Your search keyword '"Alex J. Limwagu"' showing total 29 results

1. Field surveys in rural Tanzania reveal key opportunities for targeted larval source management and species sanitation to control malaria in areas dominated by Anopheles funestus

Author

Betwel J. Msugupakulya, Nicolaus S. Mhumbira, Dawson T. Mziray, Masoud Kilalangongono, Mohamed Jumanne, Halfan S. Ngowo, Najat F. Kahamba, Alex J. Limwagu, Meleji L. Mollel, Prashanth Selvaraj, Anne L. Wilson, and Fredros O. Okumu

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Larval source management (LSM) is re-emerging as a critical malaria intervention to address challenges associated with core vector control tools, such as insecticide-treated nets (ITNs), and to accelerate progress towards elimination. Presently, LSM is not widely used in rural settings and is instead more commonly applied in urban and arid settings. A systematic entomological assessment was conducted in rural communities of southeastern Tanzania, where insecticide-treated nets (ITNs) are widely used, to explore opportunities for deploying LSM to improve malaria control. Methods Aquatic habitat surveys were conducted in 2022 and 2023 to understand habitat usage by different mosquito vectors, covering five villages during the rainy season and seven villages during the dry season. Additionally, samples of adult mosquitoes were collected to assess the role of various Anopheles species in malaria transmission in the area, and to explore opportunities for species sanitation using targeted LSM. Results Adult mosquito surveys showed that in this area, the total entomological inoculation rates (EIR) for indoor collections were 20.1 and 6.5 infectious bites per person per year for outdoors. Anopheles funestus and Anopheles arabiensis were the only Anopheles vectors identified. Anopheles funestus was responsible for over 97.6% of the malaria transmission indoors and 95.4% outdoors. The concurrent larval surveys found that habitats with late instar An. arabiensis and An. funestus comprised only a small subset of 11.2%–16.5% of all water bodies in the rainy season, and 9.7%–15.2% in the dry season. In terms of size, these habitats covered 66.4%–68.2% of the total habitat areas in the wet season, reducing to 33.9%–40.6% in the dry season. From the rainy season to the dry season, the surface area of habitats occupied by An. arabiensis and An. funestus decreased by 92.0% to 97.5%, while the number of habitats occupied by An. arabiensis and An. funestus decreased by 38.0% to 57.3%. Anopheles funestus preferred large, permanent habitats with clear water and vegetation year-round, while An. arabiensis showed contrasting seasonal preferences, favouring sunlit still waters in the rainy season and larger, opaque habitats in the dry season. Conclusion These findings suggest that An. funestus, which is the dominant malaria vector in the area, mediating over 95% of malaria transmission, preferentially occupies only a small subset of uniquely identifiable aquatic habitats in both wet and dry seasons. This presents an opportunity to expand LSM in rural settings by carefully targeting An. funestus habitats, which might be effective and logistically feasible as a complementary approach alongside existing interventions. Further research should assess the impact of targeted LSM for species sanitation compared to blanket LSM.

Published

2024

2. Empowering rural communities for effective larval source management: A small-scale field evaluation of a community-led larviciding approach to control malaria in south-eastern Tanzania

Author

Salum A. Mapua, Alex J. Limwagu, Dmitry Kishkinev, Khamis Kifungo, Ismail H. Nambunga, Samuel Mziray, Gwakisa John, Wahida Mtiro, Kusirye Ukio, Javier Lezaun, Frederic Tripet, and Fredros O. Okumu

Subjects

Malaria control, Larviciding, Larval source management, Biolarvicides, Community engagement, Tanzania, Infectious and parasitic diseases, RC109-216

Abstract

Introduction: Larval source management, particularly larviciding, is mainly implemented in urban settings to control malaria and other mosquito-borne diseases. In Tanzania, the government has recently expanded larviciding to rural settings across the country, but implementation faces multiple challenges, notably inadequate resources and limited know-how by technical staff. This study evaluated the potential of training community members to identify, characterize and target larval habitats of Anopheles funestus mosquitoes, the dominant vector of malaria transmission in south-eastern Tanzania. Methods: A mixed-methods study was used. First, interviewer-administered questionnaires were employed to assess knowledge, awareness, and perceptions of community members towards larviciding (N = 300). Secondly community-based volunteers were trained to identify and characterize aquatic habitats of dominant malaria vector species, after which they treated the most productive habitats with a locally-manufactured formulation of the biolarvicide, Bacillus thuringiensis var. israelensis. Longitudinal surveys of mosquito adults and larvae were used to assess impacts of the community-led larviciding programme in two villages in rural south-eastern Tanzania. Results: At the beginning of the program, the majority of village residents were unaware of larviciding as a potential malaria prevention method, and about 20 % thought that larvicides could be harmful to the environment and other insects. The trained community volunteers identified and characterized 360 aquatic habitats, of which 45.6 % had Anopheles funestus, the dominant malaria vector in the area. The preferred larval habitats for An. funestus were deep and had either slow- or fast-moving waters. Application of biolarvicides reduced the abundance of adult An. funestus and Culex spp. species inside human houses in the same villages, by 46.3 % and 35.4 % respectively. Abundance of late-stage instar larvae of the same taxa was also reduced by 74 % and 42 %, respectively. Conclusion: This study demonstrates that training community members to identify, characterize, and target larval habitats of the dominant malaria vectors can be effective for larval source management in rural Tanzania. Community-led larviciding reduced the densities of adult and late-stage instar larvae of An. funestus and Culex spp. inside houses, suggesting that this approach may have potential for malaria control in rural settings. However, efforts are still needed to increase awareness of larviciding in the relevant communities.

Published

2024

3. Evaluation of the DN-Mini (miniaturized double net) trap for sampling host-seeking Anopheles mosquitoes in malaria-endemic villages of southern Tanzania

Author

Alex J. Limwagu, Betwel J. Msugupakulya, Masoud M. Kilalangongono, Yohana A. Mwalugelo, Fredros O. Okumu, Issa N. Lyimo, and Billy E. Ngasala

Subjects

Medicine, Science

Published

2024

4. A statistical calibration tool for methods used to sample outdoor-biting mosquitoes

Author

Halfan S. Ngowo, Alex J. Limwagu, Heather M. Ferguson, Jason Matthiopoulos, Fredros O. Okumu, and Luca Nelli

Subjects

Outdoor, Sampling methods, Calibration tool, Mosquitoes, Density dependence, Biting rates, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Improved methods for sampling outdoor-biting mosquitoes are urgently needed to improve surveillance of vector-borne diseases. Such tools could potentially replace the human landing catch (HLC), which, despite being the most direct option for measuring human exposures, raises significant ethical and logistical concerns. Several alternatives are under development, but detailed evaluation still requires common frameworks for calibration relative to HLC. The aim of this study was to develop and validate a statistical framework for predicting human-biting rates from different exposure-free alternatives. Methods We obtained mosquito abundance data (Anopheles arabiensis, Anopheles funestus and Culex spp.) from a year-long Tanzanian study comparing six outdoor traps [Suna Trap (SUN), BG Sentinel (BGS), M-Trap (MTR), M-Trap + CDC (MTRC), Ifakara Tent Trap-C (ITT-C) and Mosquito Magnet-X Trap (MMX)] and HLC. Generalised linear models were developed within a Bayesian framework to investigate associations between the traps and HLC, taking intra- and inter-specific density dependence into account. The best model was used to create a calibration tool for predicting HLC-equivalents. Results For An. arabiensis, SUN catches had the strongest correlation with HLC (R 2 = 19.4), followed by BGS (R 2 = 17.2) and MTRC (R 2 = 13.1) catches. The least correlated catch was MMX (R 2 = 2.5). For An. funestus, BGS had the strongest correlation with the HLC (R 2 = 53.4), followed by MTRC (R 2 = 37.4) and MTR (R 2 = 37.4). For Culex mosquitoes, the traps most highly correlated with the HLC were MTR (R 2 = 45.4) and MTRC (R 2 = 44.2). Density dependence, both between and within species, influenced the performance of only BGS traps. An interactive Shiny App calibration tool was developed for this and similar applications. Conclusion We successfully developed a calibration tool to assess the performance of different traps for assessing outdoor-biting risk, and established a valuable framework for estimating human exposures based on the trap catches. The performance of candidate traps varied between mosquito taxa; thus, there was no single optimum. Although all the traps tested underestimated the HLC-derived exposures, it was possible to mathematically define their representativeness of the true biting risk, with or without density dependence. The results of this study emphasise the need to aim for a consistent and representative sampling approach, as opposed to simply seeking traps that catch the most mosquitoes. Graphical Abstract

Published

2022

5. Habitat characteristics and insecticide susceptibility of Aedes aegypti in the Ifakara area, south-eastern Tanzania

Author

Najat F. Kahamba, Alex J. Limwagu, Salum A. Mapua, Betwel J. Msugupakulya, Dickson S. Msaky, Emmanuel W. Kaindoa, Halfan S. Ngowo, and Fredros O. Okumu

