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52. Insecticide resistant Anopheles gambiae have enhanced longevity but reduced reproductive fitness and a longer first gonotrophic cycle

Author

Osoro, Joyce K, Machani, Maxwell G, Ochomo, Eric, Wanjala, Christine, Omukunda, Elizabeth, Githeko, Andrew K, Yan, Guiyun, and Afrane, Yaw A

Subjects
Agricultural Biotechnology, Agricultural, Veterinary and Food Sciences, Medical Microbiology, Biomedical and Clinical Sciences, Infectious Diseases, Malaria, Vector-Borne Diseases, Rare Diseases, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Animals, Anopheles, Female, Genetic Fitness, Insecticide Resistance, Insecticides, Longevity, Male, Mosquito Control, Mosquito Vectors, Pyrethrins
Abstract

Widespread insecticide resistance in African malaria vectors raises concerns over the potential to compromise malaria vector control interventions. Understanding the evolution of resistance mechanisms, and whether the selective disadvantages are large enough to be useful in resistance management or designing suitable control strategies is crucial. This study assessed whether insecticide resistance to pyrethroids has an effect on the gonotrophic cycle and reproductive potential of malaria vector Anopheles gambiae. Comparative tests were performed with pyrethroid-resistant and susceptible colonies of Anopheles gambiae colonized from the same geographical area, and the reference Kisumu strain was used as a control. Adult females aged 3 days old were given a blood meal and kept separately for individual egg-laying. The number of days taken to lay eggs post-blood-feeding was recorded to determine the length of the gonotrophic cycle. To measure adult longevity and reproduction potential, newly emerged males and females of equal numbers were aspirated into a cage and females allowed to blood feed daily. The number of eggs laid and the surviving mosquitoes were recorded daily to determine fecundity, net reproduction rate, intrinsic growth rate and adult longevity. Overall, the resistant females had a significantly longer (1.8 days) gonotrophic cycle than susceptible females (F2, 13 = 9. 836, P

Published
2022

53. Interspecific mating bias may drive Aedes albopictus displacement of Aedes aegypti during its range expansion.

Author

Zhou, Jiayong, Liu, Shuang, Liu, Hongkai, Xie, Zhensheng, Liu, Liping, Lin, Lifeng, Jiang, Jinyong, Yang, Mingdong, Zhou, Guofa, Gu, Jinbao, Zhou, Xiaohong, Yan, Guiyun, James, Anthony A, and Chen, Xiao-Guang

Subjects
Aedes aegypti, Aedes albopictus, interspecific mating, reproductive interference, Infectious Diseases, Emerging Infectious Diseases
Abstract

Aedes albopictus is the most invasive mosquito in the world and often displaces Ae. aegypti in regions where their populations overlap. Interspecific mating has been proposed as a possible cause for this displacement, but whether this applies across the range of their sympatry remains unclear. Aedes albopictus and Ae. aegypti collected from allopatric and sympatric areas in China were allowed to interact in cage experiments with different crosses and sex-choices. The results confirm that asymmetric interspecific mating occurs in these populations with matings between allopatric Ae. albopictus males and Ae. aegypti females being significantly higher (55.2%) than those between Ae. aegypti males and Ae. albopictus females (27.0%), and sympatric mosquitoes showed a similar but lower frequency bias, 25.7% versus 6.2%, respectively. The cross-mated females can mate second time (remate) with the respective conspecific males and the 66.7% remating success of female Ae. albopictus was significantly higher than the 9.3% of Ae. aegypti females. Furthermore, 17.8% of the matings of Ae. albopictus males exposed to mixed pools of Ae. albopictus and Ae. aegypti females and 9.3% of the matings of Ae. aegypti males with mixed Ae. aegypti and Ae. albopictus females were interspecific. The difference in the length of clasper between male Ae. albopictus (0.524 mm) and Ae. aegypti (0.409 mm) may be correlated with corresponding mates. We conclude that stronger Ae. albopictus male interspecific mating and more avid female intraspecific remating result in a satyr effect and contribute to competitive displacement of Ae. aegypti as allopatric Ae. albopictus invade during range expansion.

Published
2022

54. Community structure and insecticide resistance of malaria vectors in northern-central Myanmar.

Author

Zhong, Daibin, Aung, Pyae Linn, Mya, Maung Maung, Wang, Xiaoming, Qin, Qian, Soe, Myat Thu, Zhou, Guofa, Kyaw, Myat Phone, Sattabongkot, Jetsumon, Cui, Liwang, and Yan, Guiyun

Subjects
Animals, Cattle, Anopheles, Malaria, Insecticide Resistance, Myanmar, Female, Mosquito Vectors, Anopheles malaria vectors, Community structure, Insecticide resistance, Kdr mutation, Ribosomal internal transcribed spacer 2, Infectious Diseases, Vector-Borne Diseases, Rare Diseases, Genetics, Aetiology, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Medical Microbiology, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine
Abstract

BackgroundMyanmar is one of the six countries in the Greater Mekong Subregion (GMS) of Southeast Asia. Malaria vectors comprise many Anopheles species, which vary in abundance and importance in malaria transmission among different geographical locations in the GMS. Information about the species composition, abundance, and insecticide resistance status of vectorial systems in Myanmar is scarce, hindering our efforts to effectively control malaria vectors in this region.MethodsDuring October and November 2019, larvae and adult females of Anopheles mosquitoes were collected in three sentinel villages of Banmauk township in northern Myanmar. Adult female mosquitoes collected by cow-baited tent collection (CBTC) and adults reared from field-collected larvae (RFCL) were used to determine mortality rates and knockdown resistance (kdr) against deltamethrin using the standard WHO susceptibility test. Molecular species identification was performed by multiplex PCR and ITS2 PCR, followed by DNA sequencing. The kdr mutation at position 1014 of the voltage-gated sodium channel gene was genotyped by DNA sequencing for all Anopheles species tested.ResultsA total of 1596 Anopheles mosquitoes from seven morphologically identified species groups were bioassayed. Confirmed resistance to deltamethrin was detected in the populations of An. barbirostris (s.l.), An. hyrcanus (s.l.), and An. vagus, while possible resistance was detected in An. annularis (s.l.), An. minimus, and An. tessellatus. Anopheles kochi was found susceptible to deltamethrin. Compared to adults collected by CBTC, female adults from RFCL had significantly lower mortality rates in the four species complexes. A total of 1638 individuals from 22 Anopheles species were molecularly identified, with the four most common species being An. dissidens (20.5%) of the Barbirostris group, An. peditaeniatus (19.4%) of the Hyrcanus group, An. aconitus (13.4%) of the Funestus group, and An. nivipes (11.5%) of the Annularis group. The kdr mutation L1014F was only detected in the homozygous state in two An. subpictus (s.l.) specimens and in a heterozygous state in one An. culicifacies (s.l.) specimen.ConclusionsThis study provides updated information about malaria vector species composition and insecticide resistance status in northern Myanmar. The confirmed deltamethrin resistance in multiple species groups constitutes a significant threat to malaria vector control. The lack or low frequency of target-site resistance mutations suggests that other mechanisms are involved in resistance. Continual monitoring of the insecticide resistance of malaria vectors is required for effective vector control and insecticide resistance management.

