Andrew K Githeko
Overview
Explore the profile of Andrew K Githeko including associated specialties, affiliations and a list of published articles.
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Articles
123
Citations
3555
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Recent Articles
1.
Machani M, Onyango S, Nzioki I, Milanoi S, Nattoh G, Githure J, et al.
Malar J
. 2025 Mar;
24(1):85.
PMID: 40089759
Background: Increasing unplanned urbanization in tropical Africa may create new niches for malaria vectors, raising transmission risk, yet control efforts focus on rural ecosystems. Understanding mosquito diversity, ecology and biting...
2.
Onyango S, Machani M, Ochwedo K, Oriango R, Lee M, Kokwaro E, et al.
Sci Rep
. 2025 Feb;
15(1):6550.
PMID: 39994226
Insecticide resistance and outdoor transmission have reduced the effectiveness of existing malaria transmission prevention strategies. As a result, targeted approaches to support continuing malaria control, such as transmission-blocking vaccines, are...
3.
Debrah I, Zhong D, Machani M, Nattoh G, Ochwedo K, Moranga C, et al.
BMC Genomics
. 2025 Jan;
26(1):64.
PMID: 39849377
Background: The resurgence of Anopheles funestus, a dominant vector of human malaria in western Kenya was partly attributed to insecticide resistance. However, evidence on the molecular basis of pyrethroid resistance...
4.
Machani M, Nzioki I, Onyango S, Onyango B, Githure J, Atieli H, et al.
PLoS One
. 2024 Nov;
19(11):e0303921.
PMID: 39536003
Background: The rise of insecticide resistance poses a growing challenge to the effectiveness of vector control tools, particularly in rural areas. However, the urban setting has received comparatively less focus...
5.
Zhou G, Githure J, Lee M, Zhong D, Wang X, Atieli H, et al.
Malar J
. 2024 Mar;
23(1):74.
PMID: 38475793
Background: Understanding of malaria ecology is a prerequisite for designing locally adapted control strategies in resource-limited settings. The aim of this study was to utilize the spatial heterogeneity in malaria...
6.
Debrah I, Zhong D, Machani M, Nattoh G, Ochwedo K, Moranga C, et al.
Res Sq
. 2024 Mar;
PMID: 38464038
Backgrounds: The resurgence of , a dominant vector of human malaria in western Kenya was partly attributed to insecticide resistance. However, evidence on the molecular basis of pyrethroid resistance in...
7.
Zhou G, Lee M, Wang X, Zhong D, Githeko A, Yan G
Am J Trop Med Hyg
. 2024 Feb;
110(3):421-430.
PMID: 38350135
Identification and mapping of larval sources are a prerequisite for effective planning and implementing mosquito larval source management (LSM). Ensemble modeling is increasingly used for prediction modeling, but it lacks...
8.
Nzioki I, Machani M, Onyango S, Kabui K, Githeko A, Ochomo E, et al.
Parasit Vectors
. 2023 Oct;
16(1):376.
PMID: 37864217
Background: Designing, implementing, and upscaling of effective malaria vector control strategies necessitates an understanding of when and where transmission occurs. This study assessed the biting patterns of potentially infectious malaria...
9.
Orondo P, Zhou G, Ochwedo K, Wang X, Ondeto B, Lee M, et al.
Malar J
. 2023 Oct;
22(1):298.
PMID: 37798779
Background: The rise of insecticide resistance against malaria vectors in sub-Saharan Africa has resulted in the need to consider other methods of vector control. The potential use of biological methods,...
10.
Omondi C, Odongo D, Otambo W, Ochwedo K, Otieno A, Lee M, et al.
PLOS Glob Public Health
. 2023 Jul;
3(7):e0001532.
PMID: 37471336
Accurate malaria diagnosis and timely treatment are requirements for effective management of the disease. However, treatment efficacy may be significantly reduced in resource-constrained healthcare facilities with poorly equipped laboratories and...