Charles M Mbogo
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Explore the profile of Charles M Mbogo including associated specialties, affiliations and a list of published articles.
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69
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2469
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Recent Articles
1.
Gichuki P, Kibe L, Mwatele C, Mwangangi J, Mbogo C
Heliyon
. 2023 Oct;
9(10):e20966.
PMID: 37876477
Background: Vector control is an important approach in the control of most parasitic and vector-borne diseases including malaria, and schistosomiasis. Distribution of these two infections often overlaps and in such...
2.
Munywoki D, Kokwaro E, Mwangangi J, Muturi E, Mbogo C
Parasit Vectors
. 2021 Apr;
14(1):207.
PMID: 33879244
Background: The rapid and widespread evolution of insecticide resistance has emerged as one of the major challenges facing malaria control programs in sub-Saharan Africa. Understanding the insecticide resistance status of...
3.
Mutero C, Okoyo C, Girma M, Mwangangi J, Kibe L, Nganga P, et al.
Malar J
. 2020 Nov;
19(1):390.
PMID: 33143707
Background: Malaria prevention in Africa is mainly through the use of long-lasting insecticide treated nets (LLINs). The objective of the study was to assess the effect of supplementing LLINs with...
4.
Karisa J, Muriu S, Omuoyo D, Karia B, Ngari M, Nyamwaya D, et al.
J Med Entomol
. 2020 Jul;
58(1):428-438.
PMID: 32623459
The purpose of this study was to determine the ecology of the common arboviral mosquito vectors in Mombasa, Kilifi and Malindi urban areas of coastal Kenya. Mosquito larvae were collected...
5.
Githinji E, Irungu L, Ndegwa P, Machani M, Amito R, Kemei B, et al.
J Parasitol Res
. 2020 May;
2020:3560310.
PMID: 32411419
Introduction: Knockdown resistance () is strongly linked to pyrethroid insecticide resistance in in Africa, which may have vital significance to the current increased use of pyrethroid-treated bed net programmes. The...
6.
Githinji E, Irungu L, Ndegwa P, Machani M, Amito R, Kemei B, et al.
J Parasitol Res
. 2020 Apr;
2020:9423682.
PMID: 32328298
Introduction: Behavioural resistance to insecticides restrains the efficacy of vector control tools against mosquito-transmitted diseases. The current study is aimed at determining the impact of insecticide resistance on major malaria...
7.
Kibe L, Habluetzel A, Gachigi J, Kamau A, Mbogo C
Malariaworld J
. 2019 Jul;
8:21.
PMID: 31338302
Background: Since 2000, a decrease in malaria burden has been observed in most endemic countries. Declining infection rates and disease burden and reduction in asymptomatic carriers are the outcome of...
8.
Kibe L, Kamau A, Gachigi J, Habluetzel A, Mbogo C
Malariaworld J
. 2019 Jul;
6:9.
PMID: 31293898
Background: About 30 million insecticide treated mosquito nets have been distributed in Kenya since 2001 and ownership is approaching full coverage. As a consequence of this achievement, Kenya is faced...
9.
James S, Collins F, Welkhoff P, Emerson C, Godfray H, Gottlieb M, et al.
Am J Trop Med Hyg
. 2018 Jun;
98(6_Suppl):1-49.
PMID: 29882508
Gene drive technology offers the promise for a high-impact, cost-effective, and durable method to control malaria transmission that would make a significant contribution to elimination. Gene drive systems, such as...
10.
Ondeto B, Nyundo C, Kamau L, Muriu S, Mwangangi J, Njagi K, et al.
Parasit Vectors
. 2017 Sep;
10(1):429.
PMID: 28927428
Background: Insecticide resistance has emerged as one of the major challenges facing National Malaria Control Programmes in Africa. A well-coordinated national database on insecticide resistance (IRBase) can facilitate the development...