Published
2022

55. Health care provider practices in diagnosis and treatment of malaria in rural communities in Kisumu County, Kenya.

Author

Otambo, Wilfred Ouma, Olumeh, Julius O, Ochwedo, Kevin O, Magomere, Edwin O, Debrah, Isaiah, Ouma, Collins, Onyango, Patrick, Atieli, Harrysone, Mukabana, Wolfgang R, Wang, Chloe, Lee, Ming-Chieh, Githeko, Andrew K, Zhou, Guofa, Githure, John, Kazura, James, and Yan, Guiyun

Subjects
Humans, Malaria, Malaria, Falciparum, Fever, Antimalarials, Diagnostic Tests, Routine, Sensitivity and Specificity, Health Personnel, Rural Population, Kenya, Real-Time Polymerase Chain Reaction, Artemether, Artemether, Lumefantrine Drug Combination, Blood smear, Misdiagnosis, Presumptive treatment, Treatment guidelines, Infectious Diseases, Vector-Borne Diseases, Clinical Research, Rare Diseases, Health Services, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Infection, Good Health and Well Being, Microbiology, Medical Microbiology, Public Health and Health Services, Tropical Medicine
Abstract

BackgroundAccurate malaria diagnosis and appropriate treatment at local health facilities are critical to reducing morbidity and human reservoir of infectious gametocytes. The current study assessed the accuracy of malaria diagnosis and treatment practices in three health care facilities in rural western Kenya.MethodsThe accuracy of malaria detection and treatment recommended compliance was monitored in two public and one private hospital from November 2019 through March 2020. Blood smears from febrile patients were examined by hospital laboratory technicians and re-examined by an expert microscopists thereafter subjected to real-time polymerase chain reaction (RT-PCR) for quality assurance. In addition, blood smears from patients diagnosed with malaria rapid diagnostic tests (RDT) and presumptively treated with anti-malarial were re-examined by an expert microscopist.ResultsA total of 1131 febrile outpatients were assessed for slide positivity (936), RDT (126) and presumptive diagnosis (69). The overall positivity rate for Plasmodium falciparum was 28% (257/936). The odds of slide positivity was higher in public hospitals, 30% (186/624, OR:1.44, 95% CI = 1.05-1.98, p

Published
2022

56. Emerging Mosquito Resistance to Piperonyl Butoxide-Synergized Pyrethroid Insecticide and Its Mechanism

Author

Zhou, Guofa, Li, Yiji, Jeang, Brook, Wang, Xiaoming, Cummings, Robert F, Zhong, Daibin, and Yan, Guiyun

Subjects
Vector-Borne Diseases, Infectious Diseases, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Animals, Culicidae, Cytochrome P-450 Enzyme System, Insecticide Resistance, Insecticides, Mosquito Control, Mosquito Vectors, Piperonyl Butoxide, Pyrethrins, Culex quinquefasciatus, insecticide resistance, piperonyl butoxide, PBO-synergized pyrethroid, metabolic enzyme expression, Culex quinquefasciatus, Biological Sciences, Medical and Health Sciences, Tropical Medicine
Abstract

Piperonyl butoxide (PBO)-synergized pyrethroid products are widely available for the control of pyrethroid-resistant mosquitoes. To date, no study has examined mosquito resistance after pre-exposure to PBO and subsequent enzymatic activity when exposed to PBO-synergized insecticides. We used Culex quinquefasciatus Say (Diptera: Culicidae), an important vector of arboviruses and lymphatic filariasis, as a model to examine the insecticide resistance mechanisms of mosquitoes to PBO-synergized pyrethroid using modified World Health Organization tube bioassays and biochemical analysis of metabolic enzyme expressions pre- and post-PBO exposure. Mosquito eggs and larvae were collected from three cities in Orange County in July 2020 and reared in insectary, and F0 adults were used in this study. A JHB susceptible strain was used as a control. Mosquito mortalities and metabolic enzyme expressions were examined in mosquitoes with/without pre-exposure to different PBO concentrations and exposure durations. Except for malathion, wild strain Cx quinquefasciatus mosquitoes were resistant to all insecticides tested, including PBO-synergized pyrethroids (mortality range 3.7 ± 4.7% to 66.7 ± 7.7%). Wild strain mosquitoes had elevated levels of carboxylesterase (COE, 3.8-fold) and monooxygenase (P450, 2.1-fold) but not glutathione S-transferase (GST) compared to susceptible mosquitoes. When wild strain mosquitoes were pre-exposed to 4% PBO, the 50% lethal concentration of deltamethrin was reduced from 0.22% to 0.10%, compared to 0.02% for a susceptible strain. The knockdown resistance gene mutation (L1014F) rate was 62% in wild strain mosquitoes. PBO pre-exposure suppressed P450 enzyme expression levels by 25~34% and GST by 11%, but had no impact on COE enzyme expression. Even with an optimal PBO concentration (7%) and exposure duration (3h), wild strain mosquitoes had significantly higher P450 enzyme expression levels after PBO exposure compared to the susceptible laboratory strain. These results further demonstrate other studies that PBO alone may not be enough to control highly pyrethroid-resistant mosquitoes due to multiple resistance mechanisms. Mosquito resistance to PBO-synergized insecticide should be closely monitored through a routine resistance management program for effective control of mosquitoes and the pathogens they transmit.

Published
2022

57. Asymptomatic and submicroscopic Plasmodium infections in an area before and during integrated vector control in Homa Bay, western Kenya

Author

Omondi, Collince J, Otambo, Wilfred O, Odongo, David, Ochwedo, Kevin O, Otieno, Antony, Onyango, Shirley A, Orondo, Pauline, Ondeto, Benyl M, Lee, Ming-Chieh, Zhong, Daibin, Kazura, James W, Githeko, Andrew K, and Yan, Guiyun

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Rare Diseases, Malaria, Vector-Borne Diseases, Infectious Diseases, Infection, Good Health and Well Being, Asymptomatic Infections, Bays, Cross-Sectional Studies, Humans, Infant, Insecticides, Kenya, Malaria, Falciparum, Mosquito Control, Parasitemia, Plasmodium, Plasmodium falciparum, Asymptomatic malaria, Submicroscopic infection, Vector control, Microbiology, Public Health and Health Services, Tropical Medicine, Medical microbiology, Public health
Abstract

BackgroundLong-lasting insecticidal nets (LLINs) have been the primary vector control strategy until indoor residual spraying (IRS) was added in Homa Bay and Migori Counties in western Kenya. The objective of this study was to evaluate the impact of LLINs integrated with IRS on the prevalence of asymptomatic and submicroscopic Plasmodium infections in Homa Bay County.MethodsA two-stage cluster sampling procedure was employed to enroll study participants aged ≥ 6 months old. Four consecutive community cross-sectional surveys for Plasmodium infection were conducted in residents of Homa Bay county, Kenya. Prior to the start of the study, all study households received LLINs, which were distributed between June 2017 and March 2018. The first (February 2018) and second (June 2018) surveys were conducted before and after the first round of IRS (Feb-Mar 2018), while the third (February 2019) and fourth (June 2019) surveys were conducted before and after the second application of IRS (February-March 2019). Finger-prick blood samples were obtained to prepare thick and thin smears for microscopic determination and qPCR diagnosis of Plasmodium genus.ResultsPlasmodium spp. infection prevalence by microscopy was 18.5% (113/610) before IRS, 14.2% (105/737) and 3.3% (24/720) after the first round of IRS and 1.3% (11/849) after the second round of IRS (p

Published
2022

58. Susceptibility of primary, secondary and suspected vectors to Plasmodium vivax and Plasmodium falciparum infection in Ethiopia

Author

Tsegaye, Arega, Demissew, Assalif, Hawaria, Dawit, Getachew, Hallelujah, Habtamu, Kassahun, Asale, Abebe, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Rare Diseases, Malaria, Vector-Borne Diseases, Infectious Diseases, Biotechnology, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Animals, Humans, Female, Plasmodium vivax, Plasmodium falciparum, Insecticides, Mosquito Vectors, Ethiopia, Malaria, Falciparum, Anopheles, Malaria, Vivax, Oocysts, Artemisinins, Plasmodium species, Membrane feeding assay, Infection rate, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine, Microbiology, Medical microbiology
Abstract

BackgroundInsecticide-based vector control interventions in combination with case management with artemisinin-based combination therapy has reduced malaria incidence and prevalence worldwide. Current control methods focus on the primary malaria vectors, Anopheles gambiae sensu lato (s.l.) and the An. funestus group; however, the impact of secondary and suspected vectors has been either sidelined or received limited attention. Defining the susceptibility of secondary, suspected vector species to different parasites in time and space is essential for efficient malaria control and elimination programs. The aim of this study was to assess the susceptibility of An. gambiae s.l., An. coustani complex and An. pharoensis to Plasmodium vivax and P. falciparum infection in Ethiopia.MethodsLarvae of Anopheles spp. were collected from different aquatic habitats and reared to adults under laboratory conditions, with the temperature and humidity maintained at 27 ± 1 °C and 75 ± 5%, respectively. Adult female mosquitoes were identified to species as An. gambiae s.l., An. coustani complex and An. pharoensis. Females of these three Anopheles spp. were allowed to feed in parallel feeding assays on infected blood containing the same gametocytes isolated from P. falciparum and P. vivax gametocyte-positive patients by indirect membrane feeding assays. All blood-fed mosquitoes were held under laboratory conditions. After 7 days, all surviving mosquitoes were dissected to detect mid-gut oocyst and enumerated under a microscope.ResultsOf 5915 female Anopheles mosquitoes exposed to gametocyte-infected blood, 2106 (35.6%)s fed successfully in the 32 independent infection experiments. There was a significant variation in feeding rates among An. gambiae s.l., An. pharoensis and An. coustani complex (G-test = 48.43, P = 3.049e-11). All three exposed mosquito species were receptive to P. vivax and P. falciparum infection development. The percentage of infected mosquitoes following feeding on an infected blood meal was significantly different among species (G-test = 6.49, P = 0.03886). The median infection intensity (II) for An. coustani complex, An. gambiae s.l. and An. pharoensis was 1.16, 2.00 and 1.25, respectively. Although the proportion of infected mosquitoes significantly differed in terms of II, infection rate (IR) and mean oocyst density among the species, mean oocyst density and IR were highly correlated with gametocyte density in all tests (P

