Malaria Clinical Trial
Official title:
Pharmacokinetics of Chlorproguanil-Dapsone in Pregnant Women With Plasmodium Falciparum Infection, and Reinfection With P. Falciparum During Pregnancy Following Treatment
Controlling malaria during pregnancy is a vital strategy in decreasing maternal and child
mortality in Africa. There are data from clinical trials and program evaluations in stable
transmission areas that show that intermittent preventive treatment (IPT) with two doses of
sulfadoxine-pyrimethamine (SP) is safe, efficacious, and effective in preventing maternal
anemia, placental parasitemia, and low birth weight (LBW). SP is also the first-line drug
for the case-management of malaria in pregnancy. Resistance to SP, however, is increasing
rapidly in East and Central Africa and compliance to the rescue treatment, 7-days of oral
quinine, is low. There is an urgent need to find effective, safe and practical alternative
drugs for the treatment of malaria in pregnancy. The synergistic antifolate combination
chlorproguanil-dapsone (CD), has recently become available. It is inexpensive, well
tolerated, is given as single daily treatment doses for 3 days, and is effective in the
treatment of drug-resistant falciparum malaria.
The investigators propose a small pharmacokinetic study of CD to determine if current fixed
combination CD tablets provide an adequate dosage in pregnancy. Such a study is a necessary
precursor to any large Phase II trials to further evaluate the safety and efficacy of CD for
use in pregnant women. To accomplish this, a group of 66 parasitemic pregnant women in this
open label trial will receive CD and be sampled by venipuncture at two of the seven
follow-up visits scheduled for pharmacokinetic analyses, such that 11 patients are sampled
at each of 12 time points. To serve as a reference, 66 non-pregnant women with symptomatic
malaria will also be treated with CD and will have identical pharmacokinetic (PK) analyses
performed.
Pregnant women greater than or equal to 20 weeks gestation with P. falciparum parasitemia on
peripheral blood film will be given an insecticide-treated net (ITN) and will receive CD
(1.5 or 2 tablets daily for 3 days, depending on weight). All study drug dosing will be
observed. Women will be examined, adverse events recorded, and blood samples collected at
days 0, 1, 2, 3, 7, 14, 21, and 28 after treatment, and thereafter every 14 days until
delivery. Women will be further randomized to receive additional blood draws for
pharmacokinetic analyses using a modified rich PK schedule. Each woman will only have 2
additional blood draws. Women at delivery will have peripheral and placental blood films
prepared. Newborns will be weighed, examined, and gestational age determined. Women
requiring antimalarial treatment for parasitemia at any point between enrollment and
delivery will be treated with quinine. Adverse effects will be assessed at each scheduled
visit, any sick visits during the study, and at delivery.
Malaria infection during pregnancy poses substantial risk to the mother, her fetus, and the
neonate. In areas of stable transmission where adult women have considerable acquired
immunity, Plasmodium falciparum infection during pregnancy typically does not cause
symptomatic malaria, but may lead to maternal anemia and placental malaria infection,
especially among primigravidae and secundigravidae. This placental malarial infection
contributes to low birth weight (LBW), a major contributor to infant mortality. Malaria
contributes up to 15% of maternal anemia, 14% of LBW, 30% of preventable LBW, 70% of
intrauterine growth retardation, 36% of premature delivery, and 8% of infant mortality. In
Mali, malaria is the leading cause of morbidity (15%) and mortality (13%) in the general
population (Kassoum Kayentao, personal communication). Malaria can be found in 25.9% of
pregnant women attending antenatal care, and in the placenta of 27.8% of pregnant women at
delivery (Kassoum Kayentao, personal communication).
