Induced Blood-Stage Malaria in Healthy Malaria-Naive Adults to Assess the Safety and Infectivity of Plasmodium Vivax Challenge Agent and Evaluate Transmission in Mosquito Feeding Assays

Overview

Background: Malaria is a disease caused by parasites transmitted to people by mosquitoes. Around the world, there were 241 million cases and 627,000 deaths from malaria in 2020. Researchers are working to develop vaccines and treatments for this disease. Objective: To learn how malaria develops in people; how the body's immune system reacts to malaria; and how malaria spreads from people to mosquitoes. Eligibility: Healthy people in the Washington DC area, aged 18 to 54 years. They cannot live alone during parts of the study. Design: Participants will be infected with a parasite that causes malaria. The parasite will be in donated blood; it will be given through an IV. Participants will likely develop symptoms within a week after the injection. Researchers will call daily to check on their health. After about 6 days, participants will come to the NIH clinic each day for blood tests. Participants will check in to the NIH clinic around 10 days after the injection. They will stay in the clinic 3 to 6 days. They will have multiple blood tests every day. Participants will be bitten by mosquitoes up to 4 times. Cups containing mosquitoes will be held against their skin for 15 minutes. Participants will begin taking chloroquine close to the end of their clinic stay. Chloroquine is a pill taken by mouth once or twice a day for 3 days. It is FDA-approved to treat malaria. Participants will have follow-up visits 1 and 3 weeks after discharge.

Study Description: Single-center, open-label, phase 1 study to characterize the safety and infectivity of Plasmodium vivax (P. vivax) challenge agent for induced blood-stage malaria (IBSM) in malaria-naive participants at the NIH Clinical Center (NIHCC). Challenge agent derived from a cell bank of cryopreserved blood-stage P. vivax (PvHMB-CCE001) will be administered intravenously. A minimum of 2 participants will undergo IBSM to establish initial safety and infectivity of the challenge agent (pilot group). Additional participants, totaling 10 to 50 (main group), will be enrolled to further develop the model including to evaluate growth kinetics, transmission to mosquitoes using feeding assays and assess the host response to P. vivax infection. All participants who receive challenge agent will undergo antimalarial treatment. Qualification and characterization of the IBSM model, including transmission assays in malaria na(SqrRoot) ve, unvaccinated participants, is a requisite goal in supporting future studies to evaluate stage-specific vaccines (transmission blocking vaccines (TBVs) and blood stage vaccines (BSVs)) using the model. Challenge agent derived from bank PvHMB-CCE001 will be assessed first in a pilot group of at least 2 participants, then subsequently in a main group with participants receiving inoculations in cohorts of up to 10 individuals based on logistical considerations including the capacity of clinic resources. The dose of the challenge agent may be adjusted if needed to generate reliable IBSM. Objectives: * Primary Objective --To assess the safety of the P. vivax IBSM model following inoculation of healthy participants. * Secondary Objectives * To establish an appropriate challenge agent dose for use in P. vivax IBSM studies. * To evaluate transmission of P. vivax to vector mosquitoes in the IBSM model by mosquito feeding assays. * To establish a dataset that may be used as a historical control in future interventional IBSM transmission studies. * Exploratory Objectives * To further characterize blood and sexual stage parasite growth profiles following blood-stage P. vivax challenge and treatment. * To assess host responses to P. vivax IBSM. * To optimize mosquito infectivity in feeding assays, and study human to mosquito transmission and generate mosquito stages of the parasite. * To establish a supply of P. vivax infected blood. Endpoints: * Primary Endpoint --Incidence and severity of local and systemic adverse events (AEs) or serious adverse events (SAEs). * Secondary Endpoints * A suitable dose of challenge agent that generates parasitemia in a reliable and timely manner as determined by the investigator. * Transmission of P. vivax to Anopheles spp. using mosquito feeding assays including direct feeding assays and/or membrane feeding assays as determined by the detection of oocysts following midgut dissection. Additional optional measures may include salivary gland dissection or detection by molecular methods. * Demonstration of transmission in mosquito feeding assays among a requisite number of participants. * Exploratory Endpoints * Asexual blood-stage and sexual stage parasite growth profiles by quantitative polymerase chain reaction (qPCR) and/or microscopy. * Antibody responses: Antibody levels elicited following IBSM as measured by enzyme-linked immunosorbent assay (ELISA) (e.g., antibodies against Pvs230, Pvs25, Pvs44/45 sexual stage antigens, or PvMSP3, MSP9, and AMA1 asexual stage antigens), cellular responses, biomarkers, and transcriptional profiling at various timepoints. * Collection of gametocyte-containing blood and study in mosquito transmission assays. * Collection of P. vivax-containing blood from participants.