Published
2022

59. Rare Alleles and Signatures of Selection on the Immunodominant Domains of Pfs230 and Pfs48/45 in Malaria Parasites From Western Kenya

Author

Ochwedo, Kevin O, Ariri, Fredrick O, Otambo, Wilfred O, Magomere, Edwin O, Debrah, Isaiah, Onyango, Shirley A, Orondo, Pauline W, Atieli, Harrysone E, Ogolla, Sidney O, Otieno, Antony CA, Mukabana, Wolfgang R, Githeko, Andrew K, Lee, Ming-Chieh, Yan, Guiyun, Zhong, Daibin, and Kazura, James W

Subjects
Biological Sciences, Genetics, Rare Diseases, Malaria, Prevention, Vector-Borne Diseases, Immunization, Human Genome, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, Infection, Good Health and Well Being, Pfs230, Pfs48, 45, transmission blocking vaccines, genetic diversity, evolutionary forces, Pfs48/45, Clinical Sciences, Law
Abstract

Background: Malaria elimination and eradication efforts can be advanced by including transmission-blocking or reducing vaccines (TBVs) alongside existing interventions. Key transmission-blocking vaccine candidates, such as Pfs230 domain one and Pfs48/45 domain 3, should be genetically stable to avoid developing ineffective vaccines due to antigenic polymorphisms. We evaluated genetic polymorphism and temporal stability of Pfs230 domain one and Pfs48/45 domain three in Plasmodium falciparum parasites from western Kenya. Methods: Dry blood spots on filter paper were collected from febrile malaria patients reporting to community health facilities in endemic areas of Homa Bay and Kisumu Counties and an epidemic-prone area of Kisii County in 2018 and 2019. Plasmodium speciation was performed using eluted DNA and real-time PCR. Amplification of the target domains of the two Pfs genes was performed on P. falciparum positive samples. We sequenced Pfs230 domain one on 156 clinical isolates and Pfs48/45 domain three on 118 clinical isolates to infer the levels of genetic variability, signatures of selection, genetic diversity indices and perform other evolutionary analyses. Results: Pfs230 domain one had low nucleotide diversity (π = 0.15 × 10-2) with slight variation per study site. Six polymorphic sites with nonsynonymous mutations and eight haplotypes were discovered. I539T was a novel variant, whereas G605S was nearing fixation. Pfs48/45 domain three had a low π (0.063 × 10-2), high conservation index, and three segregating sites, resulting in nonsynonymous mutation and four haplotypes. Some loci of Pfs230 D1 were in positive or negative linkage disequilibrium, had negative or positive selection signatures, and others (1813, 1955) and (1813, 1983) had a history of recombination. Mutated loci pairs in Pfs48/45 domain three had negative linkage disequilibrium, and some had negative and positive Tajima's D values with no history of recombination events. Conclusion: The two transmission blocking vaccine candidates have low nucleotide diversity, a small number of zone-specific variants, high nucleotide conservation index, and high frequency of rare alleles. With the near fixation a polymorphic site and the proximity of mutated codons to antibody binding epitopes, it will be necessary to continue monitoring sequence modifications of these domains when designing TBVs that include Pfs230 and Pfs48/45 antigens.

Published
2022

60. High-throughput Plasmodium falciparum hrp2 and hrp3 gene deletion typing by digital PCR to monitor malaria rapid diagnostic test efficacy

Author

Vera-Arias, Claudia A, Holzschuh, Aurel, Oduma, Colins O, Badu, Kingsley, Abdul-Hakim, Mutala, Yukich, Joshua, Hetzel, Manuel W, Fakih, Bakar S, Ali, Abdullah, Ferreira, Marcelo U, Ladeia-Andrade, Simone, Sáenz, Fabián E, Afrane, Yaw, Zemene, Endalew, Yewhalaw, Delenasaw, Kazura, James W, Yan, Guiyun, and Koepfli, Cristian

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Infectious Diseases, Vector-Borne Diseases, Rare Diseases, Genetics, Malaria, Infection, Good Health and Well Being, Antigens, Protozoan, Diagnostic Tests, Routine, Gene Deletion, Humans, Malaria, Falciparum, Plasmodium falciparum, Polymerase Chain Reaction, Protozoan Proteins, malaria, diagnosis, rapid diagnostic test, P, falciparum, P. falciparum, infectious disease, microbiology, Biochemistry and Cell Biology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Most rapid diagnostic tests for Plasmodium falciparum malaria target the Histidine-Rich Proteins 2 and 3 (HRP2 and HRP3). Deletions of the hrp2 and hrp3 genes result in false-negative tests and are a threat for malaria control. A novel assay for molecular surveillance of hrp2/hrp3 deletions was developed based on droplet digital PCR (ddPCR). The assay quantifies hrp2, hrp3, and a control gene with very high accuracy. The theoretical limit of detection was 0.33 parasites/µl. The deletion was reliably detected in mixed infections with wild-type and hrp2-deleted parasites at a density of >100 parasites/reaction. For a side-by-side comparison with the conventional nested PCR (nPCR) assay, 248 samples were screened in triplicate by ddPCR and nPCR. No deletions were observed by ddPCR, while by nPCR hrp2 deletion was observed in 8% of samples. The ddPCR assay was applied to screen 830 samples from Kenya, Zanzibar/Tanzania, Ghana, Ethiopia, Brazil, and Ecuador. Pronounced differences in the prevalence of deletions were observed among sites, with more hrp3 than hrp2 deletions. In conclusion, the novel ddPCR assay minimizes the risk of false-negative results (i.e., hrp2 deletion observed when the sample is wild type), increases sensitivity, and greatly reduces the number of reactions that need to be run.

Published
2022

61. Behavioral responses of pyrethroid resistant and susceptible Anopheles gambiae mosquitoes to insecticide treated bed net

Author

Machani, Maxwell G, Ochomo, Eric, Amimo, Fred, Mukabana, Wolfgang R, Githeko, Andrew K, Yan, Guiyun, and Afrane, Yaw A

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Vector-Borne Diseases, Malaria, Rare Diseases, Infectious Diseases, Prevention of disease and conditions, and promotion of well-being, 2.2 Factors relating to the physical environment, Aetiology, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Animals, Anopheles, Female, Humans, Insecticide Resistance, Insecticide-Treated Bednets, Insecticides, Mosquito Control, Mosquito Vectors, Pyrethrins, General Science & Technology
Abstract

BackgroundLong-lasting insecticidal nets are an effective tool in reducing malaria transmission. However, with increasing insecticide resistance little is known about how physiologically resistant malaria vectors behave around a human-occupied bed net, despite their importance in malaria transmission. We used the Mbita bednet trap to assess the host-seeking behavior of insecticide-resistant Anopheles gambiae mosquitoes under semi-field conditions. The trap incorporates a mosquito netting panel which acts as a mechanical barrier that prevents host-seeking mosquitoes from reaching the human host baiting the trap.MethodsSusceptible and pyrethroid-resistant colonies of female Anopheles gambiae mosquitoes aged 3-5 days old were used in this study. The laboratory-bred mosquitoes were color-marked with fluorescent powders and released inside a semi-field environment where a human subject slept inside a bednet trap erected in a traditional African hut. The netting panel inside the trap was either untreated (control) or deltamethrin-impregnated. The mosquitoes were released outside the hut. Only female mosquitoes were used. A window exit trap was installed on the hut to catch mosquitoes exiting the hut. A prokopack aspirator was used to collect indoor and outdoor resting mosquitoes. In addition, clay pots were placed outside the hut to collect outdoor resting mosquitoes. The F1 progeny of wild-caught mosquitoes were also used in these experiments.ResultsThe mean number of resistant mosquitoes trapped in the deltamethrin-impregnated bed net trap was higher (mean = 50.21± 3.7) compared to susceptible counterparts (mean + 22.4 ± 1.31) (OR = 1.445; P

