Your search keyword '"Emmanuel T Simfukwe"' showing total 9 results

1. The mode of action of spatial repellents and their impact on vectorial capacity of Anopheles gambiae sensu stricto.

Author

Sheila B Ogoma, Hassan Ngonyani, Emmanuel T Simfukwe, Antony Mseka, Jason Moore, Marta F Maia, Sarah J Moore, and Lena M Lorenz

Subjects

Medicine, Science

Abstract

Malaria vector control relies on toxicity of insecticides used in long lasting insecticide treated nets and indoor residual spraying. This is despite evidence that sub-lethal insecticides reduce human-vector contact and malaria transmission. The impact of sub-lethal insecticides on host seeking and blood feeding of mosquitoes was measured. Taxis boxes distinguished between repellency and attraction inhibition of mosquitoes by measuring response of mosquitoes towards or away from Transfluthrin coils and humans. Protective effective distance of coils and long-term effects on blood feeding were measured in the semi-field tunnel and in a Peet Grady chamber. Laboratory reared pyrethroid susceptible Anopheles gambiae sensu stricto mosquitoes were used. In the taxis boxes, a higher proportion of mosquitoes (67%-82%) were activated and flew towards the human in the presence of Transfluthrin coils. Coils did not hinder attraction of mosquitoes to the human. In the semi-field Tunnel, coils placed 0.3 m from the human reduced feeding by 86% (95% CI [0.66; 0.95]) when used as a "bubble" compared to 65% (95% CI [0.51; 0.76]) when used as a "point source". Mosquitoes exposed to coils inside a Peet Grady chamber were delayed from feeding normally for 12 hours but there was no effect on free flying and caged mosquitoes exposed in the semi-field tunnel. These findings indicate that airborne pyrethroids minimize human-vector contact through reduced and delayed blood feeding. This information is useful for the development of target product profiles of spatial repellent products that can be used to complement mainstream malaria vector control tools.

Published

2014

2. The mode of action of spatial repellents and their impact on vectorial capacity of Anopheles gambiae sensu stricto

Author

Marta F. Maia, Sheila B. Ogoma, Hassan Ngonyani, Antony Mseka, Jason Moore, Lena M. Lorenz, Sarah J. Moore, and Emmanuel T. Simfukwe

Subjects

Insecticides, Mosquito Control, Arthropoda, Epidemiology, Anopheles gambiae, Science, Indoor residual spraying, Disease Vectors, Mosquitoes, Toxicology, chemistry.chemical_compound, Anopheles, parasitic diseases, Medicine and Health Sciences, medicine, Animals, Humans, Multidisciplinary, Pyrethroid, biology, fungi, Organisms, Arthropod Vectors, Biology and Life Sciences, medicine.disease, biology.organism_classification, Invertebrates, Attraction, Vector control, Insect Vectors, Malaria, Insects, Mosquito control, Transfluthrin, chemistry, Medicine, Female, Research Article

Abstract

Malaria vector control relies on toxicity of insecticides used in long lasting insecticide treated nets and indoor residual spraying. This is despite evidence that sub-lethal insecticides reduce human-vector contact and malaria transmission. The impact of sub-lethal insecticides on host seeking and blood feeding of mosquitoes was measured. Taxis boxes distinguished between repellency and attraction inhibition of mosquitoes by measuring response of mosquitoes towards or away from Transfluthrin coils and humans. Protective effective distance of coils and long-term effects on blood feeding were measured in the semi-field tunnel and in a Peet Grady chamber. Laboratory reared pyrethroid susceptible Anopheles gambiae sensu stricto mosquitoes were used. In the taxis boxes, a higher proportion of mosquitoes (67%-82%) were activated and flew towards the human in the presence of Transfluthrin coils. Coils did not hinder attraction of mosquitoes to the human. In the semi-field Tunnel, coils placed 0.3 m from the human reduced feeding by 86% (95% CI [0.66; 0.95]) when used as a "bubble" compared to 65% (95% CI [0.51; 0.76]) when used as a "point source". Mosquitoes exposed to coils inside a Peet Grady chamber were delayed from feeding normally for 12 hours but there was no effect on free flying and caged mosquitoes exposed in the semi-field tunnel. These findings indicate that airborne pyrethroids minimize human-vector contact through reduced and delayed blood feeding. This information is useful for the development of target product profiles of spatial repellent products that can be used to complement mainstream malaria vector control tools.

