Your search keyword '"Yan, Guiyun"' showing total 2,317 results

251. Genetic Diversity and Lack of Artemisinin Selection Signature on the Plasmodium falciparum ATP6 in the Greater Mekong Subregion

Author

Miao, Miao, Wang, Zenglei, Yang, Zhaoqing, Yuan, Lili, Parker, Daniel M, Putaporntip, Chaturong, Jongwutiwes, Somchai, Xangsayarath, Phonepadith, Pongvongsa, Tiengkham, Moji, Hazuhiko, Dinh Tuong, Trinh, Abe, Tomoko, Nakazawa, Shusuke, Kyaw, Myat Phone, Yan, Guiyun, Sirichaisinthop, Jeeraphat, Sattabongkot, Jetsumon, Mu, Jianbing, Su, Xin-zhuan, Kaneko, Osamu, Cui, Liwang, and Pinto, João

Subjects

Serca-Type Pfatpase6, In-Vitro, Dna Polymorphism, Point Mutations, Nucleotide Substitutions, Combination Therapies, Mitochondrial-Dna, Resistant Malaria, S769n Mutation, Artesunate

Published

2013

252. Strongyloidiasis: An Emerging Infectious Disease in China

Author

Zhou, Xiaohong, James, Anthony A, Wang, Chunmei, Li, Juan, Chen, Xiaoguang, Yan, Guiyun, and Xu, Jiabao

Published

2013

253. Performance of two rapid diagnostic tests for malaria diagnosis at the China-Myanmar border area

Author

Yan, Juan, Li, Nana, Wei, Xu, Li, Peipei, Zhao, Zhenjun, Wang, Lili, Li, Siying, Li, Xiaomei, Wang, Ying, Li, Shuying, Yang, Zhaoqing, Zheng, Bin, Zhou, Guofa, Yan, Guiyun, Cui, Liwang, Cao, Yaming, and Fan, Qi

Abstract

Abstract Background Rapid diagnostic tests (RDTs) have become an essential tool in the contemporary malaria control and management programmes in the world. This study aims to evaluate the performance of two commonly used RDTs for malaria diagnosis in the China-Myanmar border area. Methods A total 606 febrile patients in the China-Myanmar border were recruited to this study and were diagnosed for malaria infections by microscopy, two RDTs tests (Pf/Pan device, and Pv/Pf device) and nested PCR. Results Malaria parasites were found in 143 patients by microscopy, of which 51, 73, and 19 were Plasmodium falciparum, Plasmodium vivax and P. falciparum/P. vivax mixed infections, respectively. Compared to microscopy, the sensitivity of the Pf/Pan device was 88.6% for P. falciparum and 69.9% for P. vivax with the specificity of 90.4%. For a subset of 350 patients, the sensitivity of the Pf/Pan device and Pv/Pf device for detection of P. falciparum was 87.5% and 91.7%, respectively; and for detection of P. vivax was 72.0% and 73.8%, respectively. The specificity of the Pf/Pan device and Pv/Pf device was 94.3% and 96.5%, respectively. Nested PCR detected malaria parasites in 174 of 606 samples, of which 67, 79, two and 26 were P. falciparum, P. vivax, P. ovale and P. falciparum/P. vivax mixed infections, respectively. Compared to nested PCR, all other methods had sensitivity below 80%, suggesting that a significant number of cases were missed. Conclusions Compared to PCR, both microscopy and RDTs had lower sensitivities. RDTs had similar performance to microscopy for P. falciparum diagnosis, but performed worse for P. vivax diagnosis. Other RDT products should be selected with higher sensitivity (and good specificity) for both P. falciparum and P. vivax diagnosis.

Published

2013

254. Utility of Health Facility-based Malaria Data for Malaria Surveillance

Author

Afrane, Yaw A, Zhou, Guofa, Githeko, Andrew K, and Yan, Guiyun

Subjects

Western Kenya Highlands, African Children, Transmission, Area, Management, Misdiagnosis, Pneumonia, Diagnosis, Mortality, Overlap

Published

2013

255. Relationship between Knockdown Resistance, Metabolic Detoxification and Organismal Resistance to Pyrethroids in Anopheles sinensis

Author

Zhong, Daibin, Chang, Xuelian, Zhou, Guofa, He, Zhengbo, Fu, Fengyang, Yan, Zhentian, Zhu, Guoding, Xu, Tielong, Bonizzoni, Mariangela, Wang, Mei-Hui, Cui, Liwang, Zheng, Bin, Chen, Bin, Yan, Guiyun, and Terenius, Olle

Subjects

Malaria Vector Mosquito, Gated Sodium-Channel, Triatoma-Infestans Hemiptera, Impregnated Bed Nets, Insecticide Resistance, Aedes-Aegypti, Molecular Characterization, Haematobia-Irritans, Central-Africa, Kdr Mutation

Published

2013

256. Alterations in Plasmodium falciparum Genetic Structure Two Years after Increased Malaria Control Efforts in Western Kenya

Author

Vardo-Zalik, Anne M, Zhou, Guofa, Zhong, Daibin, Afrane, Yaw A, Githeko, Andrew K, and Yan, Guiyun

Subjects

Rare Diseases, Vector-Borne Diseases, Infectious Diseases, Antimicrobial Resistance, Malaria, Genetics, 5.1 Pharmaceuticals, 2.2 Factors relating to the physical environment, Aetiology, Development of treatments and therapeutic interventions, Infection, Good Health and Well Being, Antimalarials, Drug Resistance, Humans, Kenya, Linkage Disequilibrium, Malaria, Falciparum, Mutation, Plasmodium falciparum, Medical and Health Sciences, Tropical Medicine

Abstract

The impact of malaria intervention measures (insecticide-treated net use and artemisinin combination therapy) on malaria genetics was investigated at two sites in western Kenya: an endemic lowland and an epidemic highland. The genetic structure of the parasite population was assessed by using microsatellites, and the prevalence of drug-resistant mutations was examined by using the polymerase chain reaction-restriction fragment length polymorphism method. Two years after intervention, genetic diversity remained high in both populations. A significant decrease in the prevalence of quintuple mutations conferring resistance to sulfadoxine-pyrimethamine was detected in both populations, but the mutation prevalence at codon 1246 of the Plasmodium falciparum multidrug resistance 1 gene had increased in the highland population. The decrease in sulfadoxine-pyrimethamine-resistant mutants is encouraging, but the increase in P. falciparum multidrug resistance 1 gene mutations is worrisome because these mutations are linked to resistance to other antimalarial drugs. In addition, the high level of genetic diversity observed after intervention suggests transmission is still high in each population.

Published

2013

257. Plasmodium falciparum populations from northeastern Myanmar display high levels of genetic diversity at multiple antigenic loci

Author

Yuan, Lili, Zhao, Hui, Wu, Lanou, Li, Xiaomei, Parker, Daniel, Xu, Shuhui, Zhao, Yousheng, Feng, Guohua, Wang, Ying, Yan, Guiyun, Fan, Qi, Yang, Zhaoqing, and Cui, Liwang

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Clinical Sciences, Medical Microbiology, Vector-Borne Diseases, Prevention, Rare Diseases, Infectious Diseases, HIV/AIDS, Malaria, Biotechnology, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Adolescent, Adult, Aged, Antigens, Protozoan, Child, Child, Preschool, China, Coinfection, Female, Genetic Variation, Genotype, Humans, Malaria, Falciparum, Male, Merozoite Surface Protein 1, Middle Aged, Myanmar, Plasmodium falciparum, Prevalence, Protozoan Proteins, Young Adult, Antigenic diversity, Border malaria, Multiplicity of infection, Medical and Health Sciences, Tropical Medicine, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Levels of genetic diversity of the malaria parasites and multiclonal infections are correlated with transmission intensity. In order to monitor the effect of strengthened malaria control efforts in recent years at the China-Myanmar border area, we followed the temporal dynamics of genetic diversity of three polymorphic antigenic markers msp1, msp2, and glurp in the Plasmodium falciparum populations. Despite reduced malaria prevalence in the region, parasite populations exhibited high levels of genetic diversity. Genotyping 258 clinical samples collected in four years detected a total of 22 PCR size alleles. Multiclonal infections were detected in 45.7% of the patient samples, giving a minimum multiplicity of infection of 1.41. The majority of alleles experienced significant temporal fluctuations through the years. Haplotype diversity based on the three-locus genotypes ranged from the lowest in 2009 at 0.33 to the highest in 2010 at 0.80. Sequencing of msp1 fragments from 36 random samples of five allele size groups detected 13 different sequences, revealing an additional layer of genetic complexity. This study suggests that despite reduced prevalence of malaria infections in this region, the parasite population size and transmission intensity remained high enough to allow effective genetic recombination of the parasites and continued maintenance of genetic diversity.