Subjects

Aedes aegypti, Habitat characteristics, Insecticide susceptibility, Ifakara Health Institute, Dengue, Chikungunya, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Aedes-borne diseases such as dengue and chikungunya constitute constant threats globally. In Tanzania, these diseases are transmitted by Aedes aegypti, which is widely distributed in urban areas, but whose ecology remains poorly understood in small towns and rural settings. Methods A survey of Ae. aegypti aquatic habitats was conducted in and around Ifakara, a fast-growing town in south-eastern Tanzania. The study area was divided into 200 × 200 m search grids, and habitats containing immature Aedes were characterized. Field-collected Ae. aegypti were tested for susceptibility to common public health insecticides (deltamethrin, permethrin, bendiocarb and pirimiphos-methyl) in the dry and rainy seasons. Results Of 1515 and 1933 aquatic habitats examined in the dry and rainy seasons, 286 and 283 contained Aedes immatures, respectively (container index, CI: 18.9–14.6%). In the 2315 and 2832 houses visited in the dry and rainy seasons, 114 and 186 houses had at least one Aedes-positive habitat, respectively (house index, HI: 4.9–6.6%). The main habitat types included: (i) used vehicle tires and discarded containers; (ii) flowerpots and clay pots; and (iii) holes made by residents on trunks of coconut trees when harvesting the coconuts. Used tires had highest overall abundance of Ae. aegypti immatures, while coconut tree-holes had highest densities per habitat. Aedes aegypti adults were susceptible to all tested insecticides in both seasons, except bendiocarb, against which resistance was observed in the rainy season. Conclusions To our knowledge, this is the first study on ecology and insecticide susceptibility of Ae. aegypti in Ifakara area, and will provide a basis for future studies on its pathogen transmission activities and control. The high infestation levels observed indicate significant risk of Aedes-borne diseases, requiring immediate action to prevent potential outbreaks in the area. While used tires, discarded containers and flowerpots are key habitats for Ae. aegypti, this study also identified coconut harvesting as an important risk factor, and the associated tree-holes as potential targets for Aedes control. Since Ae. aegypti mosquitoes in the area are still susceptible to most insecticides, effective control could be achieved by combining environmental management, preferably involving communities, habitat removal and insecticide spraying.

Published

2020

6. Protecting migratory farmers in rural Tanzania using eave ribbons treated with the spatial mosquito repellent, transfluthrin

Author

Johnson K. Swai, Arnold S. Mmbando, Halfan S. Ngowo, Olukayode G. Odufuwa, Marceline F. Finda, Winifrida Mponzi, Anna P. Nyoni, Deogratius Kazimbaya, Alex J. Limwagu, Rukiyah M. Njalambaha, Saidi Abbasi, Sarah J. Moore, Joanna Schellenberg, Lena M. Lorenz, and Fredros O. Okumu

Subjects

Migratory rice farmers, Eave ribbons, Transfluthrin, Spatial repellent, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Many subsistence farmers in rural southeastern Tanzania regularly relocate to distant farms in river valleys to tend to crops for several weeks or months each year. While there, they live in makeshift semi-open structures, usually far from organized health systems and where insecticide-treated nets (ITNs) do not provide adequate protection. This study evaluated the potential of a recently developed technology, eave ribbons treated with the spatial repellent transfluthrin, for protecting migratory rice farmers in rural southeastern Tanzania against indoor-biting and outdoor-biting mosquitoes. Methods In the first test, eave ribbons (0.1 m × 24 m each) treated with 1.5% transfluthrin solution were compared to untreated ribbons in 24 randomly selected huts in three migratory communities over 48 nights. Host-seeking mosquitoes indoors and outdoors were monitored nightly (18.00–07.00 h) using CDC light traps and CO2-baited BG malaria traps, respectively. The second test compared efficacies of eave ribbons treated with 1.5% or 2.5% transfluthrin in 12 huts over 21 nights. Finally, 286 farmers were interviewed to assess perceptions about eave ribbons, and their willingness to pay for them. Results In the two experiments, when treated eave ribbons were applied, the reduction in indoor densities ranged from 56 to 77% for Anopheles arabiensis, 36 to 60% for Anopheles funestus, 72 to 84% for Culex, and 80 to 98% for Mansonia compared to untreated ribbons. Reduction in outdoor densities was 38 to 77% against An. arabiensis, 36 to 64% against An. funestus, 63 to 88% against Culex, and 47 to 98% against Mansonia. There was no difference in protection between the two transfluthrin doses. In the survey, 58% of participants perceived the ribbons to be effective in reducing mosquito bites. Ninety per cent were willing to pay for the ribbons, the majority of whom were willing to pay but less than US$2.17 (5000 TZS), one-third of the current prototype cost. Conclusions Transfluthrin-treated eave ribbons can protect migratory rice farmers, living in semi-open makeshift houses in remote farms, against indoor-biting and outdoor-biting mosquitoes. The technology is acceptable to users and could potentially complement ITNs. Further studies should investigate durability and epidemiological impact of eave ribbons, and the opportunities for improving affordability to users.

Published

2019

7. Using a miniaturized double-net trap (DN-Mini) to assess relationships between indoor–outdoor biting preferences and physiological ages of two malaria vectors, Anopheles arabiensis and Anopheles funestus

Author

Alex J. Limwagu, Emmanuel W. Kaindoa, Halfan S. Ngowo, Emmanuel Hape, Marceline Finda, Gustav Mkandawile, Japhet Kihonda, Khamis Kifungo, Rukiyah M. Njalambaha, Damaris Matoke-Muhia, and Fredros O. Okumu

Subjects

DN-Mini trap, Human landing catch (HLC), Mosquito surveillance, Outdoor-biting, Parous mosquitoes, Inseminated mosquitoes, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Effective malaria surveillance requires detailed assessments of mosquitoes biting indoors, where interventions such as insecticide-treated nets work best, and outdoors, where other interventions may be required. Such assessments often involve volunteers exposing their legs to attract mosquitoes [i.e., human landing catches (HLC)], a procedure with significant safety and ethical concerns. Here, an exposure-free, miniaturized, double-net trap (DN-Mini) is used to assess relationships between indoor–outdoor biting preferences of malaria vectors, Anopheles arabiensis and Anopheles funestus, and their physiological ages (approximated by parity and insemination states). Methods The DN-Mini is made of UV-resistant netting on a wooden frame and PVC base. At 100 cm × 60 cm × 180 cm, it fits indoors and outdoors. It has a protective inner chamber where a volunteer sits and collects host-seeking mosquitoes entrapped in an outer chamber. Experiments were conducted in eight Tanzanian villages using DN-Mini to: (a) estimate nightly biting and hourly biting proportions of mosquitoes indoors and outdoors; (b) compare these proportions to previous estimates by HLC in same villages; and, (c) compare distribution of parous (proxy for potentially infectious) and inseminated mosquitoes indoors and outdoors. Results More than twice as many An. arabiensis were caught outdoors as indoors (p

Published

2019

8. Swarms of the malaria vector Anopheles funestus in Tanzania

Author

Emmanuel W. Kaindoa, Halfan S. Ngowo, Alex J. Limwagu, Magellan Tchouakui, Emmanuel Hape, Said Abbasi, Japhet Kihonda, Arnold S. Mmbando, Rukiyah M. Njalambaha, Gustav Mkandawile, Hamis Bwanary, Maureen Coetzee, and Fredros O. Okumu

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Anopheles funestus mosquitoes currently contribute more than 85% of ongoing malaria transmission events in south-eastern Tanzania, even though they occur in lower densities than other vectors, such as Anopheles arabiensis. Unfortunately, the species ecology is minimally understood, partly because of difficulties in laboratory colonization. This study describes the first observations of An. funestus swarms in Tanzania, possibly heralding new opportunities for control. Method Using systematic searches by community-based volunteers and expert entomologists, An. funestus swarms were identified in two villages in Ulanga and Kilombero districts in south-eastern Tanzania, starting June 2018. Swarms were characterized by size, height, start- and end-times, presence of copulation and associated environmental features. Samples of male mosquitoes from the swarms were examined for sexual maturity by observing genitalia rotation, species identity using polymerase chain reaction and wing sizes. Results 581 An. funestus (98.1% males (n = 570) and 1.9% (n = 11) females) and 9 Anopheles gambiae sensu lato (s.l.) males were sampled using sweep nets from the 81 confirmed swarms in two villages (Ikwambi in Kilombero district and Tulizamoyo in Ulanga district). Six copulation events were observed in the swarms. Mean density (95% CL) of An. funestus caught/swarm/village/evening was 6.6 (5.9–7.2) in Tulizamoyo and 10.8 (5.8–15.8) in Ikwambi. 87.7% (n = 71) of the swarms were found in Tulizamoyo, while 12.3% (n = 10) were in Ikwambi. Mean height of swarms was 1.7 m (0.9–2.5 m), while mean duration was 12.9 (7.9–17.9) minutes. The PCR analysis confirmed that 100% of all An. funestus s.l. samples processed were An. funestus sensu stricto. Mean wing length of An. funestus males was 2.47 mm (2.0–2.8 mm), but there was no difference between swarming males and indoor-resting males. Most swarms (95.0%) occurred above bare ground, sometime on front lawns near human dwellings, and repeatedly in the same locations. Conclusion This study has demonstrated occurrence of An. funestus swarms for the first time in Tanzania. Further investigations could identify new opportunities for improved control of this dominant malaria vector, possibly by targeting the swarms.

