The incidence of clinical malaria detected by active case detection in children in Ifakara, southern Tanzania.

Between July 2000 and June 2001, we used weekly active case detection (ACD) of clinical malaria episodes in 618 children aged < 5 years to describe the epidemiology of malaria in Ifakara, southern Tanzania. Plasmodium falciparum-positive blood slides prepared from children with axillary temperature 37.5 degrees C were used to define clinical malaria and a rolling cross-sectional survey documented the prevalences of parasitaemia and anaemia. A random subsample of children was visited daily for 1 month at the end of the study to assess the effect of more frequent visits on estimated incidence rates. Only 50 (8%) children had 1 or more episodes of clinical malaria during the year, an overall incidence of 0.275 episodes/100 child-weeks-at-risk, with no age dependence. The maximum parasite prevalence of 25% was reached in children aged 4 years. The incidence of illness was significantly lower in children visited daily than in those visited weekly, suggesting a marked effect of frequent visits on estimated incidence rates. We conclude that the age pattern of malaria detected through ACD is a more robust epidemiological indicator than absolute incidence rate estimates and that, in contrast to the surrounding area, Ifakara town is subject to only moderate perennial malaria transmission.

Safety in infants of SPf66, a synthetic malaria vaccine, delivered alongside the EPI.

The most likely mechanism to deliver a malaria vaccine in African countries is through the Expanded Program of Immunization (EPI). So far only SPf66, a multistage synthetic peptide, has shown any evidence of protection in Phase III field trials. In Tanzania, SPf66 reduced the risk of clinical malaria by 31% in children aged 1-5 years. In order to progress in the critical path of vaccine development and testing towards the implementation of a new vaccine in malaria control programs, we carried out a randomized double-blind placebo controlled efficacy trial of SPf66 when given alongside the EPI scheme. Monitoring of safety and reactogenicity during this trial included detailed clinical and laboratory assessments on 98 infants and assessment of adverse effects within 1 h of vaccination for all 1207 children vaccinated. Surveillance systems monitored attendances as outpatients, admissions to hospital and fatal events in the community. No serious adverse effects were detected more frequently amongst SPf66 recipients compared to placebo. This first assessment in very young infants of a synthetic vaccine provides evidence of a good safety profile.

Randomised placebo-controlled trial of iron supplementation and malaria chemoprophylaxis for prevention of severe anaemia and malaria in Tanzanian infants.

BACKGROUND: Malaria and anaemia, especially that due to iron deficiency, are two leading causes of morbidity worldwide. Little is known about the relative contribution of Plasmodium falciparum infection and iron deficiency to the aetiology of anaemia in malaria-endemic areas. We undertook a randomised comparison of different strategies for control of anaemia and malaria in infants, including an assessment of the effect of iron supplementation on malaria susceptibility. METHODS: 832 infants born at one hospital in a malaria-hyperendemic area of Tanzania between January and October, 1995, were randomly assigned to group DI, receiving daily oral iron (2 mg/kg daily) plus weekly Deltaprim (3.125 mg pyrimethamine plus 25 mg dapsone); group IP, receiving iron plus weekly placebo; group DP, receiving daily placebo plus weekly Deltaprim; or group PP. supplementation was given from 8 to 24 weeks of age, and the weekly chemoprophylaxis from 8 to 48 weeks. The frequency of severe anaemia (packed-cell volume < 25%) and malaria episodes was assessed through a combination of passive case detection and cross-sectional surveys. FINDINGS: The groups that received iron supplementation had a lower frequency of severe anaemia than those that did not receive iron (0.62 vs 0.87 cases per person-year; protective efficacy 28.8% [95% CI 6.3-45.8). Iron supplementation had no effect on the frequency of malaria (0.87 vs 1.00 cases per person-year; protective efficacy 12.8% [-12.8 to 32.5]). The groups that received malaria prophylaxis had lower frequencies of both severe anaemia (0.45 vs 1.04 episodes per person-year; protective efficacy 57.3% [43.0-67.9]) and malaria (0.53 vs 1.34 episodes per person-year; protective efficacy 60.5% [48.2-69.9]) than the groups that did not receive prophylaxis. After the end of the intervention period, children who had received malaria chemoprophylaxis had higher rates of severe anaemia and malaria than non-chemoprophylaxis groups (relative risks 2.2 [1.3-3.7] and 1.8 [1.3-2.6]). INTERPRETATION: Malaria chemoprophylaxis during the first year of life was effective in prevention of malaria and anaemia but apparently impaired the development of natural immunity. Iron supplementation was effective in preventing severe anaemia without increasing susceptibility to malaria. Our findings support iron supplementation of infants to prevent iron-deficiency anaemia, even in malaria-endemic areas.