Published

2013

258. Anopheline Larval Habitats Seasonality and Species Distribution: A Prerequisite for Effective Targeted Larval Habitats Control Programmes

Author

Kweka, Eliningaya J, Zhou, Guofa, Munga, Stephen, Lee, Ming-Chieh, Atieli, Harrysone E, Nyindo, Mramba, Githeko, Andrew K, Yan, Guiyun, and Turrens, Julio Francisco

Subjects

western kenya highlands, gambiae complex mosquitos, insecticide-treated nets, dar-es-salaam, rice fields, land-cover, malaria transmission, microbial larvicides, usambara mountains, immature stages

Published

2012

259. Population genetics of the malaria vector Anopheles aconitus in China and Southeast Asia

Author

Chen, Bin, Harbach, Ralph E, Walton, Catherine, He, Zhengbo, Zhong, Daibin, Yan, Guiyun, and Butlin, Roger K

Subjects

Biological Sciences, Ecology, Genetics, Rare Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Animals, Anopheles, Asia, Southeastern, China, Electron Transport Complex IV, Evolution, Molecular, Female, Genes, Insect, Genetic Variation, Genetics, Population, Haplotypes, Insect Vectors, Malaria, Phylogeny, Anopheles aconitus, Subspecies, Population structure, Demographic expansion, mtDNA, rDNA, Microbiology, Bioinformatics and computational biology

Abstract

Anopheles aconitus is a well-known vector of malaria and is broadly distributed in the Oriental Region, yet there is no information on its population genetic characteristics. In this study, the genetic differentiation among populations was examined using 140 mtDNA COII sequences from 21 sites throughout Southern China, Myanmar, Vietnam, Thailand, Laos and Sri Lanka. The population in Sri Lanka has characteristic rDNA D3 and ITS2, mtDNA COII and ND5 haplotypes, and may be considered a distinct subspecies. Clear genetic structure was observed with highly significant genetic variation present among population groups in Southeast Asia. The greatest genetic diversity exists in Yunnan and Myanmar population groups. All population groups are significantly different from one another in pairwise Fst values, except Northern Thailand with Central Thailand. Mismatch distributions and extremely significant F(s) values suggest that the populations passed through a recent demographic expansion. These patterns are discussed in relation to the likely biogeographic history of the region and compared to other Anopheles species.

Published

2012

260. The ecology of mosquitoes in an irrigated vegetable farm in Kumasi, Ghana: abundance, productivity and survivorship

Author

Afrane, Yaw A, Lawson, Bernard W, Brenya, Ruth, Kruppa, Thomas, and Yan, Guiyun

Abstract

Abstract Background Irrigated vegetable farms within the city of Kumasi, Ghana, create hotspots for the breeding of malaria vectors, which could lead to high transmission of malaria. This study investigated the abundance and productivity of mosquitoes in an irrigated vegetable farm in Kumasi, Ghana. Methods Adult mosquito productivity was estimated five days in a week in different irrigated scheme types (dug-out wells, furrows and footprints) for 12 weeks using emergence traps. Larval sampling was done five days a week to estimate the abundance of larvae from the different irrigated schemes types. Results Mosquito breeding in the irrigated vegetable field was confined to dug-out wells, furrows and human footprints. Mosquito productivity (m2/week) was highest in the dugout wells followed by the human footprints and the least was in the furrows (11.23, 5.07 and 4.34 An. gambiae/m2/week). Larval abundance for the late instars (3rd, 4th and pupae) also followed the same trend, with the dug-out wells having the highest larval abundance followed by the human footprints and then the furrows (13.24, 6.81, 5.87 larvae/week). Mosquito productivity and abundance was negatively correlated with rainfall (R2 = 0.209; P< 0.01). Conclusion This study showed that adult and larval mosquito abundance and larval survival were high in the irrigated fields in the irrigated vegetable farm. This therefore, contributed significantly to adult mosquito populations and hence malaria transmission in the city.

Published

2012

261. Variation in exposure to Anopheles gambiae salivary gland peptide (gSG6-P1) across different malaria transmission settings in the western Kenya highlands

Author

Badu, Kingsley, Siangla, Joram, Larbi, John, Lawson, Bernard W, Afrane, Yaw, Ong’echa, John, Remoue, Franck, Zhou, Guofa, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background The existing metrics of malaria transmission are limited in sensitivity under low transmission intensity. Robust surveillance systems are needed as interventions to monitor reduced transmission and prevention of rapid reintroduction. Serological tools based on antibody responses to parasite and vector antigens are potential tools for transmission measurements. The current study sought to evaluate antibody responses to Anopheles gambiae salivary gland peptide (gSG6- P1), as a biomarker of human exposure to Anopheles bites, in different transmission settings and seasons. The comparison between anti-MSP-119 IgG immune responders and non-responders allowed exploring the robustness of the gSG6-P1 peptide as a surveillance tool in an area of decreasing malaria transmission. Methods Total IgG levels to gSG6-P1 were measured in an age-stratified cohort (< 5, 5–14 and ≥ 15 years) in a total of 1,366 participants from three localities in western Kenya [Kisii (hypoendemic), Kakamega (mesoendemic), and Kombewa (hyperendemic)] including 607 sera that were additionally tested for MSP-119 specific responses during a low and a high malaria transmission seasons. Antibody prevalence and levels were compared between localities with different transmission intensities. Regression analysis was performed to examine the association between gSG6-P1 and MSP-119 seroprevalence and parasite prevalence. Result Seroprevalence of gSG6-P1 in the uphill population was 36% while it was 50% valley bottom (χ2 = 13.2, df = 1, p

Published

2012

262. Comparative Transcriptome Analyses of Deltamethrin-Resistant and -Susceptible Anopheles gambiae Mosquitoes from Kenya by RNA-Seq

Author

Bonizzoni, Mariangela, Afrane, Yaw, Dunn, William Augustine, Atieli, Francis K., Zhou, Goufa, Zhong, Daibin, Li, Jun, Githeko, Andrew, and Yan, Guiyun

Subjects

malaria vector, insecticide resistance, knockdown resistance, pyrethroid resistance, gene-expression, aedes-aegypti, reduced susceptibility, permethrin resistance, southern benin, r consensus

Abstract

Malaria causes more than 300 million clinical cases and 665,000 deaths each year, and the majority of the mortality and morbidity occurs in sub-Saharan Africa. Due to the lack of effective vaccines and wide-spread resistance to antimalarial drugs, mosquito control is the primary method of malaria prevention and control. Currently, malaria vector control relies on the use of insecticides, primarily pyrethroids. The extensive use of insecticides has imposed strong selection pressures for resistance in the mosquito populations. Consequently, resistance to pyrethroids in Anopheles gambiae, the main malaria vector in sub-Saharan Africa, has become a major obstacle for malaria control. A key element of resistance management is the identification of resistance mechanisms and subsequent development of reliable resistance monitoring tools. Field-derived An. gambiae from Western Kenya were phenotyped as deltamethrin-resistant or -susceptible by the standard WHO tube test, and their expression profile compared by RNA-seq. Based on the current annotation of the An. gambiae genome, a total of 1,093 transcripts were detected as significantly differentially accumulated between deltamethrin-resistant and -susceptible mosquitoes. These transcripts are distributed over the entire genome, with a large number mapping in QTLs previously linked to pyrethorid resistance, and correspond to heat-shock proteins, metabolic and transport functions, signal transduction activities, cytoskeleton and others. The detected differences in transcript accumulation levels between resistant and susceptible mosquitoes reflect transcripts directly or indirectly correlated with pyrethroid resistance. RNA-seq data also were used to perform a de-novo Cufflinks assembly of the An. gambiae genome.

Published

2012

263. Longitudinal in vitro surveillance of Plasmodiumfalciparum sensitivity to common anti-malarials inThailand between 1994 and 2010

Author

Parker, Daniel, Lerdprom, Rujira, Srisatjarak, Wanna, Yan, Guiyun, Sattabongkot, Jetsumon, Wood, James, Sirichaisinthop, Jeeraphat, and Cui, Liwang

Abstract

Abstract Background Drug and multidrug-resistant Plasmodium falciparum malaria has existed in Thailand for several decades. Furthermore, Thailand serves as a sentinel for drug-resistant malaria within the Greater Mekong sub-region. However, the drug resistance situation is highly dynamic, changing quickly over time. Here parasite in vitro drug sensitivity is reported for artemisinin derivatives, mefloquine, chloroquine and quinine, across Thailand. Methods Blood was drawn from patients infected with P. falciparum in seven sentinel provinces along Thai international borders with Cambodia, Myanmar, Laos, and Malaysia. In vitro parasite sensitivity was tested using the World Health Organization’s microtest (mark III) (between 1994 and 2002) and the histidine-rich protein-2 (HRP2)-based enzyme-linked immunosorbent assay (in 2010). Following World Health Organization protocol, at least 30 isolates were collected for each province and year represented in this study. Where possible, t-tests were used to test for significant differences. Results There appears to be little variation across study sites with regard to parasite sensitivity to chloroquine. Quinine resistance appears to have been rising prior to 1997, but has subsequently decreased. Mefloquine sensitivity appears high across the provinces, especially along the north-western border with Myanmar and the eastern border with Cambodia. Finally, the data suggest that parasite sensitivity to artemisinin and its derivatives is significantly higher in provinces along the north-western border with Myanmar. Conclusions Parasite sensitivity to anti-malarials in Thailand is highly variable over time and largely mirrors official drug use policy. The findings with regard to reduced sensitivity to artemisinin derivatives are supported by recent reports of reduced parasite clearance associated with artemisinin. This trend is alarming since artemisinin is considered the last defence against malaria. Continued surveillance in Thailand, along with increased collaboration and surveillance across the entire Greater Mekong sub-region, is clearly warranted.