Published

2019

9. Dramatic decreases of malaria transmission intensities in Ifakara, south-eastern Tanzania since early 2000s

Author

Marceline F. Finda, Alex J. Limwagu, Halfan S. Ngowo, Nancy S. Matowo, Johnson K. Swai, Emmanuel Kaindoa, and Fredros O. Okumu

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Ongoing epidemiological transitions across Africa are particularly evident in fast-growing towns, such as Ifakara in the Kilombero valley, south-eastern Tanzania. This town and its environs (population ~ 70,000) historically experienced moderate to high malaria transmission, mediated mostly by Anopheles gambiae and Anopheles funestus. In early 2000s, malaria transmission [Plasmodium falciparum entomological inoculation rate (PfEIR)] was estimated at ~ 30 infectious bites/person/year (ib/p/yr). This study assessed the PfEIR after 15 years, during which there had been rapid urbanization and expanded use of insecticide-treated nets (ITNs). Methods Randomly-selected 110 households were sampled across Ifakara town and four adjacent wards. Mosquitoes were trapped nightly or monthly (June.2015–May.2016) using CDC-light-traps indoors, Suna® traps outdoors and human landing catches (HLC) indoors and outdoors. All Anopheles mosquitoes were morphologically identified and analysed by ELISA for Plasmodium circumsporozoite proteins. Mosquito blood meals were identified using ELISA, and sub-samples of An. gambiae and An. funestus examined by PCR to distinguish morphologically-similar siblings. Insecticide resistance was assessed using WHO-susceptibility assays, and some Anopheles were dissected to examine ovariole tracheoles for parity. Results After 3572 trap-nights, one Plasmodium-infected Anopheles was found (an An. funestus caught outdoors in Katindiuka-ward by HLC), resulting in overall PfEIR of 0.102 ib/p/yr. Nearly 80% of malaria vectors were from Katindiuka and Mlabani wards. Anopheles gambiae densities were higher outdoors (64%) than indoors (36%), but no such difference was observed for An. funestus. All An. funestus and 75% of An. gambiae dissected were parous. Anopheles gambiae complex consisted entirely of Anopheles arabiensis, while An. funestus included 84.2% An. funestus s.s., 4.5% Anopheles rivulorum, 1.4% Anopheles leesoni and 9.9% with unamplified-DNA. Anopheles gambiae were susceptible to bendiocarb and malathion, but resistant to pyrethroids, DDT and pirimiphos-methyl. Most houses had brick walls and/or iron roofs (> 90%), and 52% had screened windows. Conclusion Malaria transmission in Ifakara has decreased by > 99% since early-2000s, reaching levels nearly undetectable with current entomological methods. These declines are likely associated with ITNs use, urbanization and improved housing. Remaining risk is now mostly in peri-urban wards, but concerted efforts could further decrease local transmission. Parasitological surveys are required to assess actual prevalence, incidence and importation rates.

Published

2018

10. Topographic mapping of the interfaces between human and aquatic mosquito habitats to enable barrier targeting of interventions against malaria vectors

Author

Victoria M. Mwakalinga, Benn K. D. Sartorius, Alex J. Limwagu, Yeromin P. Mlacha, Daniel F. Msellemu, Prosper P. Chaki, Nicodem J. Govella, Maureen Coetzee, Stefan Dongus, and Gerry F. Killeen

Subjects

geophysical topography, spatial modelling, plasmodium falciparum, malaria, anopheles gambiae, barrier-targeted interventions, Science

Abstract

Geophysical topographic metrics of local water accumulation potential are freely available and have long been known as high-resolution predictors of where aquatic habitats for immature Anopheles mosquitoes are most abundant, resulting in elevated densities of adult malaria vectors and human infection burden. Using existing entomological and epidemiological survey data, here we illustrate how topography can also be used to map out the interfaces between wet, unoccupied valleys and dry, densely populated uplands, where malaria vector densities and infection risk are focally exacerbated. These topographically identifiable geophysical boundaries experience disproportionately high vector densities and malaria transmission risk, because this is where Anopheles mosquitoes first encounter humans when they search for blood after emerging or ovipositing in the valleys. Geophysical topographic indicators accounted for 67% of variance for vector density but for only 43% for infection prevalence, so they could enable very selective targeting of interventions against the former but not the latter (targeting ratios of 5.7 versus 1.5 to 1, respectively). So, in addition to being useful for targeting larval source management to wet valleys, geophysical topographic indicators may also be used to selectively target adult Anopheles mosquitoes with insecticidal residual sprays, fencing, vapour emanators or space sprays to barrier areas along their fringes.

Published

2018

11. Fine scale mapping of malaria infection clusters by using routinely collected health facility data in urban Dar es Salaam, Tanzania

Author

Yeromin P. Mlacha, Prosper P. Chaki, Alpha D. Malishee, Victoria M. Mwakalinga, Nicodem J. Govella, Alex J. Limwagu, John M. Paliga, Daniel F. Msellemu, Zawadi D. Mageni, Dianne J. Terlouw, Gerry F. Killeen, and Stefan Dongus

Subjects

Malaria, Spatial heterogeneity, Hot spots, GIS, Tanzania, Geography (General), G1-922

Abstract

This study investigated whether passively collected routine health facility data can be used for mapping spatial heterogeneities in malaria transmission at the level of local government housing cluster administrative units in Dar es Salaam, Tanzania. From June 2012 to January 2013, residential locations of patients tested for malaria at a public health facility were traced based on their local leaders’ names and geo-referencing the point locations of these leaders’ houses. Geographic information systems (GIS) were used to visualise the spatial distribution of malaria infection rates. Spatial scan statistics was deployed to detect spatial clustering of high infection rates. Among 2407 patients tested for malaria, 46.6% (1121) could be traced to their 411 different residential housing clusters. One small spatially aggregated cluster of neighbourhoods with high prevalence was identified. While the home residence housing cluster leader was unambiguously identified for 73.8% (240/325) of malaria-positive patients, only 42.3% (881/2082) of those with negative test results were successfully traced. It was concluded that recording simple points of reference during routine health facility visits can be used for mapping malaria infection burden on very fine geographic scales, potentially offering a feasible approach to rational geographic targeting of malaria control interventions. However, in order to tap the full potential of this approach, it would be necessary to optimise patient tracing success and eliminate biases by blinding personnel to test results.

Published

2017

12. The bionomics of Anopheles arabiensis and Anopheles funestus inside local houses and their implications for vector control strategies in areas with high coverage of insecticide-treated nets in South-eastern Tanzania.

Author

Alex J Limwagu, Betwel J Msugupakulya, Halfan S Ngowo, Yohana A Mwalugelo, Masoud S Kilalangongono, Faraji A Samli, Said K Abbasi, Fredros O Okumu, Billy E Ngasala, and Issa N Lyimo

Subjects

Medicine, Science

Abstract

BackgroundResidual malaria transmissions in Africa may be associated with improved coverage of insecticide-treated nets, house features, and livestock husbandry. These human-land use activities may drive the ecology and behaviour of malaria vectors which sustain residual malaria transmission. This study was conducted to assess changes in the ecology and behaviour of Anopheles funestus and Anopheles arabiensis in villages with high coverage of insecticide-treated nets to guide the selection of complementary vector control strategies against residual malaria transmission.MethodsMosquitoes were collected using a CDC-light trap, miniaturized double net trap, and Prokopack aspirator from 222 households in three villages (Ebuyu, Chirombora, and Mzelezi) within Kilombero Valley. Anopheles mosquitoes were morphologically identified to their physiological status and species-complex levels. A sub-sample of Anopheles mosquitoes was exposed to laboratory analyses of sibling species, host preference, and sporozoite rates. Additionally, the local houses were geo-referenced using Global Positioning Systems (GPS) devise, and house features were recorded and associated with vector abundance.ResultsThe population of An. funestus s.s was abundant with high Plasmodium sporozoite rates inside houses compared to An. arabiensis. However, these vector species equally blood-fed on humans inside houses, but they also flexibly mixed human and animal blood meal. Fewer An. funestus were caught in houses with metal- than grass roofs and houses with and without animals. Contrastingly, fewer An. arabiensis were caught from houses with screened eaves compared to houses with open eaves.ConclusionsThis study confirms that An. funestus dominates residual malaria transmission over An. arabiensis. These vector species exhibit anthropophily and opportunistic blood-feeding behaviour in areas with high coverage of insecticide-treated nets, but they numerically respond differently to local house improvements. These results imply that integrating mosquito-proof houses, improved insecticide-treated nets, and livestock-based interventions could effectively reduce and eventually eliminate residual malaria transmission.

Published

2024

13. Using pastoralist community knowledge to locate and treat dry-season mosquito breeding habitats with pyriproxyfen to control Anopheles gambiae s.l. and Anopheles funestus s.l. in rural Tanzania

Author

Halfan S. Ngowo, Eliza T Lupenza, Alex J. Limwagu, Robert D. Sumaye, Dickson W. Lwetoijera, and Japhet Kihonda

Subjects

education.field_of_study, Larva, Veterinary medicine, General Veterinary, fungi, Pastoralism, Population, General Medicine, Biology, chemistry.chemical_compound, Mosquito control, Infectious Diseases, Productivity (ecology), chemistry, Habitat, Insect Science, parasitic diseases, Dry season, Parasitology, Pyriproxyfen, education

Abstract

Fundamentally, larviciding with pyriproxyfen (PPF) has potential to complement Long Lasting Insecticide Nets (LLINs) and indoor residual sprays (IRS) in settings where resistance to pyrethroids and residual malaria transmission exist. In this study, we evaluated the field effectiveness of larviciding using PPF to reduce dry season productivity of mosquito breeding habitats that were located by pastoralists within the study area. Using pastoralist knowledge, dry season breeding habitats in Mofu village rural Tanzania were located and monitored for larval productivity for a period of 8 months before PPF intervention. During the intervention, six out of twelve breeding habitats were treated with Sumilarv 0.5G PPF granules. The impact of deposited PPF was monitored by recording emergence inhibition of larvae collected from treated habitats compared to the appropriate control group for a period of three months and half post-intervention. During baseline, the average proportion (+SD) of adult emerged was similar between two clusters, with (0.89 + 0.22) for the control cluster and (0.93 + 0.16) for the treatment cluster of breeding habitats. Following treatment with PPF, the average proportion (+SD) of adult emerged in the treated breeding habitats was significantly low (0.096 + 0.22) compared to adults that emerged from larvae in the untreated habitats (0.99 + 0.22) (p

