Paul N Ndegwa
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Explore the profile of Paul N Ndegwa including associated specialties, affiliations and a list of published articles.
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11
Citations
194
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Recent Articles
1.
Makwatta J, Ndegwa P, Oyieke F, Ahuya P, Masiga D, Getahun M
mSphere
. 2024 Oct;
9(11):e0040524.
PMID: 39470205
Importance: Ticks are obligatory hematophagous arachnids, serving as vectors for a wide array of pathogens that can be transmitted to animals and humans. The ability of ticks to acquire and...
2.
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...
3.
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...
4.
Gichuhi J, Ndegwa P, Mugo H, Guandaru E, Babin R
J Econ Entomol
. 2020 Jan;
110(3):1120-1126.
PMID: 31930407
Although the African coffee white stem borer, Monochamus leuconotus (Pascoe) (Coleoptera: Cerambycidae), is a major insect pest of coffee in Africa, there is much to learn about its biology. The...
5.
Kwadha C, Ongamo G, Ndegwa P, Raina S, Fombong A
Insects
. 2017 Jun;
8(2).
PMID: 28598383
The greater wax moth, Linnaeus is a ubiquitous pest of the honeybee, Linnaeus, and Fabricius The greater wax moth larvae burrow into the edge of unsealed cells with pollen, bee...
6.
Bobadoye B, Ndegwa P, Irungu L, Fombong A
Int J Insect Sci
. 2017 Jun;
9:1179543317709788.
PMID: 28579849
Habitat degradation has over time formed synergy with other factors to contribute to dwindling populations of both fauna and flora by altering their habitats. The disturbance of natural habitats affects...
7.
Ngowi B, Tonnang H, Mwangi E, Johansson T, Ambale J, Ndegwa P, et al.
PLoS One
. 2017 Mar;
12(3):e0173590.
PMID: 28301564
There is a scarcity of laboratory and field-based results showing the movement of the diamondback moth (DBM) Plutella xylostella (L.) across a spatial scale. We studied the population growth of...
8.
Fombong A, Teal P, Arbogast R, Ndegwa P, Irungu L, Torto B
J Chem Ecol
. 2012 Nov;
38(12):1463-73.
PMID: 23149473
Oplostomus haroldi Witte belongs to a unique genus of afro-tropical scarabs that have associations with honey bee colonies, from which they derive vital nutrients. Although the attributes of the honey...
9.
Ngumbi P, Irungu L, Ndegwa P, Maniania N
J Vector Borne Dis
. 2011 Mar;
48(1):37-40.
PMID: 21406735
Background & Objectives: Biological control of sandflies using entomopathogenic fungi is a possible alternative to the expensive synthetic chemical control. It is potentially sustainable, less hazardous, and relatively inexpensive and...
10.
Mathenge E, Misiani G, Oulo D, Irungu L, Ndegwa P, Smith T, et al.
Malar J
. 2005 Jan;
4:7.
PMID: 15667666
Background: Mosquitoes sampling is an important component in malaria control. However, most of the methods used have several shortcomings and hence there is a need to develop and calibrate new...