Preventing the Spread of Malaria in Mali

Overview

A vaccine which interrupts malaria transmission is a critical tool to achieve the ultimate goal of eradication of this disease. Transmission blocking vaccines work by inducing antibody in vaccinated individuals that inhibits the development of malaria parasites in the mosquito, thus interrupting the cycle of transmission to the next human host. Efficacy of these vaccines may be estimated by in vitro membrane feeding assays using immune sera and laboratory strain mosquitoes, but these assays need to be qualified to determine to what extent they are predictive of transmission blocking in the field. Clinical trials of transmission blocking vaccines are also anticipated and have started in this community. This protocol will use a nested casecontrol cohort design to compare results of mosquito feeding assays in a malaria exposed population in Bancoumana and surrounding villages in Mali. Households will be identified using census data and individuals will be consented for participation. Malaria smears will be obtained at monthly visits, and gametocytemic individuals will be asked to participate in direct feed experiments using insectary-raised mosquitoes. Infectivity in these mosquitoes will be compared against those of mosquitoes fed in membrane feeding assays in Mali and the USA. Data will also be obtained on gametocyte and parasite carriage rates through the year. A total of 250 volunteers from Bancoumana, ages 3 months to 50 years, were initially enrolled in 2011. In 2012, an additional 250 adults from Bancoumana were enrolled and participants older than 5 years of age who were enrolled in 2011 and wanted to continue participation were re-enrolled into the study. A transmission blocking vaccine trial started in May 2013, and has enrolled participants from this adult cohort in that study. Up to 50 new adults from Bancoumana and surrounding villages will be enrolled in 2014 and those volunteers previously enrolled into the study over theage of 5 years old will be offered re-enrollment into the study.

Full Title of Study: “Malaria Transmission Blocking Assay Development and Gametocyte Carriage in a Vaccine Testing Site in Mali”

Study Type

  • Study Type: Observational
  • Study Design
    • Time Perspective: Prospective

Detailed Description

A vaccine which interrupts malaria transmission is a critical tool to achieve the ultimate goal of eradication of this disease. Transmission blocking vaccines work by inducing antibody in vaccinated individuals that inhibits the development of malaria parasites in the mosquito, thus interrupting the cycle of transmission to the next human host. Efficacy of these vaccines may be estimated by in vitro membrane feeding assays using immune sera and laboratory strain mosquitoes, but these assays need to be qualified to determine to what extent they are predictive of transmission blocking in the field. Clinical trials of transmission blocking vaccines are also anticipated and have started in this community. This protocol will use a nested casecontrol cohort design to compare results of mosquito feeding assays in a malaria exposed population in Bancoumana and surrounding villages in Mali. Households will be identified using census data and individuals will be consented for participation. Malaria smears will be obtained at monthly visits, and gametocytemic individuals will be asked to participate in direct feed experiments using insectary-raised mosquitoes. Infectivity in these mosquitoes will be compared against those of mosquitoes fed in membrane feeding assays in Mali and the USA. Data will also be obtained on gametocyte and parasite carriage rates through the year. A total of 250 volunteers from Bancoumana, ages 3 months to 50 years, were initially enrolled in 2011. In 2012, an additional 250 adults from Bancoumana were enrolled and participants older than 5 years of age who were enrolled in 2011 and wanted to continue participation were re-enrolled into the study. A transmission blocking vaccine trial started in May 2013, and has enrolled participants from this adult cohort in that study. Up to 50 new adults from Bancoumana and surrounding villages will be enrolled in 2014 and those volunteers previously enrolled into the study over theage of 5 years old will be offered re-enrollment into the study.

Clinical Trial Outcome Measures

Primary Measures

  • a) Mosquito infectivity by DF, DMFA (a, b, and c), and SMFA (d and e), as measured by infection rate (number of infected vs. un- nfected mosquitoes), and oocyst counts in infected mosquitoes, both determined using microscopy.
    • Time Frame: 24 months
  • b) The period prevalence and density of gametocytes throughout the study period, as detected by thick smear and nucleic acid based techniques
    • Time Frame: 24 months

Secondary Measures

  • a)Antibody levels to sexual P. falciparum antigens, and other antigens of interest.
    • Time Frame: 24 months
  • b)Mosquito infectivity as measured by circumsporozoite protein (CSP) ELISA.
    • Time Frame: 24 months
  • c)Hemoglobin level as measured by HemoCue.
    • Time Frame: 24 months
  • d)Hemoglobin variants (hemoglobin S, C, alpha thalassemia), G6PD status, blood group/Rh.
    • Time Frame: 24 months

Participating in This Clinical Trial

Inclusion Criteria

All of the following criteria must be fulfilled for a volunteer to participate in the study: 1. Age between 3 months and 50 years, inclusive 2. Good general health as a result of review of medical history and/or clinical testing at the time of screening 3. Available for the duration of the study (1 year) 4. Willingness to participate in the study as evidenced by signing the informed consent document, or by fingerprinting the consent document with the signature of a witness 5. Known resident of the village of the study 6. Willingness to allow stored laboratory specimens to be used for future research. 7. In addition to the above criteria, the expanded adult cohort must be willing to consider participation in a future malaria vaccine trial. EXCLUSION CRITERIA:

A volunteer will be excluded from participating in this study if any one of the following criteria is fulfilled: 1. Pregnancy as determined by history or a positive urine Beta-hCG test at any point during the study. 2. Behavioral, cognitive, or psychiatric disease that in the opinion of the investigator affects the ability of the subject to understand and cooperate with the study protocol. 3. Other condition that, in the opinion of the investigator, would jeopardize the safety or rights of a volunteer participating in the trial or would render the subject unable to comply with the protocol. 4. Participation in another investigational vaccine or drug trial while this study is ongoing. 5. Previous receipt of experimental malaria vaccine. 6. Baseline hemoglobin < 8.5 g/dL In addition to above criteria, a volunteer will be excluded from participating in the transmission blocking assay part of the study if the following criteria is fulfilled: 7. History of reactions to mosquito bites with severe itching or swelling, or lasting longer than 3 days

Gender Eligibility: All

Minimum Age: 3 Months

Maximum Age: 50 Years

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • National Institute of Allergy and Infectious Diseases (NIAID)
  • Provider of Information About this Clinical Study
    • Sponsor
  • Overall Official(s)
    • Sara A Healy, M.D., Principal Investigator, National Institute of Allergy and Infectious Diseases (NIAID)

References

Cheru L, Wu Y, Diouf A, Moretz SE, Muratova OV, Song G, Fay MP, Miller LH, Long CA, Miura K. The IC(50) of anti-Pfs25 antibody in membrane-feeding assay varies among species. Vaccine. 2010 Jun 17;28(27):4423-9. doi: 10.1016/j.vaccine.2010.04.036. Epub 2010 Apr 29.

Birkett AJ. PATH Malaria Vaccine Initiative (MVI): perspectives on the status of malaria vaccine development. Hum Vaccin. 2010 Jan;6(1):139-45. doi: 10.4161/hv.6.1.10462. Epub 2010 Jan 29. No abstract available.

Diallo M, Toure AM, Traore SF, Niare O, Kassambara L, Konare A, Coulibaly M, Bagayogo M, Beier JC, Sakai RK, Toure YT, Doumbo OK. Evaluation and optimization of membrane feeding compared to direct feeding as an assay for infectivity. Malar J. 2008 Dec 2;7:248. doi: 10.1186/1475-2875-7-248.

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