Published

2021

14. Using a miniaturized double-net trap (DN-Mini) to assess relationships between indoor–outdoor biting preferences and physiological ages of two malaria vectors, Anopheles arabiensis and Anopheles funestus

Author

Rukiyah M. Njalambaha, Japhet Kihonda, Fredros O. Okumu, Halfan S. Ngowo, Damaris Matoke-Muhia, Emmanuel E. Hape, Marceline F. Finda, Khamis Kifungo, Gustav Mkandawile, Alex J. Limwagu, and Emmanuel W. Kaindoa

Subjects

lcsh:Arctic medicine. Tropical medicine, Parous mosquitoes, lcsh:RC955-962, 030231 tropical medicine, Mosquito Vectors, Biology, Environment, Insemination, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, Anopheles, parasitic diseases, Anopheles arabiensis, medicine, Animals, Inseminated mosquitoes, lcsh:RC109-216, 030212 general & internal medicine, Indoor outdoor, Malaria surveillance, Malaria vector, DN-Mini trap, Research, Anopheles funestus, Age Factors, Feeding Behavior, Residual malaria transmission, medicine.disease, 3. Good health, Malaria, Ifakara, Human landing catch (HLC), Infectious Diseases, Biting, Mosquito surveillance, Parasitology, Outdoor-biting, Entomology, Demography

Abstract

Background: \ud Effective malaria surveillance requires detailed assessments of mosquitoes biting indoors, where interventions such as insecticide-treated nets work best, and outdoors, where other interventions may be required. Such assessments often involve volunteers exposing their legs to attract mosquitoes [i.e., human landing catches (HLC)], a procedure with significant safety and ethical concerns. Here, an exposure-free, miniaturized, double-net trap (DN-Mini) is used to assess relationships between indoor–outdoor biting preferences of malaria vectors, Anopheles arabiensis and Anopheles funestus, and their physiological ages (approximated by parity and insemination states).\ud \ud Methods: \ud The DN-Mini is made of UV-resistant netting on a wooden frame and PVC base. At 100 cm × 60 cm × 180 cm, it fits indoors and outdoors. It has a protective inner chamber where a volunteer sits and collects host-seeking mosquitoes entrapped in an outer chamber. Experiments were conducted in eight Tanzanian villages using DN-Mini to: (a) estimate nightly biting and hourly biting proportions of mosquitoes indoors and outdoors; (b) compare these proportions to previous estimates by HLC in same villages; and, (c) compare distribution of parous (proxy for potentially infectious) and inseminated mosquitoes indoors and outdoors.\ud \ud Results: \ud More than twice as many An. arabiensis were caught outdoors as indoors (p

Published

2019

15. Using pastoralist community knowledge to locate and treat dry-season mosquito breeding habitats with pyriproxyfen to control Anopheles gambiae s.l. and Anopheles funestus s.l. in rural Tanzania

Author

Eliza T, Lupenza, Japhet, Kihonda, Alex J, Limwagu, Halfan S, Ngowo, Robert D, Sumaye, and Dickson W, Lwetoijera

Subjects

Insecticides, Mosquito Control, Pyridines, Larva, Anopheles, Animals, Seasons, Animal Husbandry, Tanzania, Ecosystem, Malaria

Abstract

Fundamentally, larviciding with pyriproxyfen (PPF) has potential to complement Long Lasting Insecticide Nets (LLINs) and indoor residual sprays (IRS) in settings where resistance to pyrethroids and residual malaria transmission exist. In this study, we evaluated the field effectiveness of larviciding using PPF to reduce dry season productivity of mosquito breeding habitats that were located by pastoralists within the study area. Using pastoralist knowledge, dry season breeding habitats in Mofu village rural Tanzania were located and monitored for larval productivity for a period of 8 months before PPF intervention. During the intervention, six out of twelve breeding habitats were treated with Sumilarv 0.5G PPF granules. The impact of deposited PPF was monitored by recording emergence inhibition of larvae collected from treated habitats compared to the appropriate control group for a period of three months and half post-intervention. During baseline, the average proportion (+SD) of adult emerged was similar between two clusters, with (0.89 + 0.22) for the control cluster and (0.93 + 0.16) for the treatment cluster of breeding habitats. Following treatment with PPF, the average proportion (+SD) of adult emerged in the treated breeding habitats was significantly low (0.096 + 0.22) compared to adults that emerged from larvae in the untreated habitats (0.99 + 0.22) (p 0.0001). Of all emerged adults, approximately 94% were An. gambiae s.l. and the remaining 6% were An. funestus s.l. This is the first study demonstrating the usefulness of engaging pastoralist community to locate and identify hard to find mosquito breeding habitats. Reduced productivity of the targeted habitats with PPF offers prospect of implementing PPF larviciding in dry season when habitats are few and permanent to control mosquito population in rural settings.

Published

2020

16. Evaluation of personal protection afforded by repellent-treated sandals against mosquito bites in south-eastern Tanzania

Author

Tegemeo Gavana, Onyango P. Sangoro, Alex J. Limwagu, Prosper P Chaki, Nicodem J. Govella, Emmanuel E. Hape, Fredros O. Okumu, Winfrida Mponzi, and Marceline F. Finda

Subjects

Adult, Cyclopropanes, Male, Mosquito Control, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Anopheles gambiae, Indoor residual spraying, New tools, Tanzania, lcsh:Infectious and parasitic diseases, Toxicology, Young Adult, chemistry.chemical_compound, Transfluthrin, Malaria elimination, Anopheles, parasitic diseases, medicine, Animals, Humans, lcsh:RC109-216, Transfluthrin-treated footwear, biology, Research, Insect Bites and Stings, Vector borne diseases, Residual malaria transmission, medicine.disease, biology.organism_classification, Shoes, Fluorobenzenes, Ifakara, Infectious Diseases, Biting, chemistry, Insect Repellents, Parasitology, South eastern, Malaria

Abstract

Background Outdoor and early evening mosquito biting needs to be addressed if malaria elimination is to be achieved. While indoor-targeted interventions, such as insecticide-treated nets and indoor residual spraying, remain essential, complementary approaches that tackle persisting outdoor transmission are urgently required to maximize the impact. Major malaria vectors principally bite human hosts around the feet and ankles. Consequently, this study investigated whether sandals treated with efficacious spatial repellents can protect against outdoor biting mosquitoes. Methodology Sandals affixed with hessian bands measuring 48 cm2 treated with 0.06 g, 0.10 g and 0.15 g of transfluthrin were tested in large cage semi-field and full field experiments. Sandals affixed with hessian bands measuring 240 cm2 and treated with 0.10 g and 0.15 g of transfluthrin were also tested semi field experiments. Human landing catches (HLC) were used to assess reduction in biting exposure by comparing proportions of mosquitoes landing on volunteers wearing treated and untreated sandals. Sandals were tested against insectary reared Anopheles arabiensis mosquitoes in semi-field experiments and against wild mosquito species in rural Tanzania. Results In semi-field tests, sandals fitted with hessian bands measuring 48 cm2 and treated with 0.15 g, 0.10 g and 0.06 g transfluthrin reduced mosquito landings by 45.9%, (95% confidence interval (C.I.) 28–59%), 61.1% (48–71%), and 25.9% (9–40%), respectively compared to untreated sandals. Sandals fitted with hessian bands measuring 240 cm2 and treated with 0.15 g and 0.10 g transfluthrin reduced mosquito landings by 59% (43–71%) and 64% (48–74%), respectively. In field experiments, sandals fitted with hessian bands measuring 48 cm2 and treated with 0.15 g transfluthrin reduced mosquito landings by 70% (60–76%) against Anopheles gambiae sensu lato, and 66.0% (59–71%) against all mosquito species combined. Conclusion Transfluthrin-treated sandals conferred significant protection against mosquito bites in semi-field and field settings. Further evaluation is recommended for this tool as a potential complementary intervention against malaria. This intervention could be particularly useful for protecting against outdoor exposure to mosquito bites. Additional studies are necessary to optimize treatment techniques and substrates, establish safety profiles and determine epidemiological impact in different settings.