Published

2014

3. An experimental hut study to quantify the effect of DDT and airborne pyrethroids on entomological parameters of malaria transmission

Author

Robert Sangusangu, Deogratius Roman, Jason Moore, Anton Mseka, Marta F. Maia, Hassan Ngonyani, Mohammed Kitumbukile, Masoudi Kilalangongono, Emmanuel T. Simfukwe, Katharina Kreppel, Sarah J. Moore, Edgar Mbeyela, Lena M. Lorenz, and Sheila B. Ogoma

Subjects

Cyclopropanes, Insecticides, Mosquito Control, Anopheles gambiae, Biology, Tanzania, DDT, Toxicology, chemistry.chemical_compound, Anopheles, parasitic diseases, medicine, Animals, Behavior, Animal, Research, fungi, Feeding Behavior, medicine.disease, Metofluthrin, Fecundity, biology.organism_classification, Vector control, Malaria, Fluorobenzenes, Mosquito control, Infectious Diseases, chemistry, Transfluthrin, Vector (epidemiology), Parasitology

Abstract

Background\ud Current malaria vector control programmes rely on insecticides with rapid contact toxicity. However, spatial repellents can also be applied to reduce man-vector contact, which might ultimately impact malaria transmission. The aim of this study was to quantify effects of airborne pyrethroids from coils and DDT used an indoor residual spray (IRS) on entomological parameters that influence malaria transmission.\ud \ud Methods\ud The effect of Transfluthrin and Metofluthrin coils compared to DDT on house entry, exit and indoor feeding behaviour of Anopheles gambiae sensu lato were measured in experimental huts in the field and in the semi-field. Outcomes were deterrence - reduction in house entry of mosquitoes; irritancy or excito-repellency – induced premature exit of mosquitoes; blood feeding inhibition and effect on mosquito fecundity.\ud \ud Results\ud Transfluthrin coils, Metofluthrin coils and DDT reduced human vector contact through deterrence by 38%, 30% and 8%, respectively and induced half of the mosquitoes to leave huts before feeding (56%, 55% and 48%, respectively). Almost all mosquitoes inside huts with Metofluthrin and Transfluthrin coils and more than three quarters of mosquitoes in the DDT hut did not feed, almost none laid eggs and 67%, 72% and 70% of all mosquitoes collected from Transfluthrin, Metofluthrin and DDT huts, respectively had died after 24 hours.\ud \ud Conclusion\ud This study highlights that airborne pyrethroids and DDT affect a range of anopheline mosquito behaviours that are important parameters in malaria transmission, namely deterrence, irritancy/excito-repellency and blood-feeding inhibition. These effects are in addition to significant toxicity and reduced mosquito fecundity that affect mosquito densities and, therefore, provide community protection against diseases for both users and non-users. Airborne insecticides and freshly applied DDT had similar effects on deterrence, irritancy and feeding inhibition. Therefore, it is suggested that airborne pyrethroids, if delivered in suitable formats, may complement existing mainstream vector control tools.

Published

2014

4. Use of a semi-field system to evaluate the efficacy of topical repellents under user conditions provides a disease exposure free technique comparable with field data

Author

Hassan Ngonyani, Sarah J. Moore, Onyango Sangoro, Marta F. Maia, Emmanuel T. Simfukwe, Daniel Lugiko, Edgar Mbeyela, Japhet Kihonda, and Dickson Lweitojera

Subjects

Veterinary medicine, Disease exposure, Adolescent, Efficacy, Administration, Topical, Semi-field system, Biology, Placebo, Toxicology, DEET, Placebos, chemistry.chemical_compound, Young Adult, Anopheles, medicine, Anopheles arabiensis, Repellent, Animals, Humans, Volunteer, N, N-diethyl-3-methylbenzamide (DEET), fungi, Methodology, medicine.disease, Vector control, Infectious Diseases, Treatment Outcome, chemistry, Lotion, Relative risk, Insect Repellents, Parasitology, Malaria

Abstract

Background: Before topical repellents can be employed as interventions against arthropod bites, their efficacy must be established. Currently, laboratory or field tests, using human volunteers, are the main methods used for assessing the efficacy of topical repellents. However, laboratory tests are not representative of real life conditions under which repellents are used and field-testing potentially exposes human volunteers to disease. There is, therefore, a need to develop methods to test efficacy of repellents under real life conditions while minimizing volunteer exposure to disease. Methods: A lotion-based, 15%N, N-Diethyl-3-methylbenzamide (DEET) repellent and 15% DEET in ethanol were compared to a placebo lotion in a 200 sq m (10 m×20 m) semi-field system (SFS) against laboratory-reared Anopheles arabiensis mosquitoes and in full field settings against wild malaria vectors and nuisance-biting mosquitoes. The average percentage protection against biting mosquitoes over four hours in the SFS and field setting was determined. A Poisson regression model was then used to determine relative risk of being bitten when wearing either of these repellents compared to the placebo. Results: Average percentage protection of the lotion-based 15% DEET repellent after four hours of mosquito collection was 82.13% (95% CI 75.94-88.82) in the semi-field experiments and 85.10% (95% CI 78.97-91.70) in the field experiments. Average percentage protection of 15% DEET in ethanol after four hours was 71.29% (CI 61.77-82.28) in the semi-field system and 88.24% (84.45-92.20) in the field. Conclusions: Semi-field evaluation results were comparable to full-field evaluations, indicating that such systems could be satisfactorily used in measuring efficacy of topically applied mosquito repellents, thereby avoiding risks of exposure to mosquito-borne pathogens, associated with field testing.