Controlling malaria during pregnancy is a vital strategy in decreasing maternal and child
mortality in Africa. There are data from clinical trials and program evaluations in stable
transmission areas that show that intermittent preventive treatment (IPT) with two doses of
sulfadoxine-pyrimethamine (SP) is safe, efficacious, and effective in preventing maternal
anemia, placental parasitemia, and LBW. SP is also the first-line drug for the
case-management of malaria in pregnancy. Resistance to SP, however, is increasing rapidly in
East and Central Africa and compliance to the rescue treatment, 7-days of oral quinine, is
low. There is an urgent need to find effective, safe and practical alternative drugs for the
treatment of malaria in pregnancy. The synergistic antifolate combination
chlorproguanil-dapsone (CD), has recently become available as a fixed combination caplet of
80 mg chlorproguanil and 100 mg dapsone (Lapdap™, GlaxoSmithKline, UK). It is inexpensive
($0.29 per treatment course), well tolerated, is given as single daily treatment doses for 3
days, and is effective in the treatment of drug-resistant falciparum malaria. CD however has
good efficacy as salvage therapy of SP treatment failures in children and could play an
important role in the case management of malaria in pregnancy. Given that the component
drugs are both considered safe in pregnancy, it is expected that the combination will also
be safe for use in pregnancy, but this has not been formally evaluated.
The investigators propose a small pharmacokinetic study of CD to determine if the current
co-formulated fixed combination CD tablets provide an adequate dosage in pregnancy. Such a
study is a necessary precursor to any large Phase II trials to further evaluate the safety
and efficacy of CD for use in pregnant women. Therefore, the primary objective of this study
is to evaluate the pharmacokinetics of CD in pregnancy. To accomplish this, a group of 66
parasitemic pregnant women in this open label trial will receive CD and be sampled by
venipuncture at two of the seven follow-up visits scheduled for pharmacokinetic analyses,
such that 11 patients are sampled at each of 12 time points. To serve as a reference, 66
non-pregnant women with symptomatic malaria will also be treated with CD and will have
identical PK analyses performed.
There are also data that show that women using insecticide treated bednets (ITNs) during
pregnancy are also less likely to suffer the adverse outcomes of malaria during pregnancy.
The World Health Organization (WHO) currently recommends that all pregnant women in malaria
endemic areas sleep under an ITN and receive at least 2 doses of IPT with an efficacious
antimalarial in the 2nd and 3rd trimester. The combined efficacy of ITNs and IPT remains
unclear. It is important to understand if a short-acting antimalarial such as CD will
function as well as a long-acting drug such as SP in preventing malaria during pregnancy
among women who are also sleeping under an ITN. Therefore, the secondary aim is to estimate
the proportion of pregnant women sleeping under ITNs who become re-infected with malaria
before delivery following administration of a single dose of chlorproguanil-dapsone for P.
falciparum parasitemia.
Eligible pregnant women greater than or equal to 20 weeks gestation with P. falciparum
parasitemia on peripheral blood film, with no history of antimalarial use other than
chloroquine or quinine, and who give consent to participate will be given an ITN and will
receive CD (1.5 or 2 tablets daily for 3 days, depending on weight) All study drug dosing
will be observed. Women will be examined, adverse events recorded, and blood samples
collected at days 0, 1, 2, 3, 7, 14, 21, and 28 after treatment, and thereafter every 14
days until delivery. Women will be further randomized to receive additional blood draws for
pharmacokinetic analyses using a modified rich PK schedule. Each woman will only have 2
additional blood draws. Women at delivery will have peripheral and placental blood films
prepared. Newborns will be weighed, examined, and gestational age determined. Women
requiring antimalarial treatment for parasitemia at any point between enrollment and
delivery will be treated with quinine. Adverse effects will be assessed at each scheduled
visit, any sick visits during the study, and at delivery. An independent external monitor
will be recruited for visiting the study site at the beginning of the field work and before
the end of the study.
Standard pharmacokinetic measurements using high-pressure liquid chromatography will be
performed to determine serum CD levels. Determination of malaria parasitemia (peripheral and
placental) will be made by reading thick Giemsa-stained blood films. Birth weights will be
measured using an electronic scale (+/- 10g). Gestational age will be estimated using the
Ballard score. All women will receive an ITN on enrollment to reduce the probability of new
malaria infections of mother and newborn.
;
Allocation: Non-Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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