Published

2020

17. Habitat characteristics and insecticide susceptibility of Aedes aegypti in the Ifakara area, south-eastern Tanzania

Author

Fredros O. Okumu, Dickson S. Msaky, Halfan S. Ngowo, Salum A. Mapua, Alex J. Limwagu, Najat F. Kahamba, Emmanuel W. Kaindoa, and Betwel J. Msugupakulya

Subjects

Rural Population, Wet season, Insecticides, 030231 tropical medicine, Bendiocarb, Aedes aegypti, Habitat characteristics, Biology, medicine.disease_cause, Communicable Diseases, Tanzania, lcsh:Infectious and parasitic diseases, Dengue, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Aedes, parasitic diseases, Infestation, medicine, Animals, lcsh:RC109-216, 030212 general & internal medicine, Cities, Ecosystem, 2. Zero hunger, Research, fungi, Outbreak, 15. Life on land, biology.organism_classification, Insect Vectors, 3. Good health, Infectious Diseases, Deltamethrin, Insecticide susceptibility, chemistry, 13. Climate action, Ifakara Health Institute, Chikungunya Fever, Chikungunya, Parasitology, Seasons, Animal Distribution, Permethrin, medicine.drug

Abstract

Background Aedes-borne diseases such as dengue and chikungunya constitute constant threats globally. In Tanzania, these diseases are transmitted by Aedes aegypti, which is widely distributed in urban areas, but whose ecology remains poorly understood in small towns and rural settings. Methods A survey of Ae. aegypti aquatic habitats was conducted in and around Ifakara, a fast-growing town in south-eastern Tanzania. The study area was divided into 200 × 200 m search grids, and habitats containing immature Aedes were characterized. Field-collected Ae. aegypti were tested for susceptibility to common public health insecticides (deltamethrin, permethrin, bendiocarb and pirimiphos-methyl) in the dry and rainy seasons. Results Of 1515 and 1933 aquatic habitats examined in the dry and rainy seasons, 286 and 283 contained Aedes immatures, respectively (container index, CI: 18.9–14.6%). In the 2315 and 2832 houses visited in the dry and rainy seasons, 114 and 186 houses had at least one Aedes-positive habitat, respectively (house index, HI: 4.9–6.6%). The main habitat types included: (i) used vehicle tires and discarded containers; (ii) flowerpots and clay pots; and (iii) holes made by residents on trunks of coconut trees when harvesting the coconuts. Used tires had highest overall abundance of Ae. aegypti immatures, while coconut tree-holes had highest densities per habitat. Aedes aegypti adults were susceptible to all tested insecticides in both seasons, except bendiocarb, against which resistance was observed in the rainy season. Conclusions To our knowledge, this is the first study on ecology and insecticide susceptibility of Ae. aegypti in Ifakara area, and will provide a basis for future studies on its pathogen transmission activities and control. The high infestation levels observed indicate significant risk of Aedes-borne diseases, requiring immediate action to prevent potential outbreaks in the area. While used tires, discarded containers and flowerpots are key habitats for Ae. aegypti, this study also identified coconut harvesting as an important risk factor, and the associated tree-holes as potential targets for Aedes control. Since Ae. aegypti mosquitoes in the area are still susceptible to most insecticides, effective control could be achieved by combining environmental management, preferably involving communities, habitat removal and insecticide spraying.

Published

2020

18. Habitat characterization and insecticide susceptibility profiles of Aedes aegypti mosquitoes in Ifakara area, south-eastern Tanzania

Author

Najat F. Kahamba, Alex J. Limwagu, Salum A. Mapua, Betwel J. Msugupakulya, Dickson S. Msaky, Emmanuel W. Kaindoa, Halfan S. Ngowo, and Fredros O. Okumu

Abstract

Background: Aedes-borne diseases such as dengue and chikungunya constitute constant threats globally. In Tanzania, these diseases are transmitted by Aedes aegypti, which is widely distributed in urban areas, but whose ecology remains poorly-understood in small towns and rural settings. Methods: We surveyed aquatic habitats of Ae. aegypti mosquitoes in and around Ifakara, a fast-growing town in south-eastern Tanzania. The area was divided into 200m × 200m search grids and habitats containing immature Aedes were characterized. Field-collected Aedes were tested for susceptibility to common public health insecticides (deltamethrin, permethrin, bendiocarb and pyrimiphos methyl) in dry and rainy seasons.Results: Of 1,515 and 1,933 aquatic habitats examined in dry and rainy seasons respectively, 18.87% and 14.64% contained Aedes immatures (container index (CI): 286-283). In the 2,315 and 2,832 houses visited in dry and rainy seasons, 4.9% and 6.6% had at least one Aedes-positive habitat (house index (HI): 114-186). The main habitat types included: a) used vehicle tires and discarded containers, b) flower pots and clay pots, and c) holes made by residents on trunks of coconut trees to support climbing harvesters. Used tires had highest overall abundance of Aedes immatures, while coconut tree holes had highest densities per habitat. Ae. aegypti adults were susceptible to all tested insecticides in both seasons, except bendiocarb, against which resistance was observed in rainy season.Conclusion: This is the first study on ecology and insecticide susceptibility of Aedes in Ifakara area, and will provide a basis for future studies on its pathogen transmission activities and its control. The high infestation levels observed indicate significant risk of Aedes-borne diseases, requiring immediate action to prevent potential outbreaks in the area. While used tires, discarded containers and flower pots are key habitats for Aedes here, this study also identified coconut harvesting as an important risk factor, and the associated tree-holes as potential targets for Aedes control. Since Ae. aegypti mosquitoes in the area are still susceptible to most insecticides, effective control could combine environmental management, preferably involving communities, habitat removal and insecticide spraying.

Published

2019

19. Linking human behaviours and malaria vector biting risk in south-eastern Tanzania

Author

Lenore Manderson, Elihaika G. Minja, Alex J. Limwagu, Halfan S. Ngowo, Marceline F. Finda, Maureen Coetzee, Anna P. Nyoni, Lea P. Toe, Johnson K. Swai, Emmanuel W. Kaindoa, April Monroe, Irene R. Moshi, and Fredros O. Okumu

Subjects

Male, Insecticides, Topography, Psychological intervention, Social Sciences, Disease Vectors, Mosquitoes, Tanzania, law.invention, Geographical Locations, 0302 clinical medicine, law, Medicine and Health Sciences, Psychology, 030212 general & internal medicine, Child, Protozoans, Multidisciplinary, biology, Human migration, Malarial Parasites, Anopheles, Eukaryota, Agriculture, Middle Aged, 3. Good health, Insects, Infectious Diseases, Transmission (mechanics), Geography, Child, Preschool, Medicine, Female, Agrochemicals, Research Article, Valleys, Adult, Arthropoda, Adolescent, Human Migration, Science, 030231 tropical medicine, Qualitative property, Mosquito Vectors, Models, Biological, 03 medical and health sciences, Environmental health, parasitic diseases, Parasitic Diseases, medicine, Animals, Humans, Behavior, Landforms, business.industry, Organisms, Biology and Life Sciences, Infant, Insect Bites and Stings, Geomorphology, Tropical Diseases, medicine.disease, biology.organism_classification, Invertebrates, Parasitic Protozoans, Malaria, Insect Vectors, Species Interactions, Biting, People and Places, Africa, Earth Sciences, business, Zoology, Entomology

Abstract

To accelerate malaria elimination in areas where core interventions such as insecticide-treated nets (ITNs) are already widely used, it is crucial to consider additional factors associated with persistent transmission. Qualitative data on human behaviours and perceptions regarding malaria risk was triangulated with quantitative data on Anopheles mosquito bites occurring indoors and outdoors in south-eastern Tanzania communities where ITNS are already used but lower level malaria transmission persists. Each night (18:00h-07:00h), trained residents recorded human activities indoors, in peri-domestic outdoor areas, and in communal gatherings. Host-seeking mosquitoes were repeatedly collected indoors and outdoors hourly, using miniaturized exposure-free double net traps (DN-Mini) occupied by volunteers. In-depth interviews were conducted with household representatives to explore perceptions on persistent malaria and its control. Higher proportions of people stayed outdoors than indoors in early-evening and early-morning hours, resulting in higher exposures outdoors than indoors during these times. However, exposure during late-night hours (22:00h-05:00h) occurred mostly indoors. Some of the popular activities that kept people outdoors included cooking, eating, relaxing and playing. All households had at least one bed net, and 83.9% of people had access to ITNs. Average ITN use was 96.3%, preventing most indoor exposure. Participants recorgnized the importance of ITNs but also noted that the nets were not perfect. No complementary interventions were reported being used widely. Most people believed transmission happens after midnight. We conclude that insecticide-treated nets, where properly used, can still prevent most indoor exposures, but significant risk continues unabated before bedtime, outdoors and at communal gatherings. Such exposure is greatest for rural and low-income households. There is therefore an urgent need for complementary interventions, particularly those targeting outdoor-biting and are applicable for all people including the marginalised populations such as migratory farmers and fishermen. Besides, the differences in community understanding of ongoing transmission, and feedback on imperfections of ITNs should be considered when updating malaria-related communication and interventions.