Published

2013

5. Taxis assays measure directional movement of mosquitoes to olfactory cues

Author

Elizabeth L. Turner, Fredros O. Okumu, Joseph Ligamba, Lena M. Lorenz, Aidan Keane, Antony Mseka, Gerry F. Killeen, Wolfgang R Mukabana, Jason Moore, Emmanuel T. Simfukwe, Cristina J Munk, Lubandwa R Biswaro, Laura Seeholzer, and Sarah J. Moore

Subjects

Taxis box, Anopheles gambiae, Drug Evaluation, Preclinical, Taxis, Olfactory cues, Zoology, Olfaction, wc_765, Biology, wa_110, Pheromones, Disease control, qx_600, Anopheles, parasitic diseases, Animals, Malaria vector, Arthropods, Behavior, Animal, Ecology, Research, Directional movement, fungi, biology.organism_classification, Attraction, Vector control, wc_750, Malaria, Smell, Infectious Diseases, qx_510, Sex pheromone, Odour, Female, Parasitology, qx_515, Entomology, Locomotion, Field assay

Abstract

Background\ud \ud Malaria control methods targeting indoor-biting mosquitoes have limited impact on vectors that feed and rest outdoors. Exploiting mosquito olfactory behaviour to reduce blood-feeding outdoors might be a sustainable approach to complement existing control strategies. Methodologies that can objectively quantify responses to odour under realistic field conditions and allow high-throughput screening of many compounds are required for development of effective odour-based control strategies.\ud \ud Methods\ud \ud The olfactory responses of laboratory-reared Anopheles gambiae in a semi-field tunnel and A. arabiensis females in an outdoor field setting to three stimuli, namely whole human odour, a synthetic blend of carboxylic acids plus carbon dioxide and CO2 alone at four distances up to 100 metres were measured in two experiments using three-chambered taxis boxes that allow mosquito responses to natural or experimentally-introduced odour cues to be quantified.\ud \ud Results\ud \ud Taxis box assays could detect both activation of flight and directional mosquito movement. Significantly more (6-18%) A. arabiensis mosquitoes were attracted to natural human odour in the field up to 30 metres compared to controls, and blended synthetic human odours attracted 20% more A. gambiae in the semi-field tunnel up to 70 metres. Whereas CO2 elicited no response in A. arabiensis in the open field, it was attractive to A. gambiae up to 50 metres (65% attraction compared to 36% in controls).\ud \ud Conclusions\ud \ud We have developed a simple reproducible system to allow for the comparison of compounds that are active over medium- to long-ranges in semi-field or full-field environments. Knowing the natural range of attraction of anopheline mosquitoes to potential blood sources has substantial implications for the design of malaria control strategies, and adds to the understanding of olfactory behaviour in mosquitoes. This experimental strategy could also be extended from malaria vectors to other motile arthropods of medical, veterinary and agricultural significance.

Published

2013

6. Do topical repellents divert mosquitoes within a community? Health equity implications of topical repellents as a mosquito bite prevention tool

Author

Marta F. Maia, Sarah J. Moore, Max Thele, Emmanuel T. Simfukwe, Elizabeth L. Turner, and Sangoro Peter Onyango

Subjects

Veterinary medicine, animal structures, Science, DEET, Mosquito bite, Biology, Rate ratio, Insect bites and stings, Tanzania, chemistry.chemical_compound, Environmental health, parasitic diseases, medicine, Animals, Humans, Population Density, Multidisciplinary, fungi, Insect Bites and Stings, medicine.disease, biology.organism_classification, Confidence interval, Vector control, Culicidae, chemistry, Insect Repellents, Community health, Medicine, Regression Analysis, Malaria, Research Article