Published
2022

62. Clinical malaria incidence and health seeking pattern in geographically heterogeneous landscape of western Kenya

Author

Otambo, Wilfred Ouma, Onyango, Patrick O, Ochwedo, Kevin, Olumeh, Julius, Onyango, Shirley A, Orondo, Pauline, Atieli, Harrysone, Lee, Ming-Chieh, Wang, Chloe, Zhong, Daibin, Githeko, Andrew, Zhou, Guofa, Githure, John, Ouma, Collins, Yan, Guiyun, and Kazura, James

Subjects
Rare Diseases, Infectious Diseases, Pediatric, Emerging Infectious Diseases, Clinical Research, Malaria, Vector-Borne Diseases, Infection, Good Health and Well Being, Antimalarials, Child, Fever, Humans, Incidence, Infant, Newborn, Kenya, Active case detection, Malaria incidence, Ultrasensitive RDT, Health seeking behavior, Self-medication, Traditional medication, Microbiology, Clinical Sciences, Medical Microbiology
Abstract

BackgroundMalaria remains a public health problem in Kenya despite sustained interventions deployed by the government. One of the major impediments to effective malaria control is a lack of accurate diagnosis and effective treatment. This study was conducted to assess clinical malaria incidence and treatment seeking profiles of febrile cases in western Kenya.MethodsActive case detection of malaria was carried out in three eco-epidemiologically distinct zones topologically characterized as lakeshore, hillside, and highland plateau in Kisumu County, western Kenya, from March 2020 to March 2021. Community Health Volunteers (CHVs) conducted biweekly visits to residents in their households to interview and examine for febrile illness. A febrile case was defined as an individual having fever (axillary temperature ≥ 37.5 °C) during examination or complaints of fever and other nonspecific malaria related symptoms 1-2 days before examination. Prior to the biweekly malaria testing by the CHVs, the participants' treatment seeking methods were based on their behaviors in response to febrile illness. In suspected malaria cases, finger-prick blood samples were taken and tested for malaria parasites with ultra-sensitive Alere® malaria rapid diagnostic tests (RDT) and subjected to real-time polymerase chain reaction (RT-PCR) for quality control examination.ResultsOf the total 5838 residents interviewed, 2205 residents had high temperature or reported febrile illness in the previous two days before the visit. Clinical malaria incidence (cases/1000people/month) was highest in the lakeshore zone (24.3), followed by the hillside (18.7) and the highland plateau zone (10.3). Clinical malaria incidence showed significant difference across gender (χ2 = 7.57; df = 2, p = 0.0227) and age group (χ2 = 58.34; df = 4, p

Published
2022

63. Risk associations of submicroscopic malaria infection in lakeshore, plateau and highland areas of Kisumu County in western Kenya.

Author

Otambo, Wilfred Ouma, Omondi, Collince J, Ochwedo, Kevin O, Onyango, Patrick O, Atieli, Harrysone, Lee, Ming-Chieh, Wang, Chloe, Zhou, Guofa, Githeko, Andrew K, Githure, John, Ouma, Collins, Yan, Guiyun, and Kazura, James

Subjects
Humans, Plasmodium falciparum, Malaria, Malaria, Falciparum, Prevalence, Cross-Sectional Studies, Kenya, Male, Real-Time Polymerase Chain Reaction, Infectious Diseases, Vector-Borne Diseases, Rare Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, General Science & Technology
Abstract

BackgroundPersons with submicroscopic malaria infection are a major reservoir of gametocytes that sustain malaria transmission in sub-Saharan Africa. Despite recent decreases in the national malaria burden in Kenya due to vector control interventions, malaria transmission continues to be high in western regions of the country bordering Lake Victoria. The objective of this study was to advance knowledge of the topographical, demographic and behavioral risk factors associated with submicroscopic malaria infection in the Lake Victoria basin in Kisumu County.MethodsCross-sectional community surveys for malaria infection were undertaken in three eco-epidemiologically distinct zones in Nyakach sub-County, Kisumu. Adjacent regions were topologically characterized as lakeshore, hillside and highland plateau. Surveys were conducted during the 2019 and 2020 wet and dry seasons. Finger prick blood smears and dry blood spots (DBS) on filter paper were collected from 1,777 healthy volunteers for microscopic inspection and real time-PCR (RT-PCR) diagnosis of Plasmodium infection. Persons who were PCR positive but blood smear negative were considered to harbor submicroscopic infections. Topographical, demographic and behavioral risk factors were correlated with community prevalence of submicroscopic infections.ResultsOut of a total of 1,777 blood samples collected, 14.2% (253/1,777) were diagnosed as submicroscopic infections. Blood smear microscopy and RT-PCR, respectively, detected 3.7% (66/1,777) and 18% (319/1,777) infections. Blood smears results were exclusively positive for P. falciparum, whereas RT-PCR also detected P. malariae and P. ovale mono- and co-infections. Submicroscopic infection prevalence was associated with topographical variation (χ2 = 39.344, df = 2, p

Published
2022

64. Signatures of selection and drivers for novel mutation on transmission-blocking vaccine candidate Pfs25 gene in western Kenya

Author

Ochwedo, Kevin O, Onyango, Shirley A, Omondi, Collince J, Orondo, Pauline W, Ondeto, Benyl M, Lee, Ming-Chieh, Atieli, Harrysone E, Ogolla, Sidney O, Githeko, Andrew K, Otieno, Antony CA, Mukabana, Wolfgang R, Yan, Guiyun, Zhong, Daibin, and Kazura, James W

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Clinical Sciences, Medical Microbiology, Rare Diseases, Vaccine Related, Biotechnology, Malaria, Immunization, Infectious Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Antibodies, Protozoan, Antigens, Protozoan, Humans, Kenya, Malaria Vaccines, Malaria, Falciparum, Mutation, Nucleotides, Plasmodium falciparum, Protozoan Proteins, Selection, Genetic, General Science & Technology
Abstract

BackgroundLeading transmission-blocking vaccine candidates such as Plasmodium falciparum surface protein 25 (Pfs25 gene) may undergo antigenic alterations which may render them ineffective or allele-specific. This study examines the level of genetic diversity, signature of selection and drivers of Pfs25 polymorphisms of parasites population in regions of western Kenya with varying malaria transmission intensities.MethodsDry blood spots (DBS) were collected in 2018 and 2019 from febrile outpatients with malaria at health facilities in malaria-endemic areas of Homa Bay, Kisumu (Chulaimbo) and the epidemic-prone highland area of Kisii. Parasites DNA were extracted from DBS using Chelex method. Species identification was performed using real-time PCR. The 460 base pairs (domains 1-4) of the Pfs25 were amplified and sequenced for a total of 180 P. falciparum-infected blood samples.ResultsNine of ten polymorphic sites were identified for the first time. Overall, Pfs25 exhibited low nucleotide diversity (0.04×10-2) and low mutation frequencies (1.3% to 7.7%). Chulaimbo had the highest frequency (15.4%) of mutated sites followed by Kisii (6.7%) and Homa Bay (5.1%). Neutrality tests of Pfs25 variations showed significant negative values of Tajima's D (-2.15, p

Published
2022

65. Evidence of pyrethroid resistance in Anopheles amharicus and Anopheles arabiensis from Arjo-Didessa irrigation scheme, Ethiopia

Author

Demissew, Assalif, Animut, Abebe, Kibret, Solomon, Tsegaye, Arega, Hawaria, Dawit, Degefa, Teshome, Getachew, Hallelujah, Lee, Ming-Chieh, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Agricultural Biotechnology, Agricultural, Veterinary and Food Sciences, Medical Microbiology, Biomedical and Clinical Sciences, Infectious Diseases, Rare Diseases, Vector-Borne Diseases, Genetics, Malaria, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Agricultural Irrigation, Alleles, Animals, Anopheles, Ethiopia, Insecticide Resistance, Mosquito Vectors, Pyrethrins, General Science & Technology
Abstract