Published

2019

20. Swarms of the malaria vector Anopheles funestus in Tanzania

Author

Maureen Coetzee, Halfan S. Ngowo, Emmanuel E. Hape, Hamis Bwanary, Emmanuel W. Kaindoa, Alex J. Limwagu, Rukiyah M. Njalambaha, Said Abbasi, Japhet Kihonda, Fredros O. Okumu, Magellan Tchouakui, Gustav Mkandawile, and Arnold S. Mmbando

Subjects

Male, Entomology, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Anopheles gambiae, 030231 tropical medicine, Population Dynamics, Swarming (honey bee), Zoology, Mosquito Vectors, Tanzania, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, Malaria transmission, Anopheles, parasitic diseases, medicine, Animals, lcsh:RC109-216, 030212 general & internal medicine, Malaria vector, Social Behavior, biology, Research, Anopheles funestus, biology.organism_classification, medicine.disease, 3. Good health, Infectious Diseases, Parasitology, Female, Malaria

Abstract

Background: \ud Anopheles funestus mosquitoes currently contribute more than 85% of ongoing malaria transmission events in south-eastern Tanzania, even though they occur in lower densities than other vectors, such as Anopheles arabiensis. Unfortunately, the species ecology is minimally understood, partly because of difficulties in laboratory colonization. This study describes the first observations of An. funestus swarms in Tanzania, possibly heralding new opportunities for control.\ud \ud Method: \ud Using systematic searches by community-based volunteers and expert entomologists, An. funestus swarms were identified in two villages in Ulanga and Kilombero districts in south-eastern Tanzania, starting June 2018. Swarms were characterized by size, height, start- and end-times, presence of copulation and associated environmental features. Samples of male mosquitoes from the swarms were examined for sexual maturity by observing genitalia rotation, species identity using polymerase chain reaction and wing sizes.\ud \ud Results: \ud 581 An. funestus (98.1% males (n = 570) and 1.9% (n = 11) females) and 9 Anopheles gambiae sensu lato (s.l.) males were sampled using sweep nets from the 81 confirmed swarms in two villages (Ikwambi in Kilombero district and Tulizamoyo in Ulanga district). Six copulation events were observed in the swarms. Mean density (95% CL) of An. funestus caught/swarm/village/evening was 6.6 (5.9–7.2) in Tulizamoyo and 10.8 (5.8–15.8) in Ikwambi. 87.7% (n = 71) of the swarms were found in Tulizamoyo, while 12.3% (n = 10) were in Ikwambi. Mean height of swarms was 1.7 m (0.9–2.5 m), while mean duration was 12.9 (7.9–17.9) minutes. The PCR analysis confirmed that 100% of all An. funestus s.l. samples processed were An. funestus sensu stricto. Mean wing length of An. funestus males was 2.47 mm (2.0–2.8 mm), but there was no difference between swarming males and indoor-resting males. Most swarms (95.0%) occurred above bare ground, sometime on front lawns near human dwellings, and repeatedly in the same locations.\ud \ud Conclusion: \ud This study has demonstrated occurrence of An. funestus swarms for the first time in Tanzania. Further investigations could identify new opportunities for improved control of this dominant malaria vector, possibly by targeting the swarms.

Published

2019

21. Protecting migratory farmers in rural Tanzania using eave ribbons treated with the spatial mosquito repellent, transfluthrin

Author

Fredros O. Okumu, Marceline F. Finda, Johnson K. Swai, Rukiyah M. Njalambaha, Arnold S. Mmbando, Halfan S. Ngowo, Saidi Abbasi, Sarah J. Moore, Winifrida Mponzi, Joanna Schellenberg, Deogratius Kazimbaya, Lena M. Lorenz, Olukayode G. Odufuwa, Anna P. Nyoni, and Alex J. Limwagu

Subjects

Cyclopropanes, Rural Population, Mosquito Control, Tanzania, Toxicology, chemistry.chemical_compound, 0302 clinical medicine, Migratory rice farmers, 030212 general & internal medicine, Aged, 80 and over, Transients and Migrants, Farmers, biology, Agriculture, Spatial repellent, Middle Aged, 3. Good health, Infectious Diseases, Geography, Female, Adult, lcsh:Arctic medicine. Tropical medicine, Adolescent, Eaves, Culex, lcsh:RC955-962, 030231 tropical medicine, lcsh:Infectious and parasitic diseases, Eave ribbons, 03 medical and health sciences, Young Adult, Transfluthrin, Anopheles arabiensis, Animals, Humans, lcsh:RC109-216, Rice farmers, Aged, Rural tanzania, Research, Insect Bites and Stings, biology.organism_classification, Malaria, Fluorobenzenes, Culicidae, chemistry, Insect Repellents, Housing, Parasitology, Mansonia

Abstract

Background Many subsistence farmers in rural southeastern Tanzania regularly relocate to distant farms in river valleys to tend to crops for several weeks or months each year. While there, they live in makeshift semi-open structures, usually far from organized health systems and where insecticide-treated nets (ITNs) do not provide adequate protection. This study evaluated the potential of a recently developed technology, eave ribbons treated with the spatial repellent transfluthrin, for protecting migratory rice farmers in rural southeastern Tanzania against indoor-biting and outdoor-biting mosquitoes. Methods In the first test, eave ribbons (0.1 m × 24 m each) treated with 1.5% transfluthrin solution were compared to untreated ribbons in 24 randomly selected huts in three migratory communities over 48 nights. Host-seeking mosquitoes indoors and outdoors were monitored nightly (18.00–07.00 h) using CDC light traps and CO2-baited BG malaria traps, respectively. The second test compared efficacies of eave ribbons treated with 1.5% or 2.5% transfluthrin in 12 huts over 21 nights. Finally, 286 farmers were interviewed to assess perceptions about eave ribbons, and their willingness to pay for them. Results In the two experiments, when treated eave ribbons were applied, the reduction in indoor densities ranged from 56 to 77% for Anopheles arabiensis, 36 to 60% for Anopheles funestus, 72 to 84% for Culex, and 80 to 98% for Mansonia compared to untreated ribbons. Reduction in outdoor densities was 38 to 77% against An. arabiensis, 36 to 64% against An. funestus, 63 to 88% against Culex, and 47 to 98% against Mansonia. There was no difference in protection between the two transfluthrin doses. In the survey, 58% of participants perceived the ribbons to be effective in reducing mosquito bites. Ninety per cent were willing to pay for the ribbons, the majority of whom were willing to pay but less than US$2.17 (5000 TZS), one-third of the current prototype cost. Conclusions Transfluthrin-treated eave ribbons can protect migratory rice farmers, living in semi-open makeshift houses in remote farms, against indoor-biting and outdoor-biting mosquitoes. The technology is acceptable to users and could potentially complement ITNs. Further studies should investigate durability and epidemiological impact of eave ribbons, and the opportunities for improving affordability to users.

Published

2019

22. Eave ribbons treated with the spatial repellent, transfluthrin, can effectively protect against indoor-biting and outdoor-biting malaria mosquitoes

Author

Halfan S. Ngowo, Alex J. Limwagu, Masoud Kilalangongono, Khamis Kifungo, Fredros O. Okumu, and Arnold S. Mmbando

Subjects

Cyclopropanes, Mosquito Control, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Eaves, 030231 tropical medicine, Indoor residual spraying, Mosquito Vectors, Field tests, Tanzania, lcsh:Infectious and parasitic diseases, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Anopheles, medicine, Animals, lcsh:RC109-216, 030212 general & internal medicine, Bed nets, biology, Research, Insect Bites and Stings, biology.organism_classification, medicine.disease, Malaria, 3. Good health, Fluorobenzenes, Infectious Diseases, Biting, Transfluthrin, chemistry, Insect Repellents, Housing, Parasitology

Abstract

Background: \ud Long-lasting insecticide-treated nets and indoor residual spraying protect against indoor-biting and indoor-resting mosquitoes but are largely ineffective for early-biting and outdoor-biting malaria vectors. Complementary tools are, therefore, needed to accelerate control efforts. This paper describes simple hessian ribbons treated with spatial repellents and wrapped around eaves of houses to prevent outdoor-biting and indoor-biting mosquitoes over long periods of time.\ud \ud Methods: \ud The eave ribbons are 15 cm-wide triple-layered hessian fabrics, in lengths starting 1 m. They can be fitted onto houses using nails, adhesives or Velcro, without completely closing eave-spaces. In 75 experimental nights, untreated ribbons and ribbons treated with 0.02%, 0.2%, 1.5% or 5% transfluthrin emulsion (spatial repellent) were evaluated against blank controls using two experimental huts inside a 202 m2 semi-field chamber where 500 laboratory-reared Anopheles arabiensis were released nightly. Two volunteers sat outdoors (one/hut) and collected mosquitoes attempting to bite them from 6 p.m. to 10 p.m. (outdoor-biting), then went indoors and slept under bed nets, beside which CDC-light traps collected mosquitoes from 10 p.m. to 6.30 a.m. (indoor-biting). To assess survival, 200 caged mosquitoes were suspended near the huts nightly and monitored for 24 h thereafter. Additionally, field tests were done in experimental huts in a rural Tanzanian village to evaluate treated ribbons (1.5% transfluthrin). Here, indoor-biting was assessed using window traps and Prokopack® aspirators, and outdoor-biting assessed using volunteer-occupied double-net traps.\ud \ud Results: \ud Indoor-biting and outdoor-biting decreased > 99% in huts fitted with eave ribbons having ≥ 0.2% transfluthrin. Even 0.02% transfluthrin-treated ribbons provided 79% protection indoors and 60% outdoors. Untreated ribbons however reduced indoor-biting by only 27% and increased outdoor-biting by 18%, though these were non-significant (P > 0.05). Of all caged mosquitoes exposed near treated huts, 99.5% died within 24 h. In field tests, the ribbons provided 96% protection indoors and 84% outdoors against An. arabiensis, plus 42% protection indoors and 40% outdoors against Anopheles funestus. Current prototypes cost ~ 7USD/hut, are made of widely-available hessian and require no specialized expertise.\ud \ud Conclusion: \ud Transfluthrin-treated eave ribbons significantly prevented outdoor-biting and indoor-biting malaria vectors and could potentially complement current tools. The technique is simple, low-cost, highly-scalable and easy-to-use; making it suitable even for poorly-constructed houses and low-income groups.