Published

2012

264. A Low-Cost Microfluidic Chip for Rapid Genotyping of Malaria-Transmitting Mosquitoes

Author

Liu, Changchun, Mauk, Michael G, Hart, Robert, Bonizzoni, Mariangela, Yan, Guiyun, Bau, Haim H, and Michel, Kristin

Subjects

mediated isothermal amplification, anopheles-gambiae complex, polymerase-chain-reaction, sample preparation, identification, dna, vectors, cards, differentiation, polymorphism

Published

2012

265. Effect of swamp cultivation on distribution of anopheline larval habitats in Western Kenya.

Author

Omukunda, Elizabeth, Githeko, Andrew, Ndong A, Millicent F, Mushinzimana, Emmanuel, and Yan, Guiyun

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Rare Diseases, Infectious Diseases, Vector-Borne Diseases, Malaria, Infection, Good Health and Well Being, Agriculture, Animals, Anopheles, Ecosystem, Humans, Kenya, Larva, Phylogeography, Seasons, Wetlands, Tropical Medicine, Medical microbiology

Abstract

Background & objectivesMalaria resurgence in highland regions of East Africa has been on increase. The spatio-temporal distribution of larval habitats of malaria vectors determines the distribution of adult vectors, hence, disease transmission. Vector's ecology is necessary for strategic vector control through effective plan for source reduction. Mapping of the larval habitats is necessary for targeted control measures. The purpose of this study is to assess and compare the spatial and seasonal variations in anopheline larval habitats in Western Kenya.MethodsA comparative study was conducted on spatial distribution of GPS geo-located anopheline larval habitats in relation to highland and lowland environments. Land use types were categorized and all potential aquatic habitats of malaria vectors were examined in February, May, August and November 2004. Data analyses were performed using SAS JMP software.Results & discussionResults showed a higher percentage of Anopheles gambiae s.s. (70.9%) than An. funestus (29.1%) in highland. In the lowland, An. gambiae s.l. comprised 60.1% while An. funestus represented 39.9%. The distribution of larval breeding is confined to the valley bottom in the highland while it was dispersed in the lowland. Land use type influenced the occurrence of positive breeding habitats in the highland. In the lowland, distribution was due to seasonality. We found high proportion of potential and positive breeding sites in cultivated swamps and farmlands at the highland site. These results suggest that swamp cultivation increases the availability and suitability of larval breeding habitats of malaria vectors, thus malaria transmission in the Western Kenya highlands environment.

Published

2012

266. Challenges and prospects for malaria elimination in the Greater Mekong Subregion

Author

Cui, Liwang, Yan, Guiyun, Sattabongkot, Jetsumon, Chen, Bin, Cao, Yaming, Fan, Qi, Parker, Daniel, Sirichaisinthop, Jeeraphat, Su, Xin-zhuan, Yang, Henglin, Yang, Zhaoqing, Wang, Baomin, and Zhou, Guofa

Subjects

Malaria, Rare Diseases, Vector-Borne Diseases, Infectious Diseases, Infection, Good Health and Well Being, Animals, Antimalarials, Artemisinins, Asia, Southeastern, Disease Eradication, Drug Resistance, Humans, Insect Vectors, Insecticides, Malaria, Falciparum, National Health Programs, Plasmodium falciparum, Research, Research Design, Workforce, The Greater Mekong Subregion, Epidemiology, Vector systems, Drug resistance, Counterfeit drugs, Biological Sciences, Medical and Health Sciences, Tropical Medicine

Abstract

Despite significant improvement in the malaria situation of the Greater Mekong Subregion (GMS), malaria control for the region continues to face a multitude of challenges. The extremely patchy malaria distribution, especially along international borders, makes disease surveillance and targeted control difficult. The vector systems are also diverse with dramatic differences in habitat ecology, biting behavior, and vectorial capacity, and there is a lack of effective transmission surveillance and control tools. Finally, in an era of heavy deployment of artemisinin-based combination therapies, the region acts as an epicenter of drug resistance, with the emergence of artemisinin resistant Plasmodium falciparum posing a threat to both regional and global malaria elimination campaigns. This problem is further exacerbated by the circulation of counterfeit and substandard artemisinin drugs. Accordingly, this Southeast Asian Malaria Research Center, consisting of a consortium of US and regional research institutions, has proposed four interlinked projects to address these most urgent problems in malaria control. The aims of these projects will help to substantially improve our understanding of malaria epidemiology, vector systems and their roles in malaria transmission, as well as the mechanisms of drug resistance in parasites. Through the training of next-generation scientists in malaria research, this program will help build up and strengthen regional research infrastructure and capacities, which are essential for sustained malaria control in this region.

Published

2012

267. Malaria in the Greater Mekong Subregion: heterogeneity and complexity.

Author

Cui, Liwang, Yan, Guiyun, Sattabongkot, Jetsumon, Cao, Yaming, Chen, Bin, Chen, Xiaoguang, Fan, Qi, Fang, Qiang, Jongwutiwes, Somchai, Parker, Daniel, Sirichaisinthop, Jeeraphat, Kyaw, Myat Phone, Su, Xin-zhuan, Yang, Henglin, Yang, Zhaoqing, Wang, Baomin, Xu, Jianwei, Zheng, Bin, Zhong, Daibin, and Zhou, Guofa

Subjects

Animals, Humans, Anopheles, Plasmodium, Malaria, Pyrethrins, Antimalarials, Insect Vectors, Mosquito Control, Drug Resistance, Multiple, Insecticide Resistance, International Cooperation, Asia, Southeastern, Insecticide-Treated Bednets, Disease Eradication, The Greater Mekong Subregion, Epidemiology, Anopheles vectors, Drug resistance, Border malaria, Elimination, Tropical Medicine, Medical and Health Sciences, Biological Sciences

Abstract

The Greater Mekong Subregion (GMS), comprised of six countries including Cambodia, China's Yunnan Province, Lao PDR, Myanmar (Burma), Thailand and Vietnam, is one of the most threatening foci of malaria. Since the initiation of the WHO's Mekong Malaria Program a decade ago, malaria situation in the GMS has greatly improved, reflected in the continuous decline in annual malaria incidence and deaths. However, as many nations are moving towards malaria elimination, the GMS nations still face great challenges. Malaria epidemiology in this region exhibits enormous geographical heterogeneity with Myanmar and Cambodia remaining high-burden countries. Within each country, malaria distribution is also patchy, exemplified by 'border malaria' and 'forest malaria' with high transmission occurring along international borders and in forests or forest fringes, respectively. 'Border malaria' is extremely difficult to monitor, and frequent malaria introductions by migratory human populations constitute a major threat to neighboring, malaria-eliminating countries. Therefore, coordination between neighboring countries is essential for malaria elimination from the entire region. In addition to these operational difficulties, malaria control in the GMS also encounters several technological challenges. Contemporary malaria control measures rely heavily on effective chemotherapy and insecticide control of vector mosquitoes. However, the spread of multidrug resistance and potential emergence of artemisinin resistance in Plasmodium falciparum make resistance management a high priority in the GMS. This situation is further worsened by the circulation of counterfeit and substandard artemisinin-related drugs. In most endemic areas of the GMS, P. falciparum and Plasmodium vivax coexist, and in recent malaria control history, P. vivax has demonstrated remarkable resilience to control measures. Deployment of the only registered drug (primaquine) for the radical cure of vivax malaria is severely undermined due to high prevalence of glucose-6-phosphate dehydrogenase deficiency in target human populations. In the GMS, the dramatically different ecologies, diverse vector systems, and insecticide resistance render traditional mosquito control less efficient. Here we attempt to review the changing malaria epidemiology in the GMS, analyze the vector systems and patterns of malaria transmission, and identify the major challenges the malaria control community faces on its way to malaria elimination.

Published

2012

268. Marked variation in MSP-119 antibody responses to malaria in western Kenyan highlands

Author

Badu, Kingsley, Afrane, Yaw, Larbi, John, Stewart, Virginia, Waitumbi, John, Angov, Evelina, Ong'echa, John M, Perkins, Douglas J, Zhou, Guofa, Githeko, Andrew, and Yan, Guiyun

Abstract

Abstract Background Assessment of malaria endemicity at different altitudes and transmission intensities, in the era of dwindling vector densities in the highlands, will provide valuable information for malaria control and surveillance. Measurement of serum anti-malarial antibodies is a useful marker of malaria exposure that indicates long-term transmission potential. We studied the serologic evidence of malaria endemicity at two highland sites along a transmission intensity cline. An improved understanding of the micro-geographic variation in malaria exposure in the highland ecosystems will be relevant in planning effective malaria control. Methods Total IgG levels to Plasmodium falciparum MSP-119 were measured in an age-stratified cohort (< 5, 5-14 and ≥ 15 years) in 795 participants from an uphill and valley bottom residents during low and high malaria transmission seasons. Antibody prevalence and level was compared between different localities. Regression analysis was performed to examine the association between antibody prevalence and parasite prevalence. Age-specific MSP-119 seroprevalence data was fitted to a simple reversible catalytic model to investigate the relationship between parasite exposure and age. Results Higher MSP-119 seroprevalence and density were observed in the valley residents than in the uphill dwellers. Adults (> 15 years) recorded high and stable immune response in spite of changing seasons. Lower responses were observed in children (≤ 15 years), which, fluctuated with changing seasons particularly in the valley residents. In the uphill population, annual seroconversion rate (SCR) was 8.3% and reversion rate was 3.0%, with seroprevalence reaching a plateau of 73.3% by age of 20. Contrary, in the valley bottom population, the annual SCR was 35.8% and the annual seroreversion rate was 3.5%, and seroprevalence in the population had reached 91.2% by age 10. Conclusion The study reveals the micro-geographic variation in malaria endemicity in the highland eco-system; this validates the usefulness of sero-epidemiological tools in assessing malaria endemicity in the era of decreasing sensitivity of conventional tools.