BackgroundIndoor residual spraying and insecticide-treated nets are among the key malaria control intervention tools. However, their efficacy is declining due to the development and spread of insecticide resistant vectors. In Ethiopia, several studies reported resistance of An. arabiensis to multiple insecticide classes. However, such data is scarce in irrigated areas of the country where insecticides, pesticides and herbicides are intensively used. Susceptibility of An. gambiae s.l. to existing and new insecticides and resistance mechanisms were assessed in Arjo-Didessa sugarcane plantation area, southwestern Ethiopia.MethodsAdult An. gambiae s.l. reared from larval/pupal collections of Arjo-Didessa sugarcane irrigation area and its surrounding were tested for their susceptibility to selected insecticides. Randomly selected An. gambiae s.l. (dead and survived) samples were identified to species using species-specific polymerase chain reaction (PCR) and were further analyzed for the presence of knockdown resistance (kdr) alleles using allele-specific PCR.ResultsAmong the 214 An. gambiae s.l. samples analyzed by PCR, 89% (n = 190) were An. amharicus and 9% (n = 20) were An. arabiensis. Mortality rates of the An. gambiae s.l. exposed to deltamethrin and alphacypermethrin were 85% and 86.8%, respectively. On the other hand, mortalities against pirmiphos-methyl, bendiocarb, propoxur and clothianidin were 100%, 99%, 100% and 100%, respectively. Of those sub-samples (An. amharicus and An. arabiensis) examined for presence of kdr gene, none of them were found to carry the L1014F (West African) allelic mutation.ConclusionAnopheles amharicus and An. arabiensis from Arjo-Didessa sugarcane irrigation area were resistant to pyrethroids which might be synergized by extensive use of agricultural chemicals. Occurrence of pyrethroid resistant malaria vectors could challenge the ongoing malaria control and elimination program in the area unless resistance management strategies are implemented. Given the resistance of An. amharicus to pyrethroids, its behavior and vectorial capacity should be further investigated.

Published
2022

66. Influence of landscape heterogeneity on entomological and parasitological indices of malaria in Kisumu, Western Kenya

Author

Otambo, Wilfred Ouma, Onyango, Patrick O, Wang, Chloe, Olumeh, Julius, Ondeto, Benyl M, Lee, Ming-Chieh, Atieli, Harrysone, Githeko, Andrew K, Kazura, James, Zhong, Daibin, Zhou, Guofa, Githure, John, Ouma, Collins, and Yan, Guiyun

Subjects
Vector-Borne Diseases, Infectious Diseases, Rare Diseases, Malaria, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Adult, Animals, Anopheles, Child, Cross-Sectional Studies, Humans, Kenya, Larva, Malaria, Falciparum, Mosquito Vectors, Plasmodium falciparum, Seasons, Sporozoites, Anopheles density, Plasmodium infection prevalence, Landscape, Risk factors, Medical Microbiology, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine
Abstract

BackgroundIdentification and characterization of larval habitats, documentation of Anopheles spp. composition and abundance, and Plasmodium spp. infection burden are critical components of integrated vector management. The present study aimed to investigate the effect of landscape heterogeneity on entomological and parasitological indices of malaria in western Kenya.MethodsA cross-sectional entomological and parasitological survey was conducted along an altitudinal transect in three eco-epidemiological zones: lakeshore along the lakeside, hillside, and highland plateau during the wet and dry seasons in 2020 in Kisumu County, Kenya. Larval habitats for Anopheles mosquitoes were identified and characterized. Adult mosquitoes were sampled using pyrethrum spray catches (PSC). Finger prick blood samples were taken from residents and examined for malaria parasites by real-time PCR (RT-PCR).ResultsIncreased risk of Plasmodium falciparum infection was associated with residency in the lakeshore zone, school-age children, rainy season, and no ITNs (χ2 = 41.201, df = 9, P

Published
2022

67. Correction to: The effect of irrigation on malaria vector bionomics and transmission intensity in western Ethiopia

Author

Haileselassie, Werissaw, Zemene, Endalew, Lee, Ming-Chieh, Zhong, Daibin, Zhou, Guofa, Taye, Behailu, Dagne, Alemayehu, Deressa, Wakgari, Kazura, James W, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Good Health and Well Being, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine, Microbiology, Medical microbiology
Abstract

Following publication of the original article [1], it was brought to our attention that incorrect grant numbers had been provided in the funding declaration of the article. The following grant numbers had been provided: “U19 AI089672 and D43 TW009527”. However, the correct grant numbers are as follows: “U19 AI129326 and D43 TW001505”. The original article has been updated to correct these numbers. The authors thank you for reading this correction and apologize for any inconvenience caused.

Published
2021

68. Survivorship of Anopheles gambiae sensu lato in irrigated sugarcane plantation scheme in Ethiopia

Author

Hawaria, Dawit, Kibret, Solomon, Demissew, Assalif, Tsegaye, Arega, Bitew, Denekew, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Vector-Borne Diseases, Prevention, Malaria, Infectious Diseases, Rare Diseases, Prevention of disease and conditions, and promotion of well-being, 2.2 Factors relating to the physical environment, Aetiology, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Agricultural Irrigation, Agriculture, Animals, Anopheles, Ecosystem, Ethiopia, Female, Male, Mosquito Control, Saccharum, Seasons, Anopheles gambiae s.l., Irrigation, Land cover, Sugarcane, Survivorship, Medical Microbiology, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine
Abstract

BackgroundTo ensure food security, sub-Saharan Africa has initiated massive water resource development projects, such as irrigated agriculture, in recent years. However, such environmental modifications affect the survivorship and development of mosquitoes, which are vectors of different diseases. This study aimed at determining the effects of irrigation practices on development and survivorship of Anopheles gambiae s.l. in Ethiopia.MethodsA life table experiment was conducted to examine the effect of environmental modification on survivorship of both immature and adult An. gambiae s.l. in irrigated and non-irrigated areas. The pupation rate and development time of the immatures and adult longevity and fecundity were compared between the two settings.ResultsThe estimated mean survival time of female An. gambiae s.l. in the irrigated and non-irrigated areas was 37.9 and 31.3 days, respectively. A survival analysis showed that adult females of An. gambiae s.l. placed in an irrigated area lived significantly longer than those in a non-irrigated area (χ2 = 18.3, df = 1, P

Published
2021

69. Malaria vector dynamics and utilization of insecticide-treated nets in low-transmission setting in Southwest Ethiopia: implications for residual transmission

Author

Zemene, Endalew, Belay, Denekew Bitew, Tiruneh, Abebaw, Lee, Ming-Chieh, Yewhalaw, Delenasaw, and Yan, Guiyun

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Rare Diseases, Prevention, Malaria, Infectious Diseases, Vector-Borne Diseases, 2.2 Factors relating to the physical environment, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, Aetiology, Infection, Good Health and Well Being, Animals, Anopheles, Child, Cross-Sectional Studies, Ethiopia, Feeding Behavior, Humans, Insecticides, Mosquito Control, Mosquito Vectors, Anopheline vector dynamics, Human behaviour, ITNs, Residual malaria transmission, Microbiology, Clinical sciences, Medical microbiology, Public health
Abstract

BackgroundUnderstanding the behaviour of local malaria vectors is essential as effectiveness of the commonly used vector-targeted malaria control tools heavily relies on behaviour of the major malaria vectors. This study was conducted to determine species composition, biting behaviour, host preference and infectivity of anopheline mosquitoes, and assess utilization of insecticide-treated nets (ITNs) in a low transmission setting in Southwest Ethiopia.MethodsAdult anopheline mosquitoes were collected using human landing catches (HLCs), Centers for Disease Control and Prevention (CDC) light traps (LTs) and Pyrethrum Spray Catches (PSCs) from June 2016 to May 2018 in Kishe, Jimma Zone, Southwest Ethiopia. The anopheline mosquitoes were morphologically identified. Moreover, sub-sample of An. gambiae s.l. was identified to species using polymerase chain reaction (PCR). Circum-sporozoite proteins (CSPs) and blood meal sources of the anopheline mosquitoes were tested using enzyme-linked immunosorbent assay (ELISA). In addition, a cross-sectional survey was conducted to assess ITN utilization by the inhabitants.ResultsA total of 3659 anopheline mosquitoes comprising An. coustani complex (84.4%), An. gambiae s.l. (11.3%), and An. pharoensis and An. squamosus comprising less than 5% were collected. The anopheline mosquitoes showed marked outdoor (67%) and early evening (63%) biting behaviour. An. coustani complex and An. gambiae s.l. were predominantly zoophilic and anthropophilic, respectively. None of the sampled anopheline were CSP-positive. Most of the households (97.8%) owned at least one ITN, with modest usage by the inhabitants (73.4%). ITN usage was significantly higher among under-five children (AOR = 7.9, 95% CI: 4.41-14.03), household heads and spouses (AOR = 4.8, 95% CI: 3.0-7.59), those with sufficient access to ITNs (AOR = 1.8, 95% CI: 1.39-2.35), and who were not utilizing alternative mosquito repellents (AOR = 2.2, 95% CI: 1.58-2.99).ConclusionThe anopheline mosquito species exhibited predominantly outdoor and early evening biting activity. Household ITN coverage was high with slight gap in usage. Vector control interventions should target outdoor and early biting vectors to further suppress the local mosquito population. Moreover, sensitization of the community on consistent use of ITNs is required.