Published

2018

23. Dramatic decreases of malaria transmission intensities in Ifakara, south-eastern Tanzania since early 2000s

Author

Halfan S. Ngowo, Nancy S. Matowo, Marceline F. Finda, Fredros O. Okumu, Emmanuel W. Kaindoa, Johnson K. Swai, and Alex J. Limwagu

Subjects

Insecticides, Veterinary medicine, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Anopheles gambiae, Plasmodium falciparum, 030231 tropical medicine, Protozoan Proteins, Bendiocarb, Enzyme-Linked Immunosorbent Assay, Tanzania, lcsh:Infectious and parasitic diseases, law.invention, Antimalarials, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, law, Anopheles, parasitic diseases, medicine, Animals, lcsh:RC109-216, 030212 general & internal medicine, Insecticide-Treated Bednets, Malaria, Falciparum, Population Growth, biology, Research, Urbanization, medicine.disease, biology.organism_classification, 3. Good health, Infectious Diseases, Transmission (mechanics), chemistry, Malathion, Parasitology, Malaria

Abstract

Background: \ud Ongoing epidemiological transitions across Africa are particularly evident in fast-growing towns, such as Ifakara in the Kilombero valley, south-eastern Tanzania. This town and its environs (population ~ 70,000) historically experienced moderate to high malaria transmission, mediated mostly by Anopheles gambiae and Anopheles funestus. In early 2000s, malaria transmission [Plasmodium falciparum entomological inoculation rate (PfEIR)] was estimated at ~ 30 infectious bites/person/year (ib/p/yr). This study assessed the PfEIR after 15 years, during which there had been rapid urbanization and expanded use of insecticide-treated nets (ITNs).\ud \ud Methods: \ud Randomly-selected 110 households were sampled across Ifakara town and four adjacent wards. Mosquitoes were trapped nightly or monthly (June.2015–May.2016) using CDC-light-traps indoors, Suna® traps outdoors and human landing catches (HLC) indoors and outdoors. All Anopheles mosquitoes were morphologically identified and analysed by ELISA for Plasmodium circumsporozoite proteins. Mosquito blood meals were identified using ELISA, and sub-samples of An. gambiae and An. funestus examined by PCR to distinguish morphologically-similar siblings. Insecticide resistance was assessed using WHO-susceptibility assays, and some Anopheles were dissected to examine ovariole tracheoles for parity.\ud \ud Results: \ud After 3572 trap-nights, one Plasmodium-infected Anopheles was found (an An. funestus caught outdoors in Katindiuka-ward by HLC), resulting in overall PfEIR of 0.102 ib/p/yr. Nearly 80% of malaria vectors were from Katindiuka and Mlabani wards. Anopheles gambiae densities were higher outdoors (64%) than indoors (36%), but no such difference was observed for An. funestus. All An. funestus and 75% of An. gambiae dissected were parous. Anopheles gambiae complex consisted entirely of Anopheles arabiensis, while An. funestus included 84.2% An. funestus s.s., 4.5% Anopheles rivulorum, 1.4% Anopheles leesoni and 9.9% with unamplified-DNA. Anopheles gambiae were susceptible to bendiocarb and malathion, but resistant to pyrethroids, DDT and pirimiphos-methyl. Most houses had brick walls and/or iron roofs (> 90%), and 52% had screened windows.\ud \ud Conclusion: \ud Malaria transmission in Ifakara has decreased by > 99% since early-2000s, reaching levels nearly undetectable with current entomological methods. These declines are likely associated with ITNs use, urbanization and improved housing. Remaining risk is now mostly in peri-urban wards, but concerted efforts could further decrease local transmission. Parasitological surveys are required to assess actual prevalence, incidence and importation rates.

Published

2018

24. Topographic mapping of the interfaces between human and aquatic mosquito habitats to enable barrier targeting of interventions against malaria vectors

Author

Gerry F. Killeen, Daniel Msellemu, Nicodem J. Govella, Benn Sartorius, Stefan Dongus, Alex J. Limwagu, Yeromin P. Mlacha, Victoria M. Mwakalinga, Prosper P Chaki, and Maureen Coetzee

Subjects

spatial modelling, Anopheles gambiae, 030231 tropical medicine, Plasmodium falciparum, malaria, Fencing, wa_110, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Earth Science, 030212 general & internal medicine, Malaria vector, lcsh:Science, geophysical topography, barrier-targeted interventions, Multidisciplinary, biology, Ecology, Infection prevalence, Anopheles, biology.organism_classification, medicine.disease, wc_750, Habitat, qx_650, qx_510, Vector (epidemiology), lcsh:Q, Malaria, Research Article

Abstract

Geophysical topographic metrics of local water accumulation potential are freely available and have long been known as high-resolution predictors of where aquatic habitats for immature Anopheles mosquitoes are most abundant, resulting in elevated densities of adult malaria vectors and human infection burden. Using existing entomological and epidemiological survey data, here we illustrate how topography can also be used to map out the interfaces between wet, unoccupied valleys and dry, densely populated uplands, where malaria vector densities and infection risk are focally exacerbated. These topographically identifiable geophysical boundaries experience disproportionately high vector densities and malaria transmission risk, because this is where Anopheles mosquitoes first encounter humans when they search for blood after emerging or ovipositing in the valleys. Geophysical topographic indicators accounted for 67% of variance for vector density but for only 43% for infection prevalence, so they could enable very selective targeting of interventions against the former but not the latter (targeting ratios of 5.7 versus 1.5 to 1, respectively). So, in addition to being useful for targeting larval source management to wet valleys, geophysical topographic indicators may also be used to selectively target adult Anopheles mosquitoes with insecticidal residual sprays, fencing, vapour emanators or space sprays to barrier areas along their fringes.

Published

2018

25. Fine scale mapping of malaria infection clusters by using routinely collected health facility data in urban Dar es Salaam, Tanzania

Author

John M. Paliga, Daniel Msellemu, Stefan Dongus, Alex J. Limwagu, Dianne J. Terlouw, Yeromin P. Mlacha, Nicodem J. Govella, Zawadi D. Mageni, Prosper P Chaki, Alpha D. Malishee, Gerry F. Killeen, and Victoria M. Mwakalinga

Subjects

medicine.medical_specialty, Health (social science), Geographic information system, 030231 tropical medicine, Geography, Planning and Development, Psychological intervention, Medicine (miscellaneous), lcsh:G1-922, Tanzania, 03 medical and health sciences, 0302 clinical medicine, Health facility, Environmental protection, Environmental health, parasitic diseases, Prevalence, medicine, Humans, Hot spots, 030212 general & internal medicine, biology, business.industry, Health Policy, Public health, biology.organism_classification, medicine.disease, GIS, Malaria, Geography, Local government, Geographic Information Systems, Residence, Spatial heterogeneity, Health Facilities, business, lcsh:Geography (General)

Abstract

This study investigated whether passively collected routine health facility data can be used for mapping spatial heterogeneities in malaria transmission at the level of local government housing cluster administrative units in Dar es Salaam, Tanzania. From June 2012 to January 2013, residential locations of patients tested for malaria at a public health facility were traced based on their local leaders’ names and geo-referencing the point locations of these leaders’ houses. Geographic information systems (GIS) were used to visualise the spatial distribution of malaria infection rates. Spatial scan statistics was deployed to detect spatial clustering of high infection rates. Among 2407 patients tested for malaria, 46.6% (1121) could be traced to their 411 different residential housing clusters. One small spatially aggregated cluster of neighbourhoods with high prevalence was identified. While the home residence housing cluster leader was unambiguously identified for 73.8% (240/325) of malaria-positive patients, only 42.3% (881/2082) of those with negative test results were successfully traced. It was concluded that recording simple points of reference during routine health facility visits can be used for mapping malaria infection burden on very fine geographic scales, potentially offering a feasible approach to rational geographic targeting of malaria control interventions. However, in order to tap the full potential of this approach, it would be necessary to optimise patient tracing success and eliminate biases by blinding personnel to test results.

Published

2017

26. Spatially aggregated clusters and scattered smaller loci of elevated malaria vector density and human infection prevalence in urban Dar es Salaam, Tanzania

Author

Victoria M. Mwakalinga, Yeromin P. Mlacha, Zawadi D. Mageni, Benn Sartorius, Nicodem J. Govella, Gerry F. Killeen, Stefan Dongus, Maureen Coetzee, John M. Paliga, Alex J. Limwagu, and Daniel Msellemu

Subjects

medicine.medical_specialty, Anopheles gambiae, 030231 tropical medicine, Plasmodium falciparum, wc_765, Tanzania, law.invention, 03 medical and health sciences, 0302 clinical medicine, Mosquito, law, parasitic diseases, Anopheles, medicine, Prevalence, Animals, Cluster Analysis, Humans, 030212 general & internal medicine, Malaria, Falciparum, biology, Research, wa_240, biology.organism_classification, medicine.disease, Spatial clustering, Virology, Confidence interval, Vector control, 3. Good health, Insect Vectors, Malaria, Transmission (mechanics), Infectious Diseases, Cross-Sectional Studies, qx_650, Mapping, wb_700, Vector (epidemiology), Tropical medicine, Parasitology, Hotspots, Cartography

Abstract

Background: Malaria transmission, primarily mediated by Anopheles gambiae, persists in Dar es Salaam (DSM) despite high coverage with bed nets, mosquito-proofed housing and larviciding. New or improved vector control strategies are required to eliminate malaria from DSM, but these will only succeed if they are delivered to the minority of locations where residual transmission actually persists. Hotspots of spatially clustered locations with elevated malaria infection prevalence or vector densities were, therefore, mapped across the city in an attempt to provide a basis for targeting supplementary interventions.Methods: Two phases of a city-wide population-weighted random sample of cross-sectional household surveys of malaria infections were complemented by two matching phases of geographically overlapping, high-resolution, longitudinal vector density surveys; spanning 2010–2013. Spatial autocorrelations were explored using Moran’s I and hotspots were detected using flexible spatial scan statistics.Results: Seven hotspots of spatially clustered elevated vector density and eight of malaria infection prevalence were detected over both phases. Only a third of vectors were collected in hotspots in phase 1 (30 %) and phase 2 (33 %). Malaria prevalence hotspots accounted for only half of malaria infections detected in phase 1 (55 %) and phase 2 (47 %). Three quarters (76 % in phase 1 and 74 % in phase 2) of survey locations with detectable vector populations were outside of hotspots. Similarly, more than half of locations with higher infection prevalence (>10 %) occurred outside of hotspots (51 % in phase 1 and 54 % in phase 2). Vector proliferation hazard (exposure to An. gambiae) and malaria infection risk were only very loosely associated with each other (Odds ratio (OR) [95 % Confidence Interval (CI)] = 1.56 [0.89, 1.78], P = 0.52)).Conclusion: Many small, scattered loci of local malaria transmission were haphazardly scattered across the city, so interventions targeting only currently identifiable spatially aggregated hotspots will have limited impact. Routine, spatially comprehensive, longitudinal entomological and parasitological surveillance systems, with sufficient sensitivity and spatial resolution to detect these scattered loci, are required to eliminate transmission from this typical African city. Intervention packages targeted to both loci and hotspots of transmission will need to suppress local vector proliferation, treat infected residents and provide vulnerable residents with supplementary protective measures against exposure.

