TY - JOUR
T1 - Efficacy and Safety of High-Dose Ivermectin for Reducing Malaria Transmission (IVERMAL): Protocol for a Double-Blind, Randomized, Placebo-Controlled, Dose-Finding Trial in Western Kenya
AU - Smit, Menno
AU - Ochomo, Eric
AU - Aljayyoussi, Ghaith
AU - Kwambai, Titus
AU - Abongo, Bernard
AU - Bayoh, Nabie
AU - Gimnig, John E
AU - Samuels, Aaron
AU - Desai, Meghna
AU - Phillips-Howard, Penelope
AU - Kariuki, Simon
AU - Wang, Duolao
AU - Ward, Steve
AU - Ter Kuile, Feiko
PY - 2016/11/17
Y1 - 2016/11/17
N2 - Background:Innovative approaches are needed to complement existing tools for malaria elimination. Ivermectin is a broad spectrum antiparasitic endectocide clinically used for onchocerciasis and lymphatic filariasis control at single doses of 150‐200 mcg/kg. It also shortens the lifespan of mosquitoes that feed on individuals recently treated with ivermectin. However, the effect after a 150‐200 mcg/kg oral dose is short‐lived (6‐11 days). Modelling suggests higher doses, that prolong the mosquitocidal effects, are needed to make a significant contribution to malaria elimination. Ivermectin has a wide therapeutic index and previous studies have shown doses up to 2,000 mcg/kg, i.e. 10x the US Food and Drug Administration approved dose, are well tolerated and safe; the highest dose used for onchocerciasis is single‐dose 800 mcg/kg.Objective:To determine the safety, tolerability, and efficacy of ivermectin 0, 300, 600 mcg/kg/day for 3 days, when provided with a standard 3‐day course of the antimalarial dihydroartemisinin‐piperaquine, on mosquito survival.Methods:This is a double‐blind, randomised, placebo‐controlled, parallel‐group, 3‐arm, dose‐finding trial in adults with uncomplicated malaria. Monte Carlo simulations based on pharmacokinetic modelling were performed to determine the optimum dosing regimens to be tested. Modelling showed that a 3‐day regimen of 600 mcg/kg/day achieves similar median (5‐95 percentiles) Cmax concentrations of ivermectin to single‐dose of 800 mcg/kg, while increasing the median time above the LC50 (16 ng/mL) from 1.9 days (1.0‐5.7) to 6.8 (3.8‐13.4) days. The 300 mcg/kg/day dose was chosen at 50% of the higher dose to allow evaluation of the dose response. Mosquito survival will be assessed daily up to 28 days in laboratory‐reared Anopheles gambiae s.s. populations fed on patients’ blood taken at days 0, 2 (Cmax), 7 (primary outcome), 10, 14, 21, and 28 after the start of treatment. Safety outcomes include QT‐prolongation and mydriasis. The trial will be conducted in 6 health facilities in western Kenya and requires a sample size of 141 participants (47 per arm). Sub‐studies include: (1) rich pharmacokinetics and (2) direct skin vs membrane feeding assays.Results:Recruitment started July 20th, 2015. Data collection was completed on July 2nd, 2016. Unblinding and analysis will commence once the database has been completed, cleaned and locked.Discussion:High‐dose ivermectin, if found to be safe and well tolerated, might offer a promising new tool for malaria elimination.Trial registration:ClinicalTrials.gov: NCT02511353 (July 15, 2015).
AB - Background:Innovative approaches are needed to complement existing tools for malaria elimination. Ivermectin is a broad spectrum antiparasitic endectocide clinically used for onchocerciasis and lymphatic filariasis control at single doses of 150‐200 mcg/kg. It also shortens the lifespan of mosquitoes that feed on individuals recently treated with ivermectin. However, the effect after a 150‐200 mcg/kg oral dose is short‐lived (6‐11 days). Modelling suggests higher doses, that prolong the mosquitocidal effects, are needed to make a significant contribution to malaria elimination. Ivermectin has a wide therapeutic index and previous studies have shown doses up to 2,000 mcg/kg, i.e. 10x the US Food and Drug Administration approved dose, are well tolerated and safe; the highest dose used for onchocerciasis is single‐dose 800 mcg/kg.Objective:To determine the safety, tolerability, and efficacy of ivermectin 0, 300, 600 mcg/kg/day for 3 days, when provided with a standard 3‐day course of the antimalarial dihydroartemisinin‐piperaquine, on mosquito survival.Methods:This is a double‐blind, randomised, placebo‐controlled, parallel‐group, 3‐arm, dose‐finding trial in adults with uncomplicated malaria. Monte Carlo simulations based on pharmacokinetic modelling were performed to determine the optimum dosing regimens to be tested. Modelling showed that a 3‐day regimen of 600 mcg/kg/day achieves similar median (5‐95 percentiles) Cmax concentrations of ivermectin to single‐dose of 800 mcg/kg, while increasing the median time above the LC50 (16 ng/mL) from 1.9 days (1.0‐5.7) to 6.8 (3.8‐13.4) days. The 300 mcg/kg/day dose was chosen at 50% of the higher dose to allow evaluation of the dose response. Mosquito survival will be assessed daily up to 28 days in laboratory‐reared Anopheles gambiae s.s. populations fed on patients’ blood taken at days 0, 2 (Cmax), 7 (primary outcome), 10, 14, 21, and 28 after the start of treatment. Safety outcomes include QT‐prolongation and mydriasis. The trial will be conducted in 6 health facilities in western Kenya and requires a sample size of 141 participants (47 per arm). Sub‐studies include: (1) rich pharmacokinetics and (2) direct skin vs membrane feeding assays.Results:Recruitment started July 20th, 2015. Data collection was completed on July 2nd, 2016. Unblinding and analysis will commence once the database has been completed, cleaned and locked.Discussion:High‐dose ivermectin, if found to be safe and well tolerated, might offer a promising new tool for malaria elimination.Trial registration:ClinicalTrials.gov: NCT02511353 (July 15, 2015).
KW - Anopheles gambiae s.s.
KW - clinical trial
KW - dihydroartemisinin-piperaquine
KW - insecticide
KW - ivermectin
KW - Kenya
KW - malaria
KW - pharmacokinetics
KW - Plasmodium falciparum
KW - study protocol
U2 - 10.2196/resprot.6617
DO - 10.2196/resprot.6617
M3 - Article
SN - 1929-0748
VL - 5
SP - e213
JO - JMIR Research Protocols
JF - JMIR Research Protocols
IS - 4
M1 - e213
ER -