Abstract

ObjectivesRepellents do not kill mosquitoes--they simply reduce human-vector contact. Thus it is possible that individuals who do not use repellents but dwell close to repellent users experience more bites than otherwise. The objective of this study was to measure if diversion occurs from households that use repellents to those that do not use repellents.MethodsThe study was performed in three Tanzanian villages using 15%-DEET and placebo lotions. All households were given LLINs. Three coverage scenarios were investigated: complete coverage (all households were given 15%-DEET), incomplete coverage (80% of households were given 15%-DEET and 20% placebo) and no coverage (all households were given placebo). A crossover study design was used and coverage scenarios were rotated weekly over a period of ten weeks. The placebo lotion was randomly allocated to households in the incomplete coverage scenario. The level of compliance was reported to be close to 100%. Mosquito densities were measured through aspiration of resting mosquitoes. Data were analysed using negative binomial regression models.FindingsRepellent-users had consistently fewer mosquitoes in their dwellings. In villages where everybody had been given 15%-DEET, resting mosquito densities were fewer than half that of households in the no coverage scenario (Incidence Rate Ratio [IRR]=0.39 (95% confidence interval [CI]: 0.25-0.60); pConclusionsThere is evidence that high coverage of repellent use could significantly reduce man-vector contact but with incomplete coverage evidence suggests that mosquitoes are diverted from households that use repellent to those that do not. Therefore, if repellents are to be considered for vector control, strategies to maximise coverage are required.

Published

2013

7. Spatial repellency of transfluthrin-treated hessian strips against laboratory-reared Anopheles arabiensis mosquitoes in a semi-field tunnel cage

Author

Gerry F. Killeen, Hassan Ngonyani, Emmanuel T. Simfukwe, Jason Moore, Sheila B. Ogoma, and Anthony Mseka

Subjects

Cyclopropanes, Male, 0106 biological sciences, 030231 tropical medicine, Short Report, Indoor residual spraying, Disease Vectors, Biology, High coverage, 01 natural sciences, wa_110, lcsh:Infectious and parasitic diseases, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, qx_600, Anopheles, parasitic diseases, Anopheles arabiensis, Animals, Humans, lcsh:RC109-216, Insecticide-Treated Bednets, Malaria vector, Outdoor mosquito control, Spatial repellency, fungi, wa_240, biology.organism_classification, Vector control, 3. Good health, Fluorobenzenes, 010602 entomology, Human Experimentation, Infectious Diseases, Hessian strips, qx_650, Transfluthrin, chemistry, qx_510, Insect Repellents, Parasitology, qx_515, Cage

Abstract

Background Vapour phase spatial repellents deter mosquitoes from attacking one or more humans in a protected space. Simulation models indicate that high coverage of spatial repellents can enhance the impact of long - lasting insecticide nets (LLINs) and indoor residual spraying (IRS) where mosquito vectors commonly bite humans outdoors. Here we report a preliminary evaluation of an effective, user-friendly prototype product for delivering spatial repellents to protect against malaria vector mosquitoes. Findings Protective efficacy of a 4.0 × 0.3 m strip of hessian sacking treated with 10 ml of transfluthrin was evaluated in a 60 m × 2 m ×2.5 m netting tunnel with malaria-free insectary-reared Anopheles arabiensis Patton mosquitoes. Personal protection, in terms of proportional reduction of exposure to bites, was measured by comparing human landing catches of volunteers with treated and untreated strips. A freshly treated hessian strip reduced mosquito attack rate on human volunteers by > 99% and consistently conferred > 90% protective efficacy for a period of 6 months. Over the entire study period, only 22 out of 1400 released mosquitoes bit volunteers using the treated sacking strip while 894 out of 1400 mosquitoes released into cages containing volunteers using an untreated strip fed upon them. Conclusion Locally available natural fibers may be promising absorbent substrates for delivering spatial repellents, such as transfluthrin, to protect against mosquitoes in tropical settings. However, these observations relate to a single prototype specimen of this particular device, therefore, much more detailed, well replicated studies are essential to establish long-term efficacy, effectiveness, practicability and affordability.

Published

2012

8. Comparison of the CDC Backpack aspirator and the Prokopack aspirator for sampling indoor- and outdoor-resting mosquitoes in southern Tanzania

Author

Sarah J. Moore, Emmanuel T. Simfukwe, Joseph Mgando, Marta F. Maia, Alex N John, and Ailie Robinson

Subjects

Family Characteristics, medicine.medical_specialty, Rural tanzania, Research, Family characteristics, Sampling (statistics), Aspirator, Biology, Tanzania, Vector control, lcsh:Infectious and parasitic diseases, Self assembled, Surgery, Backpack, Toxicology, Culicidae, Infectious Diseases, Vacuum Curettage, medicine, Animals, Humans, lcsh:RC109-216, Parasitology, Entomology