Published
2021

70. Plasmodium vivax From Duffy-Negative and Duffy-Positive Individuals Share Similar Gene Pools in East Africa

Author

Kepple, Daniel, Hubbard, Alfred, Ali, Musab M, Abargero, Beka R, Lopez, Karen, Pestana, Kareen, Janies, Daniel A, Yan, Guiyun, Hamid, Muzamil Mahdi, Yewhalaw, Delenasaw, and Lo, Eugenia

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Infectious Diseases, Biotechnology, Rare Diseases, Genetics, Malaria, Clinical Research, Vector-Borne Diseases, Infection, Good Health and Well Being, Africa, Eastern, Duffy Blood-Group System, Erythrocytes, Gene Pool, Genetic Variation, Humans, Malaria, Vivax, Plasmodium vivax, Receptors, Cell Surface, Sudan, Plasmodium vivax, Duffy-negative, East Africa, genetic diversity, transmission pathways, Biological Sciences, Medical and Health Sciences, Microbiology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Plasmodium vivax malaria was thought to be rare in Africa, but an increasing number of P. vivax cases reported across Africa and in Duffy-negative individuals challenges this dogma. The genetic characteristics of P. vivax in Duffy-negative infections, the transmission of P. vivax in East Africa, and the impact of environments on transmission remain largely unknown. This study examined genetic and transmission features of P. vivax from 107 Duffy-negative and 305 Duffy-positive individuals in Ethiopia and Sudan. No clear genetic differentiation was found in P. vivax between the 2 Duffy groups, indicating between-host transmission. P. vivax from Ethiopia and Sudan showed similar genetic clusters, except samples from Khartoum, possibly due to distance and road density that inhibited parasite gene flow. This study is the first to show that P. vivax can transmit to and from Duffy-negative individuals and provides critical insights into the spread of P. vivax in sub-Saharan Africa.

Published
2021

71. Rethinking the economic costs of hospitalization for malaria: accounting for the comorbidities of malaria patients in western Kenya.

Author

Watts, Caroline, Atieli, Harrysone, Alacapa, Jason, Lee, Ming-Chieh, Zhou, Guofa, Githeko, Andrew, Yan, Guiyun, and Wiseman, Virginia

Subjects
Humans, Malaria, Hospitalization, Comorbidity, Cost of Illness, Adolescent, Adult, Middle Aged, Child, Child, Preschool, Infant, Infant, Newborn, Health Care Costs, Kenya, Female, Male, Young Adult, Africa, Coinfection, Healthcare costs, Behavioral and Social Science, Infectious Diseases, Health Services, Vector-Borne Diseases, Rare Diseases, Clinical Research, Aetiology, 2.4 Surveillance and distribution, Infection, Good Health and Well Being, Microbiology, Medical Microbiology, Public Health and Health Services, Tropical Medicine
Abstract

BackgroundMalaria causes significant mortality and morbidity in sub-Saharan Africa, especially among children under five years of age and places a huge economic burden on individuals and health systems. While this burden has been assessed previously, few studies have explored how malaria comorbidities affect inpatient costs. This study in a malaria endemic area in Western Kenya, assessed the total treatment costs per malaria episode including comorbidities in children and adults.MethodsTotal economic costs of malaria hospitalizations were calculated from a health system and societal perspective. Patient-level data were collected from patients admitted with a malaria diagnosis to a county-level hospital between June 2016 and May 2017. All treatment documented in medical records were included as health system costs. Patient and household costs included direct medical and non-medical expenses, and indirect costs due to productivity losses.ResultsOf the 746 patients admitted with a malaria diagnosis, 64% were female and 36% were male. The mean age was 14 years (median 7 years). The mean length of stay was three days. The mean health system cost per patient was Kenyan Shilling (KSh) 4288 (USD 42.0) (95% confidence interval (CI) 95% CI KSh 4046-4531). The total household cost per patient was KSh 1676 (USD 16.4) (95% CI KSh 1488-1864) and consisted of: KSh 161 (USD1.6) medical costs; KSh 728 (USD 7.1) non-medical costs; and KSh 787 (USD 7.7) indirect costs. The total societal cost (health system and household costs) per patient was KSh 5964 (USD 58.4) (95% CI KSh 5534-6394). Almost a quarter of patients (24%) had a reported comorbidity. The most common malaria comorbidities were chest infections, diarrhoea, and anaemia. The inclusion of comorbidities compared to patients with-out comorbidities led to a 46% increase in societal costs (health system costs increased by 43% and patient and household costs increased by 54%).ConclusionsThe economic burden of malaria is increased by comorbidities which are associated with longer hospital stays and higher medical costs to patients and the health system. Understanding the full economic burden of malaria is critical if future malaria control interventions are to protect access to care, especially by the poor.

Published
2021

72. The effect of irrigation on malaria vector bionomics and transmission intensity in western Ethiopia.

Author

Haileselassie, Werissaw, Zemene, Endalew, Lee, Ming-Chieh, Zhong, Daibin, Zhou, Guofa, Taye, Behailu, Dagne, Alemayehu, Deressa, Wakgari, Kazura, James W, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Animals, Humans, Anopheles, Plasmodium falciparum, Sporozoites, Malaria, Cross-Sectional Studies, Feeding Behavior, Ecology, Population Density, Ethiopia, Female, Agricultural Irrigation, Oryza, Mosquito Vectors, Irrigation, Mosquito vectors, Transmission intensity, Rare Diseases, Prevention, Vector-Borne Diseases, Infectious Diseases, 3.2 Interventions to alter physical and biological environmental risks, 2.2 Factors relating to the physical environment, Aetiology, Prevention of disease and conditions, and promotion of well-being, Infection, Good Health and Well Being, Medical Microbiology, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine
Abstract

BackgroundIrrigation schemes may result in subsequent changes in malaria disease dynamics. Understanding the mechanisms and effects of irrigation on malaria vector bionomics and transmission intensity is essential to develop new or alternative surveillance and control strategies to reduce or control malaria risk. This study was designed to assess the effect of rice irrigation on malaria vector bionomics and transmission intensity in the Gambella Region, Ethiopia.MethodsComparative cross-sectional study was conducted in Abobo District of the Gambella Region, Ethiopia. Accordingly, clusters (kebeles) were classified into nearby and faraway clusters depending on their proximity to the irrigation scheme. Adult mosquito survey was conducted in February, August and November 2018 from three nearby and three faraway clusters using Centers for Disease Control and Prevention (CDC) light traps (LTs). During the November survey, human landing catch (HLC) and pyrethrum spray catch (PSC) were also conducted. The collected mosquitoes were morphologically identified to species and tested for Plasmodium infection using circumsporozoite protein enzyme-linked immunosorbent assay (CSP-ELISA). Furthermore, species-specific polymerase chain reaction (PCR) was performed to identify member species of the Anopheles gambiae complex. Chi-square and t-tests were used to analyze the data using the SPSS version 20 software package.ResultsA total of 4319 female anopheline mosquitoes comprising An. gambiae sensu lato, An. funestus group, An. pharoensis, An. coustani complex and An. squamosus were collected. Overall, 84.5% and 15.5% of the anopheline mosquitoes were collected from the nearby and faraway clusters, respectively. Anopheles gambiae s.l. was the predominant (56.2%) anopheline species in the area followed by An. pharoensis (15.7%). The density of anopheline mosquitoes was significantly higher in the nearby clusters in both HLCs [t(3)  =  5.14, P  =  0.0143] and CDC LT catches [t(271.97)  =  7.446, P

Published
2021

73. An Adaptive Intervention Trial Design for Finding the Optimal Integrated Strategies for Malaria Control and Elimination in Africa: A Model Simulation Study.