Published

2012

269. Effects of co-habitation between Anopheles gambiae s.s. and Culex quinquefasciatus aquatic stages on life history traits

Author

Kweka, Eliningaya J, Zhou, Goufa, Beilhe, Leila B, Dixit, Amruta, Afrane, Yaw, Gilbreath, Thomas M, Munga, Stephen, Nyindo, Mramba, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background The effective measures for the control of malaria and filariasis vectors can be achieved by targeting immature stages of anopheline and culicine mosquitoes in productive habitat. To design this strategy, the mechanisms (like biotic interactions with conspecifc and heterospecific larvae) regulating mosquito aquatic stages survivorship, development time and the size of emerging adults should be understood. This study explored the effect of co-habitation between An. gambiae s.s. and Cx. quinquefasciatus on different life history traits of both species under different densities and constant food supply in the habitats of the same size under semi-natural conditions. Methods Experiments were set up with three combinations; Cx. quinquefasciatus alone (single species treatment), An. gambiae s.s. alone (single species treatment); and An. gambiae s.s. with Cx. quiquefasciatus (co-habitation treatment) in different densities in semi field situation. Results The effect of co-habitation of An. gambiae s.s. and Cx. quinquefasciatus was found to principally affect three parameters. The wing-lengths (a proxy measure of body size) of An. gambiae s.s. in co-habitation treatments were significantly shorter in both females and males than in An. gambiae s.s single species treatments. In Cx. quinquefasciatus, no significant differences in wing-length were observed between the single species and co-habitation treatments. Daily survival rates were not significantly different between co-habitation and single species treatments for both An. gambiae s.s. and Cx. quinquefasciatus. Developmental time was found to be significantly different with single species treatments developing better than co-habitation treatments. Sex ratio was found to be significantly different from the proportion of 0.5 among single and co-habitation treatments species at different densities. Single species treatments had more males than females emerging while in co-habitation treatments more females emerged than males. In this study, there was no significant competitive survival advantage in co-habitation. Conclusion These results suggest that co-habitation of An. gambiae s.s. and Cx. quinquefasciatus in semi-natural conditions affect mostly An. gambiae s.s. body size. Hence, more has to be understood on the effects of co-habitation of An. gambiae s.s. and Cx. quinquefasciatus in a natural ecology and its possible consequences in malaria and filariasis epidemiology.

Published

2012

270. Long-lasting microbial larvicides for controlling insecticide resistant and outdoor transmitting vectors: a cost-effective supplement for malaria interventions

Author

Zhou, Guofa, Lo, Eugenia, Githeko, Andrew K., Afrane, Yaw A., and Yan, Guiyun

Published

2020

271. Impact of sugarcane irrigation on malaria vector Anopheles mosquito fauna, abundance and seasonality in Arjo-Didessa, Ethiopia

Author

Demissew, Assalif, Hawaria, Dawit, Kibret, Solomon, Animut, Abebe, Tsegaye, Arega, Lee, Ming-Cheih, Yan, Guiyun, and Yewhalaw, Delenasaw

Published

2020

272. Topography as a modifier of breeding habitats and concurrent vulnerability to malaria risk in the western Kenya highlands

Author

Atieli, Harrysone E, Zhou, Guofa, Lee, Ming-Chieh, Kweka, Eliningaya J, Afrane, Yaw, Mwanzo, Isaac, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background Topographic parameters such as elevation, slope, aspect, and ruggedness play an important role in malaria transmission in the highland areas. They affect biological systems, such as larval habitats presence and productivity for malaria mosquitoes. This study investigated whether the distribution of local spatial malaria vectors and risk of infection with malaria parasites in the highlands is related to topography. Methods Four villages each measuring 9 Km2 lying between 1400-1700 m above sea level in the western Kenya highlands were categorized into a pair of broad and narrow valley shaped terrain sites. Larval, indoor resting adult malaria vectors and infection surveys were collected originating from the valley bottom and ending at the hilltop on both sides of the valley during the rainy and dry seasons. Data collected at a distance of ≤500 m from the main river/stream were categorized as valley bottom and those above as uphill. Larval surveys were categorized by habitat location while vectors and infections by house location. Results Overall, broad flat bottomed valleys had a significantly higher number of anopheles larvae/dip in their habitats than in narrow valleys during both the dry (1.89 versus 0.89 larvae/dip) and the rainy season (1.66 versus 0.89 larvae/dip). Similarly, vector adult densities/house in broad valley villages were higher than those within narrow valley houses during both the dry (0.64 versus 0.40) and the rainy season (0.96 versus 0.09). Asymptomatic malaria prevalence was significantly higher in participants residing within broad than those in narrow valley villages during the dry (14.55% vs. 7.48%) and rainy (17.15% vs. 1.20%) season. Malaria infections were wide spread in broad valley villages during both the dry and rainy season, whereas over 65% of infections were clustered at the valley bottom in narrow valley villages during both seasons. Conclusion Despite being in the highlands, local areas within low gradient topography characterized by broad valley bottoms have stable and significantly high malaria risk unlike those with steep gradient topography, which exhibit seasonal variations. Topographic parameters could therefore be considered in identification of high-risk malaria foci to help enhance surveillance or targeted control activities in regions where they are most needed.

Published

2011

273. Genome-Wide Transcriptional Analysis of Genes Associated with Acute Desiccation Stress in Anopheles gambiae

Author

Wang, Mei-Hui, Marinotti, Osvaldo, Vardo-Zalik, Anne, Boparai, Rajni, and Yan, Guiyun

Subjects

dry season, drosophila-melanogaster, malaria transmission, dna-repair, chromosomal inversion, oxidative stress, pea aphid, expression, adaptation, resistance

Abstract

Malaria transmission in sub-Saharan Africa varies seasonally in intensity. Outbreaks of malaria occur after the beginning of the rainy season, whereas, during the dry season, reports of the disease are less frequent. Anopheles gambiae mosquitoes, the main malaria vector, are observed all year long but their densities are low during the dry season that generally lasts several months. Aestivation, seasonal migration, and local adaptation have been suggested as mechanisms that enable mosquito populations to persist through the dry season. Studies of chromosomal inversions have shown that inversions 2La, 2Rb, 2Rc, 2Rd, and 2Ru are associated with various physiological changes that confer aridity resistance. However, little is known about how phenotypic plasticity responds to seasonally dry conditions. This study examined the effects of desiccation stress on transcriptional regulation in An. gambiae. We exposed female An. gambiae G3 mosquitoes to acute desiccation and conducted a genome-wide analysis of their transcriptomes using the Affymetrix Plasmodium/Anopheles Genome Array. The transcription of 248 genes (1.7% of all transcripts) was significantly affected in all experimental conditions, including 96 with increased expression and 152 with decreased expression. In general, the data indicate a reduction in the metabolic rate of mosquitoes exposed to desiccation. Transcripts accumulated at higher levels during desiccation are associated with oxygen radical detoxification, DNA repair and stress responses. The proportion of transcripts within 2La and 2Rs (2Rb, 2Rc, 2Rd, and 2Ru) (67/248, or 27%) is similar to the percentage of transcripts located within these inversions (31%). These data may be useful in efforts to elucidate the role of chromosomal inversions in aridity tolerance. The scope of application of the anopheline genome demonstrates that examining transcriptional activity in relation to genotypic adaptations greatly expands the number of candidate regions involved in the desiccation response in this important malaria vector.

Published

2011

274. Dynamic Gut Microbiome across Life History of the Malaria Mosquito Anopheles gambiae in Kenya

Author

Wang, Ying, Gilbreath, Thomas M., Kukutla, Phanidhar, Yan, Guiyun, and Xu, Jiannong

Subjects

nitric-oxide dioxygenase, meconial peritrophic membranes, escherichia-coli, midgut bacteria, sporogonic development, thorsellia-anophelis, transcription factor, parasite infection, pseudomonas-putida, diptera-culicidae

Abstract

The mosquito gut represents an ecosystem that accommodates a complex, intimately associated microbiome. It is increasingly clear that the gut microbiome influences a wide variety of host traits, such as fitness and immunity. Understanding the microbial community structure and its dynamics across mosquito life is a prerequisite for comprehending the symbiotic relationship between the mosquito and its gut microbial residents. Here we characterized gut bacterial communities across larvae, pupae and adults of Anopheles gambiae reared in semi-natural habitats in Kenya by pyrosequencing bacterial 16S rRNA fragments. Immatures and adults showed distinctive gut community structures. Photosynthetic Cyanobacteria were predominant in the larval and pupal guts while Proteobacteria and Bacteroidetes dominated the adult guts, with core taxa of Enterobacteriaceae and Flavobacteriaceae. At the adult stage, diet regime (sugar meal and blood meal) significantly affects the microbial structure. Intriguingly, blood meals drastically reduced the community diversity and favored enteric bacteria. Comparative genomic analysis revealed that the enriched enteric bacteria possess large genetic redox capacity of coping with oxidative and nitrosative stresses that are associated with the catabolism of blood meal, suggesting a beneficial role in maintaining gut redox homeostasis. Interestingly, gut community structure was similar in the adult stage between the field and laboratory mosquitoes, indicating that mosquito gut is a selective eco-environment for its microbiome. This comprehensive gut metatgenomic profile suggests a concerted symbiotic genetic association between gut inhabitants and host.

Published

2011

275. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 April 2011–31 May 2011

Author

Consortium, Molecular Ecology Resources Primer Development, BONIZZONI, MARIANGELA, BOURJEA, JÉRÔME, CHEN, BIN, CRAIN, BJ, CUI, LIWANG, FIORENTINO, V, HARTMANN, S, HENDRICKS, S, KETMAIER, V, MA, XIAOGUANG, MUTHS, DELPHINE, PAVESI, L, PFAUTSCH, S, RIEGER, MA, SANTONASTASO, T, SATTABONGKOT, JETSUMON, TARON, CH, TARON, DJ, TIEDEMANN, R, YAN, GUIYUN, ZHENG, BIN, and ZHONG, DAIBIN

Subjects

Biological Sciences, Ecology, Genetics, Amphipoda, Animals, Anopheles, Databases, Genetic, Gastropoda, Genetic Markers, Microsatellite Repeats, Moths, Perciformes, Molecular Ecology Resources Primer Development Consortium, Evolutionary Biology, Biological sciences

Abstract

This article documents the addition of 92 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Anopheles minimus, An. sinensis, An. dirus, Calephelis mutica, Lutjanus kasmira, Murella muralis and Orchestia montagui. These loci were cross-tested on the following species: Calephelis arizonensi, Calephelis borealis, Calephelis nemesis, Calephelis virginiensis and Lutjanus bengalensis.

Published

2011

276. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 April 2011-31 May 2011.

