Sickle Cell Trait and the Risk of Plasmodium falciparum Malaria and Other Childhood Diseases
Date
2005-07Author
Williams, Thomas N
Mwangi, Tabitha
Wambua, Sammy
Alexander, Neal D.
Kortok, Moses
Snow, Robert W.
Marsh, Kevin
Metadata
Show full item recordAbstract
Background—The gene for sickle hemoglobin (HbS) is a prime example of natural selection. It
is generally believed that its current prevalence in many tropical populations reflects selection for
the carrier form (sickle cell trait [HbAS]) through a survival advantage against death from malaria.
Nevertheless, >50 years after this hypothesis was first proposed, the epidemiological description
of the relationships between HbAS, malaria, and other common causes of child mortality remains
incomplete.
Methods—We studied the incidence of falciparum malaria and other childhood diseases in 2
cohorts of children living on the coast of Kenya.
Results—The protective effect of HbAS was remarkably specific for falciparum malaria, having
no significant impact on any other disease. HbAS had no effect on the prevalence of symptomless
parasitemia but was 50% protective against mild clinical malaria, 75% protective against
admission to the hospital for malaria, and almost 90% protective against severe or complicated
malaria. The effect of HbAS on episodes of clinical malaria was mirrored in its effect on parasite
densities during such episodes.
Conclusions—The present data are useful in that they confirm the mechanisms by which HbAS
confers protection against malaria and shed light on the relationships between HbAS, malaria, and
other childhood diseases.