Author

Zhou, Guofa, Lee, Ming-Chieh, Wang, Xiaoming, Zhong, Daibin, Hemming-Schroeder, Elizabeth, and Yan, Guiyun

Subjects
Animals, Humans, Anopheles, Malaria, Piperonyl Butoxide, Bacterial Toxins, Pesticide Synergists, Mosquito Control, Kenya, Insecticide-Treated Bednets, Disease Eradication, Vector-Borne Diseases, Rare Diseases, Clinical Trials and Supportive Activities, Clinical Research, Infectious Diseases, Prevention of disease and conditions, and promotion of well-being, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Medical and Health Sciences, Tropical Medicine
Abstract

There are a number of available and emerging malaria intervention tools that require innovative trial designs to find the optimal combinations at given epidemiologic settings. We simulated intervention strategies based on adaptive interventions, which included long-lasting insecticidal nets (LLINs), piperonyl butoxide-treated LLINs (PBO-LLINs), indoor residual spraying (IRS), and long-lasting microbial larviciding (LLML). The aims were to determine if PBO-LLINs or LLIN+IRS combination is more effective for initial interventions than LLINs and to identify the most effective intervention. We used a clustered, randomized adaptive trial design with malaria infection prevalence (MIP) as the outcome variable. The results indicate that during the initial stage of interventions, compared with regular LLINs, PBO-LLINs (relative reduction [RR]: 29.3%) and LLIN plus IRS with alternative-insecticide (RR: 26.8%) significantly reduced MIP. In the subsequent interventions, adding alternative insecticide IRS (RR: 23.8%) or LLML (RR: 31.2%) to existing PBO-LLIN was effective in further reducing MIP. During the next stage of interventions, adding LLML on top of PBO-LLIN+IRS (with alternative insecticides) had a significant impact on MIP (RR: 39.2%). However, adding IRS (with alternative insecticides) on top of PBO-LLIN+LLML did not significantly reduce MIP (11.6%). Overall, in clusters initiated with PBO-LLIN, adding LLML would be the most effective strategy in reducing MIP; in clusters initiated with LLIN+IRS, replacing LLIN+IRS with PBO-LLIN and LLML would be the most effective in reducing MIP. This study provides a new pathway for informing the optimal integrated malaria vector interventions, and the new strategy can be tested in field trials.

Published
2021

76. Insecticide resistance status of Anopheles arabiensis in irrigated and non-irrigated areas in western Kenya.

Author

Orondo, Pauline Winnie, Nyanjom, Steven G, Atieli, Harrysone, Githure, John, Ondeto, Benyl M, Ochwedo, Kevin O, Omondi, Collince J, Kazura, James W, Lee, Ming-Chieh, Zhou, Guofa, Zhong, Daibin, Githeko, Andrew K, and Yan, Guiyun

Subjects
Agriculture, Insecticide resistance, Knockdown resistance, Malaria vectors, Mycology & Parasitology, Medical Microbiology, Public Health and Health Services, Tropical Medicine
Abstract

BackgroundMalaria control in Kenya is based on case management and vector control using long-lasting insecticidal nets (LLINs) and indoor residual spraying (IRS). However, the development of insecticide resistance compromises the effectiveness of insecticide-based vector control programs. The use of pesticides for agricultural purposes has been implicated as one of the sources driving the selection of resistance. The current study was undertaken to assess the status and mechanism of insecticide resistance in malaria vectors in irrigated and non-irrigated areas with varying agrochemical use in western Kenya.MethodsThe study was carried out in 2018-2019 in Homa Bay County, western Kenya. The bioassay was performed on adults reared from larvae collected from irrigated and non-irrigated fields in order to assess the susceptibility of malaria vectors to different classes of insecticides following the standard WHO guidelines. Characterization of knockdown resistance (kdr) and acetylcholinesterase-inhibiting enzyme/angiotensin-converting enzyme (Ace-1) mutations within Anopheles gambiae s.l. species was performed using the polymerase chain reaction (PCR) method. To determine the agricultural and public health insecticide usage pattern, a questionnaire was administered to farmers, households, and veterinary officers in the study area.ResultsAnopheles arabiensis was the predominant species in the irrigated (100%, n = 154) area and the dominant species in the non-irrigated areas (97.5%, n = 162), the rest being An. gambiae sensu stricto. In 2018, Anopheles arabiensis in the irrigated region were susceptible to all insecticides tested, while in the non-irrigated region reduced mortality was observed (84%) against deltamethrin. In 2019, phenotypic mortality was decreased (97.8-84% to 83.3-78.2%). In contrast, high mortality from malathion (100%), DDT (98.98%), and piperonyl butoxide (PBO)-deltamethrin (100%) was observed. Molecular analysis of the vectors from the irrigated and non-irrigated areas revealed low levels of leucine-serine/phenylalanine substitution at position 1014 (L1014S/L1014F), with mutation frequencies of 1-16%, and low-frequency mutation in the Ace-1R gene (0.7%). In addition to very high coverage of LLINs impregnated with pyrethroids and IRS with organophosphate insecticides, pyrethroids were the predominant chemical class of pesticides used for crop and animal protection.ConclusionAnopheles arabiensis from irrigated areas showed increased phenotypic resistance, and the intensive use of pesticides for crop protection in this region may have contributed to the selection of resistance genes observed. The susceptibility of these malaria vectors to organophosphates and PBO synergists in pyrethroids offers a promising future for IRS and insecticide-treated net-based vector control interventions. These findings emphasize the need for integrated vector control strategies, with particular attention to agricultural practices to mitigate mosquito resistance to insecticides.

Published
2021

77. The impact of large and small dams on malaria transmission in four basins in Africa.

Author

Kibret, Solomon, McCartney, Matthew, Lautze, Jonathan, Nhamo, Luxon, and Yan, Guiyun

Abstract

Expansion of various types of water infrastructure is critical to water security in Africa. To date, analysis of adverse disease impacts has focused mainly on large dams. The aim of this study was to examine the effect of both small and large dams on malaria in four river basins in sub-Saharan Africa (i.e., the Limpopo, Omo-Turkana, Volta and Zambezi river basins). The European Commission's Joint Research Center (JRC) Yearly Water Classification History v1.0 data set was used to identify water bodies in each of the basins. Annual malaria incidence data were obtained from the Malaria Atlas Project (MAP) database for the years 2000, 2005, 2010 and 2015. A total of 4907 small dams and 258 large dams in the four basins, with 14.7million people living close (

Published
2021

78. Impact of underground storm drain systems on larval ecology of Culex and Aedes species in urban environments of Southern California.

Author

Wang, Xiaoming, Zhou, Guofa, Zhong, Daibin, Li, Yiji, Octaviani, Stacia, Shin, Andrew T, Morgan, Timothy, Nguyen, Kiet, Bastear, Jessica, Doyle, Melissa, Cummings, Robert F, and Yan, Guiyun

Abstract

An extensive network of storm water conveyance systems in urban areas, often referred to as the "underground storm drain system" (USDS), serves as significant production habitats for mosquitoes. Knowledge of whether USDS habitats are suitable for newly introduced dengue vectors Aedes aegypti and Ae. albopictus will help guide surveillance and control efforts. To determine whether the USDS functions as a suitable larval habitat for Culex, Ae. aegypti and Ae. albopictus in southern California, we examined mosquito habitat utilization and larval survivorship using laboratory microcosm studies. The data showed that USDS constituted 4.1% of sampled larval habitats for Ae. aegypti and Ae. albopictus, and 22.0% for Cx. quinquefasciatus. Furthermore, USDS water collected in the summer completely inhibited Aedes larval development, but yielded a 15.0% pupation rate for Cx. quinquefasciatus. Food supplementation in the microcosms suggests that nutrient deficiency, toxins and other factors in the USDS water led to low success or complete failure of larval development. These results suggest that USDS habitats are currently not major productive larval habitats for Aedes mosquitoes in southern California. Our findings prompt inclusion of assessments of pupal productivity in USDS habitats and adult mosquito resting sites in the mosquito surveillance program.

