Malaria Clinical Trial
Official title:
Treatment Outcomes for Non-malarial Febrile Illness in Children Aged 6-59 Months in Areas of Perennial Malaria Transmission
To evaluate the causes of non-malarial febrile illness in children living in an area of perennial malaria transmission and to determine if these children who test negative for malaria by rapid diagnostic test receive any benefit from antimalarial therapy.
Until recently, national and global malaria control authorities recommended clinical
diagnosis—based solely on the presence or history of fever—for most malaria treatment
settings in sub-Saharan Africa where malaria transmission is sustained and intense. To some
extent this recommendation was based on the fact that conventional antimalarial treatments
like chloroquine or sulfadoxine-pyrimethamine (SP) were relatively affordable and safe and
that microscopic diagnosis was complex and difficult to maintain in remote rural settings.
It was economically advantageous and logistically more feasible to treat all potential cases
as malaria than to extend microscopic diagnosis to every level of the health system. This
approach has resulted in extensive over-treatment, particularly among older children and
adults, and may have contributed to the rapid development of antimalarial drug resistance.
Although much has been written recently on the cost-effectiveness of expanding malaria
diagnosis, available information is scarce on a number of other important reasons why
clinical diagnosis has been recommended for so long, especially among children living in
high transmission settings. First, uncomplicated malaria can progress to severe or fatal
illness within 24 to 48 hours of onset. Numerous care-seeking studies have demonstrated that
caretakers seldom arrive at formal health facilities within 24 or 48 hours after the onset
of uncomplicated febrile illness. If a diagnostic test imposes additional barriers—such as
cost, time delay, or referral—requiring a positive parasitological diagnosis could put
children whose cause of fever is malaria infection at greater risk of progressing to severe
or fatal illness. Second, although the current approach based on clinical diagnosis appears
to result in substantial over-treatment, it is still possible to demonstrate that children
living in malaria transmission areas benefit from additional scheduled doses of antimalarial
treatment, even when they are not ill. For example, a meta-analysis of six trials of
sulfadoxine-pyrimethamine (SP) given to children at routine immunization visits demonstrated
an average decrease of 30% in episodes of clinical malaria, 15% in anemia, and 24% in
all-cause hospital admissions among children receiving SP compared to children who did not
receive the drug at these visits. Finally, providers and clients may be inclined to
disregard a negative blood slide or RDT, especially in situations where they have not
identified an additional treatable cause of illness. Withholding antimalarial treatments
from such children might adversely affect provider and client satisfaction and poor client
satisfaction may reduce subsequent health facility utilization. It might also encourage
disappointed clients to seek treatment in the private sector where a broad range of
antimalarial drugs—most of them single drug treatments that contribute to the development of
resistance and which are not recommended in the national treatment policy—can be obtained
without diagnostic confirmation.
We propose a longitudinal cohort study to evaluate the identifiable causes of treatable
fever among 1000 malaria-negative children presenting to outpatient health clinics in Miono,
Bagamoyo District, Tanzania using a variety of clinical, microbiological and serologic
methods. In addition we intend to follow these 1000 malaria-negative children for up to 91
days or until their next malaria infection to assess their clinical progress and need for
further malaria treatment. To compare the relative benefit of providing antimalarial
treatment even to malaria-negative children, half of the participants will be randomized to
receive first-line treatment for malaria as currently recommended; the other half will
receive treatment only for other identified illnesses.
Alternative Hypothesis: Febrile, parasite-negative children treated for malaria have better
clinical and longitudinal outcomes (as measured by prevalence of anemia at the end of the
follow up period, reticulocyte count repeat visits to the health facility, hospitalization,
and time to next infection with malaria parasites) than febrile, parasite-negative children
not treated for malaria in areas of high transmission.
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Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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