Author

Molecular Ecology Resources Primer Development Consortium, Bonizzoni, Mariangela, Bourjea, Jérôme, Chen, Bin, Crain, BJ, Cui, Liwang, Fiorentino, V, Hartmann, S, Hendricks, S, Ketmaier, V, Ma, Xiaoguang, Muths, Delphine, Pavesi, L, Pfautsch, S, Rieger, MA, Santonastaso, T, Sattabongkot, Jetsumon, Taron, CH, Taron, DJ, Tiedemann, R, Yan, Guiyun, Zheng, Bin, and Zhong, Daibin

Subjects

Molecular Ecology Resources Primer Development Consortium, Animals, Perciformes, Amphipoda, Anopheles, Moths, Genetic Markers, Microsatellite Repeats, Databases, Genetic, Gastropoda, Evolutionary Biology, Biological Sciences

Abstract

This article documents the addition of 92 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Anopheles minimus, An. sinensis, An. dirus, Calephelis mutica, Lutjanus kasmira, Murella muralis and Orchestia montagui. These loci were cross-tested on the following species: Calephelis arizonensi, Calephelis borealis, Calephelis nemesis, Calephelis virginiensis and Lutjanus bengalensis.

Published

2011

277. Genetic diversity of Plasmodium vivax malaria in China and Myanmar

Author

Zhong, Daibin, Bonizzoni, Mariangela, Zhou, Guofa, Wang, Guangze, Chen, Bin, Vardo-Zalik, Anne, Cui, Liwang, Yan, Guiyun, and Zheng, Bin

Subjects

Biological Sciences, Genetics, Infectious Diseases, Vector-Borne Diseases, Rare Diseases, Biotechnology, Prevention, Malaria, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Antigens, Protozoan, China, Endemic Diseases, Gene Frequency, Genetic Variation, Genotype, Humans, Malaria, Vivax, Myanmar, Phylogeny, Phylogeography, Plasmodium vivax, Polymorphism, Restriction Fragment Length, Protozoan Proteins, Merozoite surface protein, Diversity, Mixed strain infection, Asia, Microbiology, Bioinformatics and computational biology

Abstract

Genetic diversity and population structure of Plasmodium vivax parasites are valuable to the prediction of the origin and spread of novel variants within and between populations, and to the program evaluation of malaria control measures. Using two polymorphic genetic markers, the merozoite surface protein genes PvMSP-3α and PvMSP-3β, we investigated the genetic diversity of four Southeast Asian P. vivax populations, representing both subtropical and temperate strains with dramatically divergent relapse patterns. PCR amplification of PvMSP-3α and PvMSP-3β genes detected three and four major size polymorphisms among the 235 infections examined, respectively, while restriction analysis detected 15 and 19 alleles, respectively. Samples from different geographical areas differed dramatically in their PvMSP-3α and PvMSP-3β allele composition and frequency. Samples tended to cluster on the basis of their PCR-RFLP polymorphism. These results indicated that different parasite genotypes were circulating in each endemic area, and that geographic isolation may exist. Multiple infections were detected in all four parasite populations, ranging from 20.5% to 31.8%, strongly indicating that P. vivax populations were highly diverse and multiple clonal infections are common in these malaria-hypoendemic regions of Southeast Asia.

Published

2011

278. Predation efficiency of Anopheles gambiae larvae by aquatic predators in western Kenya highlands

Author

Kweka, Eliningaya J, Zhou, Guofa, Gilbreath, Thomas M, Afrane, Yaw, Nyindo, Mramba, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background The current status of insecticide resistance in mosquitoes and the effects of insecticides on non-target insect species have raised the need for alternative control methods for malaria vectors. Predation has been suggested as one of the important regulation mechanisms for malaria vectors in long-lasting aquatic habitats, but the predation efficiency of the potential predators is largely unknown in the highlands of western Kenya. In the current study, we examined the predation efficiency of five predators on Anopheles gambiae s.s larvae in 24 hour and semi- field evaluations. Methods Predators were collected from natural habitats and starved for 12 hours prior to starting experiments. Preliminary experiments were conducted to ascertain the larval stage most predated by each predator species. When each larval instar was subjected to predation, third instar larvae were predated at the highest rate. Third instar larvae of An. gambiae were introduced into artificial habitats with and without refugia at various larval densities. The numbers of surviving larvae were counted after 24 hours in 24. In semi-field experiments, the larvae were counted daily until they were all either consumed or had developed to the pupal stage. Polymerase chain reaction was used to confirm the presence of An. gambiae DNA in predator guts. Results Experiments found that habitat type (P < 0.0001) and predator species (P < 0.0001) had a significant impact on the predation rate in the 24 hour evaluations. In semi-field experiments, predator species (P < 0.0001) and habitat type (P < 0.0001) were significant factors in both the daily survival and the overall developmental time of larvae. Pupation rates took significantly longer in habitats with refugia. An. gambiae DNA was found in at least three out of ten midguts for all predator species. Gambusia affins was the most efficient, being three times more efficient than tadpoles. Conclusion These experiments provide insight into the efficiency of specific natural predators against mosquito larvae. These naturally occurring predators may be useful in biocontrol strategies for aquatic stage An. gambiae mosquitoes. Further investigations should be done in complex natural habitats for these predators.

Published

2011

279. Analysing the generality of spatially predictive mosquito habitat models

Author

Li, Li, Bian, Ling, Yakob, Laith, Zhou, Guofa, and Yan, Guiyun

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Rare Diseases, Malaria, Vector-Borne Diseases, Infectious Diseases, Infection, Good Health and Well Being, Animals, Culicidae, Ecosystem, Insect Vectors, Kenya, Larva, Logistic Models, Mosquito Control, Seasons, Temperature, Model generality, Spatial predictive habitat models, Temporal generality, Spatial generality, Mosquito, Larval habitat, Medical and Health Sciences, Tropical Medicine, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

The increasing spread of multi-drug resistant malaria in African highlands has highlighted the importance of malaria suppression through vector control. Its historical success has meant that larval control has been proposed as part of an integrated malaria vector control program. Due to high operation costs, larval control activities would benefit greatly if the locations of mosquito habitats could be identified quickly and easily, allowing for focal habitat source suppression. Several mosquito habitat models have been developed to predict the location of mosquito habitats. However, to what extent these models can be generalised across time and space to predict the distribution of dynamic mosquito habitats remains largely unexplored. This study used mosquito habitat data collected in six different time periods and four different modelling approaches to establish 24 mosquito habitat models. We systematically tested the generality of these 24 mosquito habitat models. We found that although habitat--environment relationships change temporally, a modest level of performance was attained when validating the models using data collected from different time periods. We also describe flexible approaches to the predictive modelling of mosquito habitats, that provide novel modelling architecture for future research efforts.

Published

2011

280. Insecticide-treated net (ITN) ownership, usage, and malaria transmission in the highlands of western Kenya

Author

Atieli, Harrysone E, Zhou, Guofa, Afrane, Yaw, Lee, Ming-Chieh, Mwanzo, Isaac, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background Insecticide-treated bed nets (ITNs) are known to be highly effective in reducing malaria morbidity and mortality. However, usage varies among households, and such variations in actual usage may seriously limit the potential impact of nets and cause spatial heterogeneity on malaria transmission. This study examined ITN ownership and underlying factors for among-household variation in use, and malaria transmission in two highland regions of western Kenya. Methods Cross-sectional surveys were conducted on ITN ownership (possession), compliance (actual usage among those who own ITNs), and malaria infections in occupants of randomly sampled houses in the dry and the rainy seasons of 2009. Results Despite ITN ownership reaching more than 71%, compliance was low at 56.3%. The compliance rate was significantly higher during the rainy season compared with the dry season (62% vs. 49.6%). Both malaria parasite prevalence (11.8% vs. 5.1%) and vector densities (1.0 vs.0.4 female/house/night) were significantly higher during the rainy season than during the dry season. Other important factors affecting the use of ITNs include: a household education level of at least primary school level, significantly high numbers of nuisance mosquitoes, and low indoor temperatures. Malaria prevalence in the rainy season was about 30% lower in ITN users than in non-ITN users, but this percentage was not significantly different during the dry season. Conclusion In malaria hypo-mesoendemic highland regions of western Kenya, the gap between ITNownership and usage is generally high with greater usage recorded during the high transmission season. Because of the low compliance among those who own ITNs, there is a need to sensitize households on sustained use of ITNs in order to optimize their role as a malaria control tool.

Published

2011

281. Evaluation of two methods of estimating larval habitat productivity in western Kenya highlands

Author

Kweka, Eliningaya J, Zhou, Guofa, Lee, Ming-Chieh, Gilbreath, Thomas M, Mosha, Franklin, Munga, Stephen, Githeko, Andrew K, and Yan, Guiyun

Abstract

Abstract Background Malaria vector intervention and control programs require reliable and accurate information about vector abundance and their seasonal distribution. The availability of reliable information on the spatial and temporal productivity of larval vector habitats can improve targeting of larval control interventions and our understanding of local malaria transmission and epidemics. The main objective of this study was to evaluate two methods of estimating larval habitat productivity in the western Kenyan highlands, the aerial sampler and the emergence trap. Methods The study was conducted during the dry and rainy seasons in 2008, 2009 and 2010. Aerial samplers and emergence traps were set up for sixty days in each season in three habitat types: drainage ditches, natural swamps, and abandoned goldmines. Aerial samplers and emergence traps were set up in eleven places in each habitat type. The success of each in estimating habitat productivity was assessed according to method, habitat type, and season. The effect of other factors including algae cover, grass cover, habitat depth and width, and habitat water volume on species productivity was analysed using stepwise logistic regression Results Habitat productivity estimates obtained by the two sampling methods differed significantly for all species except for An. implexus. For for An. gambiae s.l. and An. funestus, aerial samplers performed better, 21.5 and 14.6 folds, than emergence trap respectively, while the emergence trap was shown to be more efficient for culicine species. Seasonality had a significant influence on the productivity of all species monitored. Dry season was most productive season. Overall, drainage ditches had significantly higher productivity in all seasons compared to other habitat types. Algae cover, debris, chlorophyll-a, and habitat depth and size had significant influence with respect to species. Conclusion These findings suggest that the aerial sampler is the better of the two methods for estimating the productivity of An. gambiae s.l. and An. funestus in the western Kenya highlands and possibly other malaria endemic parts of Africa. This method has proven to be a useful tool for monitoring malaria vector populations and for control program design, and provides useful means for determining the most suitable sites for targeted interventions.