Abstract

Background Resting mosquitoes can easily be collected using an aspirating device. The most commonly used mechanical aspirator is the CDC Backpack aspirator. Recently, a simple, and low-cost aspirator called the Prokopack has been devised and proved to have comparable performance. The following study evaluates the Prokopack aspirator compared to the CDC backpack aspirator when sampling resting mosquitoes in rural Tanzania. Methods Mosquitoes were sampled in- and outdoors of 48 typical rural African households using both aspirators. The aspirators were rotated between collectors and households in a randomized, Latin Square design. Outdoor collections were performed using artificial resting places (large barrel and car tyre), underneath the outdoor kitchen (kibanda) roof and from a drop-net. Data were analysed with generalized linear models. Results The number of mosquitoes collected using the CDC Backpack and the Prokopack aspirator were not significantly different both in- and outdoors (indoors p = 0.735; large barrel p = 0.867; car tyre p = 0.418; kibanda p = 0.519). The Prokopack was superior for sampling of drop-nets due to its smaller size. The number mosquitoes collected per technician was more consistent when using the Prokopack aspirator. The Prokopack was more user-friendly: technicians preferred using the it over the CDC backpack aspirator as it weighs considerably less, retains its charge for longer and is easier to manoeuvre. Conclusions The Prokopack proved in the field to be more advantageous than the CDC Backpack aspirator. It can be self assembled using simple, low-cost and easily attainable materials. This device is a useful tool for researchers or vector-control surveillance programs operating in rural Africa, as it is far simpler and quicker than traditional means of sampling resting mosquitoes. Further longitudinal evaluations of the Prokopack aspirator versus the gold standard pyrethrum spray catch for indoor resting catches are recommended.

Published

2011

9. Tools for delivering entomopathogenic fungi to malaria mosquitoes: effects of delivery surfaces on fungal efficacy and persistence

Author

Emmanuel T. Simfukwe, Ladslaus L. Mnyone, Dickson W. Lwetoijera, Monica W. Mpingwa, Tanya L. Russell, Matthew J. Kirby, Willem Takken, Bart G. J. Knols, Faculteit der Geneeskunde, and Infectious diseases

Subjects

Veterinary medicine, Metarhizium, metarhizium-anisopliae, lcsh:Arctic medicine. Tropical medicine, Mosquito Control, lcsh:RC955-962, Anopheles gambiae, Indoor residual spraying, Metarhizium anisopliae, Beauveria bassiana, susceptibility, Microbiology, lcsh:Infectious and parasitic diseases, pyrethroid resistance, vectors, Anopheles, parasitic diseases, Animals, lcsh:RC109-216, Beauveria, Laboratory of Entomology, Diagnosis & treatment, biology, anopheles-gambiae, Research, fungi, trials, biology.organism_classification, PE&RC, Laboratorium voor Entomologie, Survival Analysis, Vector control, Mosquito control, Infectious Diseases, beauveria-bassiana, Entomopathogenic fungus, Parasitology, nets

Abstract

Background Entomopathogenic fungi infection on malaria vectors increases daily mortality rates and thus represents a control measure that could be used in integrated programmes alongside insecticide-treated bed nets (ITNs) and indoor residual spraying (IRS). Before entomopathogenic fungi can be integrated into control programmes, an effective delivery system must be developed. Methods The efficacy of Metarhizium anisopliae ICIPE-30 and Beauveria bassiana I93-825 (IMI 391510) (2 × 1010 conidia m-2) applied on mud panels (simulating walls of traditional Tanzanian houses), black cotton cloth and polyester netting was evaluated against adult Anopheles gambiae sensu stricto. Mosquitoes were exposed to the treated surfaces 2, 14 and 28 d after conidia were applied. Survival of mosquitoes was monitored daily. Results All fungal treatments caused a significantly increased mortality in the exposed mosquitoes, descending with time since fungal application. Mosquitoes exposed to M. anisopliae conidia on mud panels had a greater daily risk of dying compared to those exposed to conidia on either netting or cotton cloth (p < 0.001). Mosquitoes exposed to B. bassiana conidia on mud panels or cotton cloth had similar daily risk of death (p = 0.14), and a higher risk than those exposed to treated polyester netting (p < 0.001). Residual activity of fungi declined over time; however, conidia remained pathogenic at 28 d post application, and were able to infect and kill 73 - 82% of mosquitoes within 14 d. Conclusion Both fungal isolates reduced mosquito survival on immediate exposure and up to 28 d after application. Conidia were more effective when applied on mud panels and cotton cloth compared with polyester netting. Cotton cloth and mud, therefore, represent potential substrates for delivering fungi to mosquitoes in the field.