PIP: The impact of iron supplementation and malaria chemoprophylaxis was investigated in a double-blind, placebo-controlled study involving 832 infants born in a malaria-hyperendemic area of Tanzania in 1995. Infants were randomly assigned to receive daily oral iron (2 mg/kg) and weekly Deltaprim (3-125 mg pyrimethamine plus 25 mg dapsone), daily iron plus weekly placebo, or daily and weekly placebo. Daily supplementation was provided from 8 to 24 weeks of age, while weekly chemoprophylaxis was given from 8 to 48 weeks. The 2 groups that received iron supplementation had a lower frequency of severe anemia (packed cell volume under 25%) than those who received placebo (0.62 versus 0.87 cases per person-year; protective efficacy, 28.8%), but iron supplementation did not have a significant effect on malaria incidence (0.87 versus 1.00 cases per person-year; protective efficacy, 12.8%). Infants who received malaria prophylaxis had lower frequencies of both severe anemia (0.45 versus 1.04 episodes per person-year; protective efficacy, 57.3%) and malaria (0.53 versus 1.43 episodes per person-year; protective efficacy, 60.5%) than those who received placebo. However, after the end of the intervention period, children who had received malaria prophylaxis had higher rates of severe anemia and malaria than those in the non-chemoprophylaxis groups (relative risks, 2.2 and 1.8, respectively). These findings indicate that malaria chemoprophylaxis during the first year of life can impair the development of natural immunity, while iron supplementation effectively prevents severe anemia without increasing susceptibility to malaria.

Antigenic specificity and subset analysis of T cells isolated from the bronchoalveolar lavage and pleural effusion of patients with lung disease.

Cellular infiltrates of bronchoalveolar lavage (BAL) and pleural effusion from patients with tuberculosis (TB) and lung cancer were characterized for the presence of different T cell subsets by phenotypic analysis. The specificity of the T cells for mycobacterial antigens was then compared for the two disease compartments. The composition of T cell subsets within the BAL, in contrast to pleural effusion cells (PEC), revealed evidence of sequestration of CD8+ cells. BAL T cells were found to be a predominantly CD29+ DR+ memory population of activated cells. Although polyclonal populations of BAL T cells proliferated poorly to Mycobacterium tuberculosis antigens, mycobacterial antigen-reactive monoclonal T cell populations could be derived from the alveolar compartment. Two clones were shown to recognize the 65-kD heat shock protein of mycobacteria, and one of these clones recognized a conserved sequence of the molecule. Several BAL-derived clones, responding to a mycobacterial soluble extract, did not, however, recognize purified mycobacterial antigens, previously identified as highly stimulatory for PEC-derived T cells. T cell clones, derived from PEC of two TB patients, responded to the 38-kD and 71-kD, as well as the 65-kD mycobacterial antigens. Examination of the activation requirements of BAL-derived T cell clones, specific for mycobacterial antigens, revealed that exogenous IL-2 was necessary for the T cells to sustain proliferation. This was in contrast to the mycobacterial antigen-reactive T cells cloned from PEC. These results suggest that T cell populations with distinct antigen specificities and activation requirements are present in BAL and PEC.