Published

2011

282. Alternative splicing of the Anopheles gambiae Dscam gene in diverse Plasmodium falciparum infections

Author

Smith, Paul H, Mwangi, Jonathan M, Afrane, Yaw A, Yan, Guiyun, Obbard, Darren J, Ranford-Cartwright, Lisa C, and Little, Tom J

Abstract

Abstract Background In insects, including Anopheles mosquitoes, Dscam (Down syndrome cell adhesion molecule) appears to be involved in phagocytosis of pathogens, and shows pathogen-specific splice-form expression between divergent pathogen (or parasite) types (e.g. between bacteria and Plasmodium or between Plasmodium berghei and Plasmodium falciparum). Here, data are presented from the first study of Dscam expression in response to genetic diversity within a parasite species. Methods In independent field and laboratory studies, a measure of Dscam splice-form diversity was compared between mosquitoes fed on blood that was free of P. falciparum to mosquitoes exposed to either single or mixed genotype infections of P. falciparum. Results Significant increases in Anopheles gambiae Dscam (AgDscam) receptor diversity were observed in parasite-exposed mosquitoes, but only weak evidence that AgDscam diversity rises further upon exposure to mixed genotype parasite infections was found. Finally, a cluster of AgDscam exon 4 variants that become especially common during Plasmodium invasion was identified. Conclusions While the data clearly indicate that AgDscam diversity increases with P. falciparum exposure, they do not suggest that AgDscam diversity rises further in response to increased parasite diversity.

Published

2011

283. Indoor residual spray and insecticide-treated bednets for malaria control: theoretical synergisms and antagonisms

Author

Yakob, Laith, Dunning, Rebecca, and Yan, Guiyun

Subjects

Rare Diseases, Infectious Diseases, Vector-Borne Diseases, Malaria, 3.2 Interventions to alter physical and biological environmental risks, Prevention of disease and conditions, and promotion of well-being, Infection, Good Health and Well Being, Animals, Bedding and Linens, Culicidae, Dichlorodiphenyldichloroethane, Humans, Insect Control, Insect Vectors, Insecticides, Models, Biological, General Science & Technology

Abstract

Indoor residual spray (IRS) of insecticides and insecticide-treated bednets (ITNs) are the two most important malaria vector control tools in the tropical world. Application of both tools in the same locations is being implemented for malaria control in endemic and epidemic Africa. The two tools are assumed to have synergistic benefits in reducing malaria transmission because they both act at multiple stages of the transmission cycle. However, this assumption has not been rigorously examined, empirically or theoretically. Using mathematical modelling, we obtained the conditions for which a combination strategy can be expected to improve upon single control tools. Specifically, spraying of dichlorodiphenyltrichloroethane (DDT) in all houses where residents are not using ITNs can reduce transmission of malaria (R(0)) by up to 10 times more than the reduction achieved through ITNs alone. Importantly, however, we also show how antagonism between control tools can arise via interference of their modes of action. Repellent IRS reduces the likelihood that ITNs are contacted within sprayed houses and ITNs reduce the rate at which blood-fed mosquitoes rest on sprayed walls. For example, 80 per cent coverage of ITNs and DDT used together at the household level resulted in an R(0) of 11.1 when compared with an R(0) of 0.1 achieved with 80 per cent ITN coverage without DDT. While this undesired effect can be avoided using low-repellence pyrethroid chemicals for IRS, the extent of the potential benefits is also attenuated. We discuss the impact that this result will likely have on future efforts in malaria control combination strategy.

Published

2011

284. Changing Patterns of Malaria Epidemiology between 2002 and 2010 in Western Kenya: The Fall and Rise of Malaria

Author

Zhou, Guofa, Afrane, Yaw A., Vardo-Zalik, Anne M., Atieli, Harrysone, Zhong, Daibin, Wamae, Peter, Himeidan, Yousif E., Minakawa, Noboru, Githeko, Andrew K., and Yan, Guiyun

Subjects

insecticide-treated nets, anopheles-gambiae, transmission, coverage, elimination, africa, impact, highlands, mosquitos, bednets

Abstract

BackgroundThe impact of insecticide treated nets (ITNs) on reducing malaria incidence is shown mainly through data collection from health facilities. Routine evaluation of long-term epidemiological and entomological dynamics is currently unavailable. In Kenya, new policies supporting the provision of free ITNs were implemented nationwide in June 2006. To evaluate the impacts of ITNs on malaria transmission, we conducted monthly surveys in three sentinel sites with different transmission intensities in western Kenya from 2002 to 2010.Methods and FindingsLongitudinal samplings of malaria parasite prevalence in asymptomatic school children and vector abundance in randomly selected houses were undertaken monthly from February 2002. ITN ownership and usage surveys were conducted annually from 2004 to 2010. Asymptomatic malaria parasite prevalence and vector abundances gradually decreased in all three sites from 2002 to 2006, and parasite prevalence reached its lowest level from late 2006 to early 2007. The abundance of the major malaria vectors, Anopheles funestus and An. gambiae, increased about 5–10 folds in all study sites after 2007. However, the resurgence of vectors was highly variable between sites and species. By 2010, asymptomatic parasite prevalence in Kombewa had resurged to levels recorded in 2004/2005, but the resurgence was smaller in magnitude in the other sites. Household ITN ownership was at 50–70% in 2009, but the functional and effective bed net coverage in the population was estimated at 40.3%, 49.4% and 28.2% in 2010 in Iguhu, Kombewa, and Marani, respectively.ConclusionThe resurgence in parasite prevalence and malaria vectors has been observed in two out of three sentinel sites in western Kenya despite a high ownership of ITNs. The likely factors contributing to malaria resurgence include reduced efficacy of ITNs, insecticide resistance in mosquitoes and lack of proper use of ITNs. These factors should be targeted to avoid further resurgence of malaria transmission.

Published

2011

285. Modelling knowlesi malaria transmission in humans: vector preference and host competence

Author

Yakob, Laith, Bonsall, Michael B, and Yan, Guiyun

Abstract

Abstract Background Plasmodium knowlesi, a malaria species that normally infects long-tailed macaques, was recently found to be prevalent in humans in Southeast Asia. While human host competency has been demonstrated experimentally, the extent to which the parasite can be transmitted from human back to mosquito vector in nature is unclear. Methods Using a mathematical model, the influence of human host competency on disease transmission is assessed. Adapting a standard model for vector-borne disease transmission and using an evolutionary invasion analysis, the paper explores how differential host competency between humans and macaques can facilitate the epidemiological processes of P. knowlesi infection between different hosts. Results Following current understanding of the evolutionary route of other human malaria vectors and parasites, an increasing human population in knowlesi malaria endemic regions will select for a more anthropophilic vector as well as a parasite that preferentially transmits between humans. Applying these adaptations, evolutionary invasion analysis yields threshold conditions under which this macaque disease may become a significant public health issue. Conclusions These threshold conditions are discussed in the context of malaria vector-parasite co-evolution as a function of anthropogenic effects.

Published

2010

286. Genome-Wide Patterns of Gene Expression during Aging in the African Malaria Vector Anopheles gambiae

Author

Wang, Mei-Hui, Marinotti, Osvaldo, James, Anthony A., Walker, Edward, Githure, John, and Yan, Guiyun

Subjects

drosophila life-span, aedes-aegypti diptera, oxidative stress, mosquito age, cell-death, cuticular hydrocarbons, microarray analysis, c-elegans, melanogaster, culicidae

Abstract

The primary means of reducing malaria transmission is through reduction in longevity in days of the adult female stage of the Anopheles vector. However, assessing chronological age is limited to crude physiologic methods which categorize the females binomially as either very young (nulliparous) or not very young (parous). Yet the epidemiologically relevant reduction in life span falls within the latter category. Age-grading methods that delineate chronological age, using accurate molecular surrogates based upon gene expression profiles, will allow quantification of the longevity-reducing effects of vector control tools aimed at the adult, female mosquito. In this study, microarray analyses of gene expression profiles in the African malaria vector Anopheles gambiae were conducted during natural senescence of females in laboratory conditions. Results showed that detoxification-related and stress-responsive genes were up-regulated as mosquitoes aged. A total of 276 transcripts had age-dependent expression, independently of blood feeding and egg laying events. Expression of 112 (40.6%) of these transcripts increased or decreased monotonically with increasing chronologic age. Seven candidate genes for practical age assessment were tested by quantitative gene amplification in the An. gambiae G3 strain in a laboratory experiment and the Mbita strain in field enclosures set up in western Kenya under conditions closely resembling natural ones. Results were similar between experiments, indicating that senescence is marked by changes in gene expression and that chronological age can be gauged accurately and repeatedly with this method. These results indicate that the method may be suitable for accurate gauging of the age in days of field-caught, female An. gambiae.

Published

2010

287. aeGEPUCI: a database of gene expression in the dengue vector mosquito, Aedes aegypti.

