as distance to water bodies and socio-economic status have been identified among the underlying causes for this heterogeneity [7,8] As a result of this heterogenous occurrence of multi-parasite infections related morbidity and burden due to polyparasitism will vary as well between areas. For control activities decision making usually takes place at global and/or national level but for integrated, cost-eff ective and sustainable control eff orts better understanding of co-infection dynamics at diff erent spatial scales are urgently needed. The main goal of this study was therefore to describe the pattern of concomitant infections with Plasmodium and intestinal helminths in a rural setting in southern Cote d'Ivoire. Method A cross-sectional study was conducted in a hamlet of Azaguie, named Ancien Carrefour, located 40 km from Abidjan, in September 2011. Blood and faecal specimens were collected to identify Plasmodium spp, Schistosoma mansoni, soil-transmitted helminths (hookworm, Ascaris lumbricoides, Trichuris trichiura), and intestinal protozoan infections by microscopy using standardized quality-controlled procedures. The study involved 413 persons from 85 households. Data analysis was done using logistic and multinomial regression models taking into account household eff ects. Results Plasmodium falciparum overall prevalence was 60.53% (Table 1), which means a parasitemic index (PI) of 57.55% that characterises a hyper endemic malaria area. Predominant NTD parasites were Schistosoma mansoni (27.36%) and hookworm ((31.23%) (Table 1). These parasites overlapped with P. falciparum.. The co-infection prevalences of P. falciparum-S. mansoni and P. falciparum-hookworm were 15.98% and 18.16%, respectively. Participants older than 5 years are at higher risk of co-infection compared to their younger. Multinomial analysis of co-infection of P. falciparum-S. mansoni (Table 2) reflected no significant association of age and sex to the co-infection risk. However, age was negatively related to the P. falciparum monoinfection risk, while female and age were negatively associated to the S. mansoni mono-infection risk. Multinomial analysis of co-infection of P. falciparum-hookworm (Table 3) showed that female were positively associated to the co-infection risk, while female and age presented a positive association to the hookworm mono-infection risk and age presented a negative association to P. falciparum mono-infection risk. Conclusion This study confirms that polyparasitism is common in rural settings. However, implications of polyparasitism on morbidity and quality of life are not well understood. Further research should focus on understanding co-infection dynamics on the purpose of designing and implementing a sustainable intregreted control strategy. (Table presented).