The hemoglobinopathies, disorders of hemoglobin structure and production, protect against death from malaria 1 . In sub-Saharan Africa, two such conditions occur at particularly high frequencies: presence of the structural variant hemoglobin S and α + -thalassemia, a condition characterized by reduced production of the normal α-globin component of hemoglobin. Individually, each is protective against severe Plasmodium falciparum malaria 2-4 , but little is known about their malaria-protective effects when inherited in combination. We investigated this question by studying a population on the coast of Kenya and found that the protection afforded by each condition inherited alone was lost when the two conditions were inherited together, to such a degree that the incidence of both uncomplicated and severe P. falciparum malaria was close to baseline in children heterozygous with respect to the mutation underlying the hemoglobin S variant and homozygous with respect to the mutation underlying α + -thalassemia. Negative epistasis could explain the failure of α + -thalassemia to reach fixation in any population in subSaharan Africa.The mutation underlying the hemoglobin S variant (HbS) is a prototypical example of a balanced polymorphism: its frequency in populations is determined both by positive selection for heterozygosity (HbAS) 5 and negative selection for homozygosity (HbSS), which causes sickle cell disease, a debilitating condition associated with chronic anemia and premature death. Negative selection has not been shown to affect the frequency of α + -thalassemias. Perhaps as a consequence, these conditions approach fixation in a number of populations; for unknown reasons, however, frequencies remain relatively low in much of sub-Saharan Africa 1 .Despite conclusive evidence that both HbAS and α + -thalassemia protect against severe and fatal P. falciparum malaria 2-4 , the mechanisms underlying this protection are poorly 6,7 , and parasite-infected HbAS erythrocytes also seem to be targeted for premature destruction by the spleen 6,8,9 . These hypothetical mechanisms are supported by both the reduced incidence of clinical malaria and the lower parasite densities observed in children with HbAS erythrocytes when they suffer from clinical attacks 3,10 . Much less is known about α + -thalassemia. Although both heterozygosity (-α/αα) and homozygosity (-α/-α) with respect to the underlying mutation protect against severe and fatal malaria 2,4 , neither protects against uncomplicated malaria 11 or affects parasite densities during incident episodes 2,12 . We believe that a better understanding of how these conditions protect against malaria might provide insights into both the pathophysiology of severe malaria and the hostparasite relationship more generally 10 . Accordingly, we studied the effects of both HbAS and α + -thalassemia on the epidemiology of malaria in children living on the coast of Kenya.We measured the incidence of P. falciparum malaria in two cohorts of children from Kilifi District, where al...
SummaryBackgroundIn sub-Saharan Africa, more than 90% of children with sickle-cell anaemia die before the diagnosis can be made. The causes of death are poorly documented, but bacterial sepsis is probably important. We examined the risk of invasive bacterial diseases in children with sickle-cell anaemia.MethodsThis study was undertaken in a rural area on the coast of Kenya, with a case–control approach. We undertook blood cultures on all children younger than 14 years who were admitted from within a defined study area to Kilifi District Hospital between Aug 1, 1998, and March 31, 2008; those with bacteraemia were defined as cases. We used two sets of controls: children recruited by random sampling in the same area into several studies undertaken between Sept 1, 1998, and Nov 30, 2005; and those born consecutively within the area between May 1, 2006, and April 30, 2008. Cases and controls were tested for sickle-cell anaemia retrospectively.FindingsWe detected 2157 episodes of bacteraemia in 38 441 admissions (6%). 1749 of these children with bacteraemia (81%) were typed for sickle-cell anaemia, of whom 108 (6%) were positive as were 89 of 13 492 controls (1%). The organisms most commonly isolated from children with sickle-cell anaemia were Streptococcus pneumoniae (44/108 isolates; 41%), non-typhi Salmonella species (19/108; 18%), Haemophilus influenzae type b (13/108; 12%), Acinetobacter species (seven of 108; 7%), and Escherichia coli (seven of 108; 7%). The age-adjusted odds ratio for bacteraemia in children with sickle-cell anaemia was 26·3 (95% CI 14·5–47·6), with the strongest associations for S pneumoniae (33·0, 17·4–62·8), non-typhi Salmonella species (35·5, 16·4–76·8), and H influenzae type b (28·1, 12·0–65·9).InterpretationThe organisms causing bacteraemia in African children with sickle-cell anaemia are the same as those in developed countries. Introduction of conjugate vaccines against S pneumoniae and H influenzae into the childhood immunisation schedules of African countries could substantially affect survival of children with sickle-cell anaemia.FundingWellcome Trust, UK.
Although the ␣ ؉ thalassemias almost certainly confer protection against death from malaria, this has not been formally documented. We have conducted a study involving 655 case patients with rigorously defined severe malaria and 648 controls, frequency matched on area of residence and ethnic group. The prevalence of both heterozygous and homozygous ␣ ؉ thalassemia was reduced in both case patients with severe malaria (ad-
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