AMERICAN JOURNAL OF TROPICAL MEDICINE AND HYGIENE

We estimate that the global burden of malaria due to Plasmodium vivax is approximately 70-80 million cases annually. Probably approximately 10-20% of the world's cases of P. vivax infection occur in Africa, south of the Sahara. In eastern and southern Africa, P. vivax represents around 10% of malaria cases but < 1% of cases in western and central Africa. Outside of African, P. vivax accounts for > 50% of all malaria cases. About 80-90% of P. vivax outside of Africa occurs in the Middle East, Asia, and the Western Pacific, mainly in the most tropical regions, and 10-15% in Central and South America. Because malaria transmission rates are low in most regions where P. vivax is prevalent, the human populations affected achieve little immunity to this parasite; as a result, in these regions, P. vivax infections affect people of all ages. Although the effects of repeated attacks of P. vivax through childhood and adult life are only rarely directly lethal, they can have major deleterious effects on personal well-being, growth, and development, and on the economic performance at the individual, family, community, and national levels. Features of the transmission biology of P. vivax give this species greater resilience than the less robust Plasmodiumfalciparum in the face of conditions adverse to the transmission of the parasites. Therefore, as control measures become more effective, the residual malaria burden is likely increasingly to become that of P. vivax.

A nested polymerase chain reaction (PCR) assay that uses Plasmodium genus-specific primers for the initial PCR (nest 1) amplification and either genus- or species-specific primers for the nest 2 amplifications was tested on laboratory and field samples. With in vitro cultured Plasmodium falciparum-infected blood samples, it was capable of detecting six parasites/microl of blood using DNA prepared from 25-microl blood spots on filter paper. The assay was evaluated on fingerprick blood samples collected on filter paper from 129 individuals living in a malaria-endemic area in Malaysia. Malaria prevalence by genus-specific nested PCR was 35.6% (46 of 129) compared with 28.7% (37 of 129) by microscopy. The nested PCR detected seven more malaria samples than microscopy in the first round of microscopic examination, malaria in three microscopically negative samples, six double infections identified as single infections by microscopy and one triple infection identified as a double infection by microscopy. The nested PCR assay described is a sensitive technique for collecting accurate malaria epidemiologic data. When coupled with simple blood spot sampling, it is particularly useful for screening communities in remote regions of the world.

Recent evidence suggest that resistance to praziquantel (PZQ) may be developing. This would not be surprising in countries like Egypt where the drug has been used aggressively for more that 10 years. The classic phenotype of drug resistance is a significant increase in the 50% effective dose value of isolates retrieved from patients not responding to the drug. In a previous publication, we reported that such phenotypes have been isolated from humans infected with Schistosoma mansoni. Since the action of PZQ may be dependent upon the drug and host factors, most notably the immune system, we analyzed the quantitative effects of PZQ on single worms that differed in their response to PZQ when maintained in mice. Our hypothesis was that the in vitro action of the drug would correlate with it in vivo action. We confirmed this hypothesis and conclude that the in vitro action of the drug is related to its in vivo action. Knowing this relationship will assist in our ability to detect or survey for the PZQ resistant phenotype in human populations.

Evaluations of the African childhood malaria burden do not fully quantify the contributions of cerebral malaria (CM), CM-associated neurological sequelae, malarial anemia, respiratory distress, hypoglycemia, and pregnancy-related complications. We estimated the impact of these malaria manifestations on members of the African population < 5 years old. Calculations were based on an extensive literature review that used National Library of Medicine search engines, other bibliographic sources, and demographic data. In sub-Saharan Africa, CM annually affects 575,000 children < 5 years of age and 110,000 (approximately 19% case fatality rate [CFR]) die. Childhood survivor, of CM experience developmental and behavioral impairments: each year, 9,000-19,000 children (> 2% of survivors of CM) < 5 years of age in Africa experience neurological complications lasting > 6 months. Severe malarial anemia heavily burdens hospitals with rising admission and CFRs and with treatments that are complicated by limited and sometimes contaminated blood supplies. Severe malarial anemia occurs 1.42-5.66 million times annually and kills 190,000-974,000 (> 13% CFR) children < 5 years of age annually. Respiratory distress, hypoglycemia, and overlapping clinical manifestations cause 1.12-1.99 million cases and > 225,000 (> 18% CFR) additional deaths among African children with malaria. Maternal, placental, or fetal malaria infection during pregnancy adversely affects development and survival of fetuses and newborns through low birth weight (LBW), maternal anemia, and possibly abortion and stillbirth. Between 167,000 and 967,000 cases of malaria-associated LBW occur yearly; malaria-induced LBW kills 62,000-363,000 (> 38% CFR) newborns each year. All the gaps in the burden comprise 0.4-1.7 million deaths annually, > 50% of which are due to severe malarial anemia. These malaria-induced medical problems constitute major clinical, public health, and research challenges in that they may contribute to more than double the mortality than is generally acknowledged.

Epidemiologic studies and clinical description of severe Plasmodium vivax malaria in adults living in malaria-endemic areas are rare and more attention is needed to understand the dynamics and its interaction with the immune system. This observational study included 1,091 adult patients admitted to medical wards of S. P. Medical College and associated group of hospitals in Bikaner, India from September 2003 through December 2005. The diagnosis of P. vivax malaria was established by peripheral blood film (PBF), rapid diagnostic test (RDT), and polymerase chain reaction (PCR), and severe malaria was categorized as per World Health Organization guidelines. Of 1,091 patients with malaria, 635 had P. falciparum malaria and 456 had P. vivax malaria. Among patients with severe manifestations, 40 had evidence of monoinfection of P. vivax malaria diagnosed by PBF, RDT, and PCR. Complications observed were hepatic dysfunction and jaundice in 23 (57.5%) patients, renal failure in 18 (45%) patients, severe anemia in 13 (32.5%) patients, cerebral malaria in 5 patients (12.5%), acute respiratory distress syndrome in 4 patients (10%), shock in 3 patients (7.5%), and hypoglycemia in 1 (2.5%) patient. Thrombocytopenia was observed in 5 (12.5%) patients, and multi-organ dysfunction was detected in 19 (47.5%) patients. Further large-scale multicentric epidemiologic studies are needed to define the basic pathology of this less known entity.