Recent publications by Researchers affiliated with the Centre for Tropical Medicine and Global Health
Multiple insecticide resistance in Anopheles funestus from Mopeia, Central Mozambique
Kiuru C. et al, (2025), Malaria Journal, 24
Through the eyes of the participant: using photovoice to understand the experiences and effects of ivermectin MDA in the context of the BOHEMIA clinical trial in Kwale, Kenya
Onyango T. et al, (2025), Malaria Journal, 24
Beyond mosquitoes and malaria—ivermectin in Africa
Hammann F. and Maia MF., (2025), The Lancet Infectious Diseases
Ivermectin for the Control and Elimination of Malaria
Maia M. and Kobylinski K., (2024), Practical Control of Mosquitoes as Disease Vectors, 139 - 165
Mosquitocidal efficacy and pharmacokinetics of single-dose ivermectin versus three-day dose regimen for malaria vector control compared with albendazole and no treatment: An open-label randomized controlled trial
Kamau Y. et al, (2024), International Journal of Infectious Diseases, 148, 107236 - 107236
Molecular xenomonitoring reveals Anopheles funestus and An. rivulorum as the primary vectors of lymphatic filariasis in coastal Kenya
Bartilol B. et al, (2024), Parasites & Vectors, 17
Utility of MALDI-TOF MS for determination of species identity and blood meal sources of primary malaria vectors on the Kenyan coast
Karisa J. et al, (2024), Wellcome Open Research, 8, 151 - 151
Tungiasis among children in Kenya is associated with poor nutrition status, absenteeism, poor school performance and high impact on quality of life
Elson L. et al, (2024), PLOS Neglected Tropical Diseases, 18, e0011800 - e0011800
Ivermectin resistance mechanisms in ectoparasites: a scoping review
Furnival-Adams J. et al, (2024), Parasitology Research, 123
Xenomonitoring of Lymphatic filariasis and risk factors for transmission on the Kenyan coast
Bartilol B. et al, (2024)
Sugar and blood: the nutritional priorities of the dengue vector, Aedes aegypti.
Tenywa FC. et al, (2024), Parasites & vectors, 17
Detection of Anopheles stephensi Mosquitoes by Molecular Surveillance, Kenya.
Ochomo EO. et al, (2023), Emerging infectious diseases, 29, 2498 - 2508
Children with tungiasis in Kenya have poor school performance and quality of life
Elson L. et al, (2023)
A field bioassay for assessing ivermectin bio-efficacy in wild malaria vectors
Ominde KM. et al, (2023), Malaria Journal, 22
National prevalence and risk factors for tungiasis in Kenya
Elson L. et al, (2023), Infectious Diseases of Poverty, 12
Effects of larval exposure to sublethal doses of ivermectin on adult fitness and susceptibility to ivermectin in Anopheles gambiae s.s.
Kiuru C. et al, (2023), Parasites & Vectors, 16
Topical repellents for malaria prevention
Gabaldón Figueira JC. et al, (2023), Cochrane Database of Systematic Reviews, 2023
Molecular surveillance leads to the first detection of Anopheles stephensi in Kenya.
Ochomo EO. et al, (2023)