Author

Dissanayake, Sumudu N, Ribeiro, Jose MC, Wang, Mei-Hui, Dunn, William A, Yan, Guiyun, James, Anthony A, and Marinotti, Osvaldo

Abstract

Abstract Background Aedes aegypti is the principal vector of dengue and yellow fever viruses. The availability of the sequenced and annotated genome enables genome-wide analyses of gene expression in this mosquito. The large amount of data resulting from these analyses requires efficient cataloguing before it becomes useful as the basis for new insights into gene expression patterns and studies of the underlying molecular mechanisms for generating these patterns. Findings We provide a publicly-accessible database and data-mining tool, aeGEPUCI, that integrates 1) microarray analyses of sex- and stage-specific gene expression in Ae. aegypti, 2) functional gene annotation, 3) genomic sequence data, and 4) computational sequence analysis tools. The database can be used to identify genes expressed in particular stages and patterns of interest, and to analyze putative cis-regulatory elements (CREs) that may play a role in coordinating these patterns. The database is accessible from the address http://www.aegep.bio.uci.edu. Conclusions The combination of gene expression, function and sequence data coupled with integrated sequence analysis tools allows for identification of expression patterns and streamlines the development of CRE predictions and experiments to assess how patterns of expression are coordinated at the molecular level.

Published

2010

288. Proteomics reveals novel components of the Anopheles gambiae eggshell

Author

Amenya, Dolphine A, Chou, Wayne, Li, Jianyong, Yan, Guiyun, Gershon, Paul D, James, Anthony A, and Marinotti, Osvaldo

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Vector-Borne Diseases, Biotechnology, Genetics, Infectious Diseases, Human Genome, 1.1 Normal biological development and functioning, Underpinning research, Infection, Amino Acid Sequence, Animals, Anopheles, Insect Proteins, Molecular Sequence Data, Ovum, Proteomics, Sequence Alignment, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Chorion, Vitelline membrane, OBPs, Phenoloxidase, Peroxidase, Mosquito, Physiology, Zoology, Entomology, Medical physiology

Abstract

While genome and transcriptome sequencing has revealed a large number and diversity of Anopheles gambiae predicted proteins, identifying their functions and biosynthetic pathways remains challenging. Applied mass spectrometry-based proteomics in conjunction with mosquito genome and transcriptome databases were used to identify 44 proteins as putative components of the eggshell. Among the identified molecules are two vitelline membrane proteins and a group of seven putative chorion proteins. Enzymes with peroxidase, laccase and phenoloxidase activities, likely involved in cross-linking reactions that stabilize the eggshell structure, also were identified. Seven odorant binding proteins were found in association with the mosquito eggshell, although their role has yet to be demonstrated. This analysis fills a considerable gap of knowledge about proteins that build the eggshell of anopheline mosquitoes.

Published

2010

289. A cohort study of Plasmodium falciparum infection dynamics in Western Kenya Highlands

Author

Baliraine, Frederick N, Afrane, Yaw A, Amenya, Dolphine A, Bonizzoni, Mariangela, Vardo-Zalik, Anne M, Menge, David M, Githeko, Andrew K, and Yan, Guiyun

Subjects

asymptomatic malaria infections, mixed-genotype infections, papua-new-guinea, genetic diversity, microsatellite markers, population-structure, anopheles-gambiae, african children, holoendemic area, transmission

Abstract

BackgroundThe Kenyan highlands were malaria-free before the 1910s, but a series of malaria epidemics have occurred in the highlands of western Kenya since the 1980s. Longitudinal studies of the genetic structure, complexity, infection dynamics, and duration of naturally acquired Plasmodium falciparum infections are needed to facilitate a comprehensive understanding of malaria epidemiology in the complex Kenyan highland eco-epidemiological systems where malaria recently expanded, as well as the evaluation of control measures.MethodsWe followed a cohort of 246 children residing in 3 villages at altitudes 1430 - 1580 m in western Kenya. Monthly parasitological surveys were undertaken for one year, yielding 866 P. falciparum isolates that were analyzed using 10 microsatellite markers.ResultsInfection complexity and genetic diversity were high (HE = 0.787-0.816), with ≥83% of infections harboring more than one parasite clone. Diversity remained high even during the low malaria transmission season. There was no significant difference between levels of genetic diversity and population structure between high and low transmission seasons. Infection turn-over rate was high, with the average infection duration of single parasite genotypes being 1.11 months, and the longest genotype persistence was 3 months.ConclusionsThese data demonstrate that despite the relatively recent spread of malaria to the highlands, parasite populations seem to have stabilized with no evidence of bottlenecks between seasons, while the ability of residents to clear or control infections indicates presence of effective anti-plasmodial immune mechanisms.

Published

2010

290. Molecular Ecology of Pyrethroid Knockdown Resistance in Culex pipiens pallens Mosquitoes

Author

Chen, Lin, Zhong, Daibin, Zhang, Donghui, Shi, Linna, Zhou, Guofa, Gong, Maoqing, Zhou, Huayun, Sun, Yan, Ma, Lei, He, Ji, Hong, Shanchao, Zhou, Dan, Xiong, Chunrong, Chen, Chen, Zou, Ping, Zhu, Changliang, and Yan, Guiyun

Subjects

anopheles-gambiae s.s, sodium-channel gene, insecticide resistance, kdr mutation, west-africa, incipient speciation, cross-resistance, german-cockroach, point mutations, burkina-faso

Abstract

Pyrethroid insecticides have been extensively used in China and worldwide for public health pest control. Accurate resistance monitoring is essential to guide the rational use of insecticides and resistance management. Here we examined the nucleotide diversity of the para-sodium channel gene, which confers knockdown resistance (kdr) in Culex pipiens pallens mosquitoes in China. The sequence analysis of the para-sodium channel gene identified L1014F and L1014S mutations. We developed and validated allele-specific PCR and the real-time TaqMan methods for resistance diagnosis. The real-time TaqMan method is more superior to the allele-specific PCR method as evidenced by higher amplification rate and better sensitivity and specificity. Significant positive correlation between kdr allele frequency and bioassay-based resistance phenotype demonstrates that the frequency of L1014F and L1014S mutations in the kdr gene can be used as a molecular marker for deltamethrin resistance monitoring in natural Cx. pipiens pallens populations in the East China region. The laboratory selection experiment found that L1014F mutation frequency, but not L1014S mutation, responded to deltamethrin selection, suggesting that the L1014F mutation is the key mutation conferring resistance to deltamethrin. High L1014F mutation frequency detected in six populations of Cx. pipens pallens suggests high prevalence of pyrethroid resistance in Eastern China, calling for further surveys to map the resistance in China and for investigating alternative mosquito control strategies.

Published

2010

291. Allelic Gene Structure Variations in Anopheles gambiae Mosquitoes

Author

Li, Jun, Ribeiro, Jose C., and Yan, Guiyun

Subjects

quantitative trait loci, genome-wide survey, messenger-rna, ab-initio, sequence, prediction, exon, refractoriness, identification, isoforms

Abstract

BackgroundAllelic gene structure variations and alternative splicing are responsible for transcript structure variations. More than 75% of human genes have structural isoforms of transcripts, but to date few studies have been conducted to verify the alternative splicing systematically.Methodology/Principal FindingsThe present study used expressed sequence tags (ESTs) and EST tagged SNP patterns to examine the transcript structure variations resulting from allelic gene structure variations in the major human malaria vector, Anopheles gambiae. About 80% of 236,004 available A. gambiae ESTs were successfully aligned to A. gambiae reference genomes. More than 2,340 transcript structure variation events were detected. Because the current A. gambiae annotation is incomplete, we re-annotated the A. gambiae genome with an A. gambiae-specific gene model so that the effect of variations on gene coding could be better evaluated. A total of 15,962 genes were predicted. Among them, 3,873 were novel genes and 12,089 were previously identified genes. The gene completion rate improved from 60% to 84%. Based on EST support, 82.5% of gene structures were predicted correctly. In light of the new annotation, we found that ∼78% of transcript structure variations were located within the coding sequence (CDS) regions, and >65% of variations in the CDS regions have the same open-reading-frame. The association between transcript structure isoforms and SNPs indicated that more than 28% of transcript structure variation events were contributed by different gene alleles in A. gambiae.Conclusions/SignificanceWe successfully expanded the A. gambiae genome annotation. We predicted and analyzed transcript structure variations in A. gambiae and found that allelic gene structure variation plays a major role in transcript diversity in this important human malaria vector.

Published

2010

292. Population structure of Anopheles gambiae along the Kenyan coast

Author

Midega, Janet T, Muturi, Ephantus J, Baliraine, Frederick N, Mbogo, Charles M, Githure, John, Beier, John C, and Yan, Guiyun

Subjects

Biological Sciences, Ecology, Genetics, Infectious Diseases, Animals, Anopheles, Gene Frequency, Geography, Kenya, Microsatellite Repeats, Polymorphism, Genetic, Seasons, Medical and Health Sciences, Tropical Medicine, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

In the tropics, Anopheles mosquito abundance is greatest during the wet season and decline significantly during the dry season as larval habitats shrink. Population size fluctuations between wet and dry seasons may lead to variation in distribution of specific alleles within natural Anopheles populations, and a possible effect on the population genetic structure. We used 11 microsatellite markers to examine the effect of seasonality on population genetic structure of Anopheles gambiae s.s. at two sites along the Kenyan coast. All loci were highly polymorphic with the total number of alleles for pooled samples ranging from 7 (locus ND36) to 21 (locus AG2H46). Significant estimates of genetic differentiation between sites and seasons were observed suggesting the existence of spatio-temporal subpopulation structuring. Genetic bottleneck analysis showed no indication of excess heterozygosity in any of the populations. These findings suggest that along the Kenyan coast, seasonality and site specific ecological factors can alter the genetic structure of A. gambiae s.s. populations.

