Malaria Clinical Trial
Official title:
Malaria Infection Diagnosed by PCR as a Means of Evaluating Pre-erythrocytic Candidate Malaria Vaccines
The ability to test candidate pre-erythrocytic stage malaria vaccines, using a well-established sporozoite challenge model, in a field setting with group sizes of tens rather than hundreds of volunteers would greatly facilitate identification of the most promising vaccine candidates. The investigators assessed the suitability and acceptability of this method in a field trial in semi-immune volunteers exposed to natural infection during the high malaria transmission season.
Objective
The primary objective of the study was to determine if the very sensitive PCR technique,
capable of detecting malaria parasites at low densities could be used as an economical
method of undertaking preliminary field evaluation of pre-erythrocytic malaria vaccines. A
secondary objective was to determine if the intensive blood sampling that this method
requires would be acceptable.
Study area
This study was conducted from June to October 2004 when the incidence of malaria in The
Gambia is highest. Volunteers were recruited from 9 villages east of Farafenni, a town which
is 200km east of the capital city, Banjul. Malaria is highly seasonal in this area with an
entomological inoculation rate between 10 and 50 infectious bites per year.
Study population
Healthy volunteers aged between 15-45 years were screened at two centres for their
eligibility to take part in the study. Screening involved a thorough physical examination as
well as blood sampling tests for haematological (full blood count, packed cell volume
[PCV]), renal (plasma creatinine level) and hepatic (alanine amino transferase) tests and
for HIV 1 and 2 tests by ELISA. A glucose-6-phosphate dehydrogenase (G6PD) deficiency test
was carried out because of the risk involved with administering the study drugs Primaquine
and Lapdap to volunteers who are G6PD deficient. Exclusion criteria included a PCV < 30%,
raised plasma creatinine (> 130 micromoles/litre) or ALT levels (> 42 IU/litre), G6PD
deficiency, simultaneous participation in another clinical trial, blood transfusion in the
month prior to vaccination, previous experimental malaria vaccination, administration of
another vaccine within 2 weeks of vaccination, allergy to any previous vaccination or to
sulphadoxine/pyrimethamine, history of splenectomy and any treatment with immunosuppressive
drugs.
Study procedure
Eligible volunteers were enrolled into the study after written, informed consent was
obtained. All eligible volunteers were issued a unique number and a photo identification
card. Volunteers were randomly allocated into three groups to receive either two 5 x10^7 pfu
doses of FP9 ME-TRAP followed by a single dose of 1 x 10^8 pfu MVA ME-TRAP (malaria vaccine
group) or 3 doses of rabies vaccine (Fansidar and rabies groups). All vaccines were give 4
weeks apart and were administered intradermally. Following vaccination, all volunteers were
observed for 1 hr and given a course of anti-pyretic (paracetamol) to take if required. In
addition, home visits were made by field workers on days 1, 2, 7 and 28 after each
vaccination to record adverse events using a standard diary card. All volunteers received a
single dose of Primaquine (30mg) 7 days before the final dose of vaccination as radical cure
for gametocytes and a 3-day course of the short acting anti-malaria drugs, Lapdap and
Artesunate in combination starting on the day of final vaccination to clear any asexual
forms of the parasite before the follow-up period. Additionally, volunteers in the Fansidar
group received the long acting anti-malarial drug and were expected to remain PCR negative
throughout the follow-up period. Volunteers were followed up intensively for 28 days
starting 7days after the last vaccination. The period of follow-up was timed to correspond
with the period of high malaria transmission. Follow-up was by daily finger-pricks to obtain
0.5mls of blood in a microtainer for PCR analysis and a duplicate blood film for estimation
of malaria parasites. Laboratory staff that conducted immunoassays and PCR analysis were
blind to the group allocation of volunteers until after approval of the analysis plan by the
Data Safety Monitoring Board (DSMB).
Sample size
Based on practical and statistical considerations the researchers proposed to enroll 40
volunteers per group (a total of 120). Allowing for a steady rate of drop-out during follow
up amounting to total of 20% of subjects by the end of the trial, the trial has at least 80%
power to detect a difference in time to infection between the malaria vaccine and rabies
groups, if the vaccine efficacy is at least 60%, and at least 70% of the control group
volunteers develop detected parasitaemia during the trial.
Data Safety Monitoring Board (DSMB)
A DSMB was set up to oversee the conduct of the trial and approve the analytical plan before
unblinding the laboratory staff. The trial was conducted according to ICH Good Clinical
Practice guidelines and was guided by the Medical Research Council regulations for the
conduct of clinical trials.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Single Blind, Primary Purpose: Prevention
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