Published

2015

27. New evidence of mating swarms of the malaria vector, Anopheles arabiensis in Tanzania

Author

Gustav Mkandawile, Fredros O. Okumu, John P. Masalu, Hamis Bwanary, Halfan S. Ngowo, Alex J. Limwagu, Abdoulaye Diabaté, Emmanuel W. Kaindoa, and Japhet Kihonda

Subjects

0301 basic medicine, Veterinary medicine, Anopheles gambiae, 030231 tropical medicine, Swarming (honey bee), Medicine (miscellaneous), General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Spermatheca, parasitic diseases, Medicine, Sexual maturity, Malaria vector, biology, business.industry, musculoskeletal, neural, and ocular physiology, food and beverages, Swarm behaviour, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease, Vector control, 3. Good health, 030104 developmental biology, Tanzania, bacteria, business, Malaria

Abstract

Background: Malaria mosquitoes form mating swarms around sunset, often at the same locations for months or years. Unfortunately, studies of Anopheles swarms are rare in East Africa, the last recorded field observations in Tanzania having been in 1983. Methods: Mosquito swarms were surveyed by trained volunteers between August-2016 and June-2017 in Ulanga district, Tanzania. Identified Anopheles swarms were sampled using sweep nets, and collected mosquitoes killed by refrigeration then identified by sex and taxa. Sub-samples were further identified by PCR, and spermatheca of females examined for mating status. Mosquito ages were estimated by observing female ovarian tracheoles and rotation of male genitalia. GPS locations, types of swarm markers, start/end times of swarming, heights above ground, mosquito counts/swarm, and copulation events were recorded. Results: A total of 216 Anopheles swarms were identified, characterized and mapped, from which 7,142 Anopheles gambiae s.l and 13 Anopheles funestus were sampled. The An. gambiae s.l were 99.6% males and 0.4% females, while the An. funestus were all males. Of all An. gambiae s.l analyzed by PCR, 86.7% were An. arabiensis, while 13.3% returned non-amplified DNA. Mean height (±SD) of swarms was 2.74±0.64m, and median duration was 20 (IQR; 15-25) minutes. Confirmed swarm markers included rice fields (25.5%), burned grounds (17.2%), banana trees (13%), brick piles (8.8%), garbage heaps (7.9%) and ant-hills (7.4%). Visual estimates of swarm sizes by the volunteers was strongly correlated to actual sizes by sweep nets (R=0.94; P= Conclusions: This is the first report of Anopheles swarms in Tanzania in more than three decades. The study demonstrates that the swarms can be identified and characterized by trained community-based volunteers, and highlights potential new interventions, for example targeted aerosol spraying of the swarms to improve malaria control.

Published

2017

28. Crowdsourcing Vector Surveillance: Using Community Knowledge and Experiences to Predict Densities and Distribution of Outdoor-Biting Mosquitoes in Rural Tanzania

Author

Doreen J. Siria, Emmanuel W. Kaindoa, Alex J. Limwagu, Robert D. Sumaye, Fredros O. Okumu, and Stephen P. Mwangungulu

Subjects

Rural Population, Entomology, Mosquito Control, Geographic information system, Epidemiology, lcsh:Medicine, Marine and Aquatic Sciences, Distribution (economics), Disease Vectors, Tanzania, Mosquitoes, 0302 clinical medicine, Geoinformatics, Medicine and Health Sciences, 030212 general & internal medicine, lcsh:Science, Protozoans, Disease surveillance, Multidisciplinary, Geography, Ecology, Malarial Parasites, 3. Good health, Insects, Culex, Mosquito control, Infectious Diseases, Cartography, Research Article, Freshwater Environments, Computer and Information Sciences, Resource (biology), Arthropoda, Infectious Disease Control, 030231 tropical medicine, Disease Surveillance, Crowdsourcing, 03 medical and health sciences, Rivers, Anopheles, parasitic diseases, Parasitic Diseases, Animals, Humans, business.industry, lcsh:R, Ecology and Environmental Sciences, Organisms, Insect Bites and Stings, Biology and Life Sciences, Aquatic Environments, Bodies of Water, Tropical Diseases, Invertebrates, Vector control, Parasitic Protozoans, Insect Vectors, Malaria, Vector (epidemiology), Geographic Information Systems, Earth Sciences, lcsh:Q, business, Zoology

Abstract

Lack of reliable techniques for large-scale monitoring of disease-transmitting mosquitoes is a major public health challenge, especially where advanced geo-information systems are not regularly applicable. We tested an innovative crowd-sourcing approach, which relies simply on knowledge and experiences of residents to rapidly predict areas where disease-transmitting mosquitoes are most abundant. Guided by community-based resource persons, we mapped boundaries and major physical features in three rural Tanzanian villages. We then selected 60 community members, taught them basic map-reading skills, and offered them gridded maps of their own villages (grid size: 200m×200m) so they could identify locations where they believed mosquitoes were most abundant, by ranking the grids from one (highest density) to five (lowest density). The ranks were interpolated in ArcGIS-10 (ESRI-USA) using inverse distance weighting (IDW) method, and re-classified to depict areas people believed had high, medium and low mosquito densities. Finally, we used odor-baited mosquito traps to compare and verify actual outdoor mosquito densities in the same areas. We repeated this process for 12 months, each time with a different group of 60 residents. All entomological surveys depicted similar geographical stratification of mosquito densities in areas classified by community members as having high, medium and low vector abundance. These similarities were observed when all mosquito species were combined, and also when only malaria vectors were considered. Of the 12,412 mosquitoes caught, 60.9% (7,555) were from areas considered by community members as having high mosquito densities, 28% (3,470) from medium density areas, and 11.2% (1,387) from low density areas. This study provides evidence that we can rely on community knowledge and experiences to identify areas where mosquitoes are most abundant or least abundant, even without entomological surveys. This crowd-sourcing method could be further refined and validated to improve community-based planning of mosquito control operations at low-cost.

Published

2016

29. Linking human behaviours and malaria vector biting risk in south-eastern Tanzania.

Author

Marceline F Finda, Irene R Moshi, April Monroe, Alex J Limwagu, Anna P Nyoni, Johnson K Swai, Halfan S Ngowo, Elihaika G Minja, Lea P Toe, Emmanuel W Kaindoa, Maureen Coetzee, Lenore Manderson, and Fredros O Okumu

Subjects

Medicine, Science

Abstract

To accelerate malaria elimination in areas where core interventions such as insecticide-treated nets (ITNs) are already widely used, it is crucial to consider additional factors associated with persistent transmission. Qualitative data on human behaviours and perceptions regarding malaria risk was triangulated with quantitative data on Anopheles mosquito bites occurring indoors and outdoors in south-eastern Tanzania communities where ITNS are already used but lower level malaria transmission persists. Each night (18:00h-07:00h), trained residents recorded human activities indoors, in peri-domestic outdoor areas, and in communal gatherings. Host-seeking mosquitoes were repeatedly collected indoors and outdoors hourly, using miniaturized exposure-free double net traps (DN-Mini) occupied by volunteers. In-depth interviews were conducted with household representatives to explore perceptions on persistent malaria and its control. Higher proportions of people stayed outdoors than indoors in early-evening and early-morning hours, resulting in higher exposures outdoors than indoors during these times. However, exposure during late-night hours (22:00h-05:00h) occurred mostly indoors. Some of the popular activities that kept people outdoors included cooking, eating, relaxing and playing. All households had at least one bed net, and 83.9% of people had access to ITNs. Average ITN use was 96.3%, preventing most indoor exposure. Participants recorgnized the importance of ITNs but also noted that the nets were not perfect. No complementary interventions were reported being used widely. Most people believed transmission happens after midnight. We conclude that insecticide-treated nets, where properly used, can still prevent most indoor exposures, but significant risk continues unabated before bedtime, outdoors and at communal gatherings. Such exposure is greatest for rural and low-income households. There is therefore an urgent need for complementary interventions, particularly those targeting outdoor-biting and are applicable for all people including the marginalised populations such as migratory farmers and fishermen. Besides, the differences in community understanding of ongoing transmission, and feedback on imperfections of ITNs should be considered when updating malaria-related communication and interventions.

Published

2019