Published

2010

293. Genetic structure of Plasmodium vivax and Plasmodium falciparum in the Bannu district of Pakistan

Author

Khatoon, Lubna, Baliraine, Frederick N, Bonizzoni, Mariangela, Malik, Salman A, and Yan, Guiyun

Abstract

Abstract Background Plasmodium vivax and Plasmodium falciparum are the major causative agents of malaria. While knowledge of the genetic structure of malaria parasites is useful for understanding the evolution of parasite virulence, designing anti-malarial vaccines and assessing the impact of malaria control measures, there is a paucity of information on genetic diversity of these two malaria parasites in Pakistan. This study sought to shed some light on the genetic structure of P. vivax and P. falciparum in this understudied region. Methods The genetic diversities of P. vivax and P. falciparum populations from the densely populated, malaria-endemic Bannu district of Pakistan were evaluated by analysis of their merozoite surface protein (msp) genes by PCR-RFLP. Specifically, the Pvmsp-3α and Pvmsp-3β genes of P. vivax and the Pfmsp-1 and Pfmsp-2 genes of P. falciparum were analysed. Results In P. vivax, genotyping of Pvmsp-3α and Pvmsp-3β genes showed a high level of diversity at these loci. Four distinct allele groups: A (1.9 kb), B (1.5 kb), C (1.2 kb), and D (0.3 kb) were detected for Pvmsp-3α, type A being the most prevalent (82%). Conversely, amplification of the P. vivax msp-3β locus produced two allele groups: A (1.7-2.2 kb, 62%) and B (1.4-1.5 kb, 33%), with 5% mixed-strain infections. Restriction analysis of Pvmsp-3α and Pvmsp-3β yielded 12 and 8 distinct alleles, respectively, with a combined mixed genotype prevalence of 20%. In P. falciparum, all three known genotypes of Pfmsp-1 and two of Pfmsp-2 were observed, with MAD20 occurring in 67% and 3D7/IC in 65% of the isolates, respectively. Overall, 24% P. falciparum samples exhibited mixed-strain infections. Conclusion These results indicate that both P. vivax and P. falciparum populations in Pakistan are highly diverse.

Published

2010

294. Community-wide benefits of targeted indoor residual spray for malaria control in the Western Kenya Highland

Author

Zhou, Guofa, Githeko, Andrew K, Minakawa, Noboru, and Yan, Guiyun

Subjects

insecticide-treated bednets, vector-control, spatial-distribution, mosquito nets, transmission, burundi, sustainability, interventions, topography, dispersal

Abstract

Background: Interest in indoor residual spray (IRS) has been rekindled in recent years, as it is increasingly considered to be a key component of integrated malaria management. Regular spraying of each human dwelling becomes less and less practical as the control area increases. Where malaria transmission is concentrated around focal points, however, targeted IRS may pose a feasible alternative to mass spraying. Here, the impact of targeted IRS was assessed in the highlands of western Kenya. Methods: Indoor residual spray using lambda-cyhalothrin insecticide was carried out during the last week of April 2005 in 1,100 targeted houses, located in the valley bottom areas of Iguhu village, Kakamega district of western Kenya. Although the uphill areas are more densely populated, valleys are believed to be malaria transmission hotspots. The aim of the study was to measurably reduce the vector density and malaria transmission in uphill areas by focusing control on these hotspots. A cohort of 1,058 children from 1-5 yrs of age was randomly selected from a 4 km by 6 km study area for the baseline malaria prevalence survey after pre-clearing malaria infections during the third week of April 2005, and the prevalence of Plasmodium infections was tested bi-weekly. Seasonal changes in mosquito densities 12 months before the IRS and 12 months after the IRS was monitored quarterly based on 300 randomly selected houses. Monthly parasitological surveys were also carried out in the same area with 129-661 randomly selected school children of age 6-13 yrs. Results: The result of monthly parasitological surveys indicated that malaria prevalence in school children was reduced by 64.4% in the intervention valley area and by 46.3% in the intervention uphill area after 12 months of follow-ups in contrast to nonintervention areas (valley or uphill). The cohort study showed an average of 4.5% fewer new infections biweekly in the intervention valley compare to nonintervention valley and the relative reduction in incidence rate by week 14 was 65.4%. The relative reduction in incidence rate in intervention uphill by week 14 was 46.4%. Anopheles gambiae densities were reduced by 96.8% and 51.6% in the intervention valley and intervention uphill, respectively, and Anopheles funestus densities were reduced by 85.3% and 69.2% in the intervention valley and intervention uphill, respectively. Conclusion: Vector control had significant indirect impact on the densely populated uphill areas when IRS was targeted to the high-risk valleys. Additionally, the wide-reaching benefits of IRS in reducing vector prevalence and disease incidence was observed for at least six months following spraying, suggesting targeted IRS as an effective tool in malaria control.

Published

2010

295. Resistance of Early Midgut Stages of Natural Plasmodium falciparum Parasites to High Temperatures in Experimentally Infected Anopheles gambiae (Diptera: Culicidae)

Author

Okech, Bernard A., Gouagna, Louis C., Kabiru, Ephantus W., Walczak, Elizabeth, Beier, John C., Yan, Guiyun, and Githure, John I.

Published

2004

296. Association between Climate Variability and Malaria Epidemics in the East African Highlands

Author

Zhou, Guofa, Minakawa, Noboru, Githeko, Andrew K., Yan, Guiyun, and Herren, Hans R.

Published

2004

297. Temporal and spatial stability of Anopheles gambiae larval habitat distribution in western Kenya highlands

Author

Li, Li, Bian, Ling, Yakob, Laith, Zhou, Guofa, and Yan, Guiyun

Abstract

Abstract Background Localized mosquito larval habitat management and the use of larvicides have been proposed as important control tools in integrated malaria vector management programs. In order to optimize the utility of these tools, detailed knowledge of the spatial distribution patterns of mosquito larval habitats is crucial. However, the spatial and temporal changes of habitat distribution patterns under different climatic conditions are rarely quantified and their implications to larval control are unknown. Results Using larval habitat data collected in western Kenya highlands during both dry and rainy seasons of 2003-2005, this study analyzed the seasonal and inter-annual changes in the spatial patterns in mosquito larval habitat distributions. We found that the spatial patterns of larval habitats had significant temporal variability both seasonally and inter-annually. Conclusions The pattern of larval habitats is extremely important to the epidemiology of malaria because it results in spatial heterogeneity in the adult mosquito population and, subsequently, the spatial distribution of clinical malaria cases. Results from this study suggest that larval habitat management activities need to consider the dynamic nature of malaria vector habitats.

Published

2009

298. Land Use and Land Cover Changes and Spatiotemporal Dynamics of Anopheline Larval Habitats during a Four-Year Period in a Highland Community of Africa

Author

Munga, Stephen, Yakob, Laith, Mushinzimana, Emmanuel, Zhou, Guofa, Ouna, Tom, Minakawa, Noboru, Githeko, Andrew, and Yan, Guiyun

Subjects

Infectious Diseases, Rare Diseases, Vector-Borne Diseases, Malaria, Infection, Good Health and Well Being, Life on Land, Agriculture, Animals, Anopheles, Environment, Geography, Humans, Kenya, Larva, Male, Population Dynamics, Seasons, Time Factors, Medical and Health Sciences, Tropical Medicine

Abstract

Spatial and temporal variations in the distribution of anopheline larval habitats and land use and land cover (LULC) changes can influence malaria transmission intensity. This information is important for understanding the environmental determinants of malaria transmission heterogeneity, and it is critical to the study of the effects of environmental changes on malaria transmission. In this study, we investigated the spatial and temporal variations in the distribution of anopheline larval habitats and LULC changes in western Kenya highlands over a 4-year period. Anopheles gambiae complex larvae were mainly confined to valley bottoms during both the dry and wet seasons. Although An. gambiae larvae were located in man-made habitats where riparian forests and natural swamps had been cleared, Anopheles funestus larvae were mainly found in permanent habitats in pastures. The association between land cover type and occurrence of anopheline larvae was statistically significant. The distribution of anopheline positive habitats varied significantly between months, during the survey. In 2004, the mean density of An. gambiae was significantly higher during the month of May, whereas the density of An. funestus peaked significantly in February. Over the study period, major LULC changes occurred mostly in the valley bottoms. Overall, farmland increased by 3.9%, whereas both pastures and natural swamps decreased by 8.9% and 20.9%, respectively. The area under forest cover was decreased by 5.8%. Land-use changes in the study area are favorable to An. gambiae larval development, thereby risking a more widespread distribution of malaria vector habitats and potentially increasing malaria transmission in western Kenya highlands.

Published

2009

299. Correction: Modeling the Effects of Integrating Larval Habitat Source Reduction and Insecticide Treated Nets for Malaria Control

Author

Yakob, Laith and Yan, Guiyun

Published

2009

300. Modeling the Effects of Integrating Larval Habitat Source Reduction and Insecticide Treated Nets for Malaria Control

Author

Yakob, Laith and Yan, Guiyun

Abstract

Integrated vector management for malaria control has received a lot of recent interest. Attacking multiple points in the transmission cycle is hoped to act synergistically and improve upon current single-tool interventions based on the use of insecticide-treated bed nets (ITNs). In the present study, we theoretically examined the application of larval habitat source reduction with ITNs in reducing malaria transmission. We selected this type of environmental management to complement ITNs because of a potential secondary mode of action that both control strategies share. In addition to increasing vector mortality, ITNs reduce the rate at which female mosquitoes locate human hosts for blood feeding, thereby extending their gonotrophic cycle. Similarly, while reducing adult vector emergence and abundance, source reduction of larval habitats may prolong the cycle duration by extending delays in locating oviposition sites. We found, however, that source reduction of larval habitats only operates through this secondary mode of action when habitat density is below a critical threshold. Hence, we illustrate how this strategy becomes increasingly effective when larval habitats are limited. We also demonstrate that habitat source reduction is better suited to human populations of higher density and in the presence of insecticide resistance or when the insecticidal properties of ITNs are depleted.

Published

2009