Published
2021

79. Insecticide resistance exerts significant fitness costs in immature stages of Anopheles gambiae in western Kenya.

Author

Osoro, Joyce K, Machani, Maxwell G, Ochomo, Eric, Wanjala, Christine, Omukunda, Elizabeth, Munga, Stephen, Githeko, Andrew K, Yan, Guiyun, and Afrane, Yaw A

Subjects
Anopheles gambiae, Fitness, Insecticide resistance, Larval life-traits, Tropical Medicine, Microbiology, Medical Microbiology, Public Health and Health Services
Abstract

BackgroundDespite increasing documentation of insecticide resistance in malaria vectors against public health insecticides in sub-Saharan Africa, there is a paucity of information on the potential fitness costs of pyrethroid resistance in malaria vectors, which is important in improving the current resistant management strategies. This study aimed to assess the fitness cost effects of insecticide resistance on the development and survival of immature Anopheles gambiae from western Kenya.MethodsTwo-hour old, first instar larvae (L1) were introduced and raised in basins containing soil and rainwater in a semi-field set-up. Each day the number of surviving individuals per larval stage was counted and their stage of development were recorded until they emerged as adults. The larval life-history trait parameters measured include mean larval development time, daily survival and pupal emergence. Pyrethroid-resistant colony of An. gambiae sensu stricto and susceptible colony originating from the same site and with the same genetic background were used. Kisumu laboratory susceptible colony was used as a reference.ResultsThe resistant colony had a significantly longer larval development time through the developmental stages than the susceptible colony. The resistant colony took an average of 2 days longer to develop from first instar (L1) to fourth instar (L4) (8.8 ± 0.2 days) compared to the susceptible colony (6.6 ± 0.2 days). The development time from first instar to pupa formation was significantly longer by 3 days in the resistant colony (10.28 ± 0.3 days) than in susceptible colony (7.5 ± 0.2 days). The time from egg hatching to adult emergence was significantly longer for the resistant colony (12.1 ± 0.3 days) than the susceptible colony (9.6 ± 0.2 days). The pupation rate (80%; 95% (CI: 77.5-83.6) vs 83.5%; 95% (CI: 80.6-86.3)) and adult emergence rate (86.3% vs 92.8%) did not differ between the resistant and susceptible colonies, respectively. The sex ratio of the females to males for the resistant (1:1.2) and susceptible colonies (1:1.07) was significantly different.ConclusionThe study showed that pyrethroid resistance in An. gambiae had a fitness cost on their pre-imaginal development time and survival. Insecticide resistance delayed the development and reduced the survivorship of An. gambiae larvae. The study findings are important in understanding the fitness cost of insecticide resistance vectors that could contribute to shaping resistant management strategies.

Published
2021

80. Predicting distribution of malaria vector larval habitats in Ethiopia by integrating distributed hydrologic modeling with remotely sensed data.

Author

Jiang, Ai-Ling, Lee, Ming-Chieh, Zhou, Guofa, Zhong, Daibin, Hawaria, Dawit, Kibret, Solomon, Yewhalaw, Delenasaw, Sanders, Brett F, Yan, Guiyun, and Hsu, Kuolin

Abstract

Larval source management has gained renewed interest as a malaria control strategy in Africa but the widespread and transient nature of larval breeding sites poses a challenge to its implementation. To address this problem, we propose combining an integrated high resolution (50 m) distributed hydrological model and remotely sensed data to simulate potential malaria vector aquatic habitats. The novelty of our approach lies in its consideration of irrigation practices and its ability to resolve complex ponding processes that contribute to potential larval habitats. The simulation was performed for the year of 2018 using ParFlow-Common Land Model (CLM) in a sugarcane plantation in the Oromia region, Ethiopia to examine the effects of rainfall and irrigation. The model was calibrated using field observations of larval habitats to successfully predict ponding at all surveyed locations from the validation dataset. Results show that without irrigation, at least half of the area inside the farms had a 40% probability of potential larval habitat occurrence. With irrigation, the probability increased to 56%. Irrigation dampened the seasonality of the potential larval habitats such that the peak larval habitat occurrence window during the rainy season was extended into the dry season. Furthermore, the stability of the habitats was prolonged, with a significant shift from semi-permanent to permanent habitats. Our study provides a hydrological perspective on the impact of environmental modification on malaria vector ecology, which can potentially inform malaria control strategies through better water management.

Published
2021

81. Impact of deltamethrin-resistance in Aedes albopictus on its fitness cost and vector competence.

Author

Deng, Jielin, Guo, Yijia, Su, Xinghua, Liu, Shuang, Yang, Wenqiang, Wu, Yang, Wu, Kun, Yan, Guiyun, and Chen, Xiao-Guang

Subjects
Biological Sciences, Medical and Health Sciences, Tropical Medicine
Abstract

BackgroundAedes albopictus is one of the most invasive species in the world as well as the important vector for mosquito-borne diseases such as dengue fever, chikungunya fever and zika virus disease. Chemical control of mosquitoes is an effective method to control mosquito-borne diseases, however, the wide and improper application of insecticides for vector control has led to serious resistance problems. At present, there have been many reports on the resistance to pyrethroid insecticides in vector mosquitoes including deltamethrin to Aedes albopictus. However, the fitness cost and vector competence of deltamethrin resistant Aedes albopictus remain unknown. To understand the impact of insecticide resistant mosquito is of great significance for the prevention and control mosquitoes and mosquito-borne diseases.Methodology/principal findingsA laboratory resistant strain (Lab-R) of Aedes albopictus was established by deltamethrin insecticide selecting from the laboratory susceptible strain (Lab-S). The life table between the two strains were comparatively analyzed. The average development time of Lab-R and Lab-S in larvae was 9.7 days and 8.2 days (P < 0.005), and in pupae was 2.0 days and 1.8 days respectively (P > 0.05), indicating that deltamethrin resistance prolongs the larval development time of resistant mosquitoes. The average survival time of resistant adults was significantly shorter than that of susceptible adults, while the body weight of resistant female adults was significantly higher than that of the susceptible females. We also compared the vector competence for dengue virus type-2 (DENV-2) between the two strains via RT-qPCR. Considering the results of infection rate (IR) and virus load, there was no difference between the two strains during the early period of infection (4, 7, 10 day post infection (dpi)). However, in the later period of infection (14 dpi), IR and virus load in heads, salivary glands and ovaries of the resistant mosquitoes were significantly lower than those of the susceptible strain (IR of heads, salivary glands and ovaries: P < 0.05; virus load in heads and salivary glands: P < 0.05; virus load in ovaries: P < 0.001). And then, fourteen days after the DENV-2-infectious blood meal, females of the susceptible and resistant strains were allow to bite 5-day-old suckling mice. Both stains of mosquito can transmit DENV-2 to mice, but the onset of viremia was later in the mice biting by resistant group as well as lower virus copies in serum and brains, suggesting that the horizontal transmission of the resistant strain is lower than the susceptible strain. Meanwhile, we also detected IR of egg pools of the two strains on 14 dpi and found that the resistant strain were less capable of vertical transmission than susceptible mosquitoes. In addition, the average survival time of the resistant females infected with DENV-2 was 16 days, which was the shortest among the four groups of female mosquitoes, suggesting that deltamethrin resistance would shorten the life span of female Aedes albopictus infected with DENV-2.Conclusions/significanceAs Aedes albopictus developing high resistance to deltamethrin, the resistance prolonged the growth and development of larvae, shorten the life span of adults, as well as reduced the vector competence of resistant Aedes albopictus for DENV-2. It can be concluded that the resistance to deltamethrin in Aedes albopictus is a double-edged sword, which not only endow the mosquito survive under the pressure of insecticide, but also increase the fitness cost and decrease its vector competence. However, Aedes albopictus resistant to deltamethrin can still complete the external incubation period and transmit dengue virus, which remains a potential vector for dengue virus transmission and becomes a threat to public health. Therefore, we should pay high attention for the problem of insecticide resistance so that to better prevent and control mosquito-borne diseases.

Published
2021

82. Patterns of human exposure to early evening and outdoor biting mosquitoes and residual malaria transmission in Ethiopia

Author

Degefa, Teshome, Githeko, Andrew K, Lee, Ming-Chieh, Yan, Guiyun, and Yewhalaw, Delenasaw

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Microbiology, Clinical Sciences, Medical Microbiology, Malaria, Rare Diseases, Vector-Borne Diseases, Infectious Diseases, Prevention, 3.2 Interventions to alter physical and biological environmental risks, Prevention of disease and conditions, and promotion of well-being, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Animals, Anopheles, Cattle, Female, Humans, Insect Bites and Stings, Mosquito Control, Mosquito Vectors, Vector behavior, Human behavior, Exposure, Residual transmission, Ethiopia, Medical and Health Sciences, Tropical Medicine, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Ethiopia has shown a notable progress in reducing malaria burden over the past decade, mainly due to the scaleup of vector control interventions such as long-lasting insecticidal nets (LLINs) and indoor residual spraying (IRS). Based on the progress, the country has set goals to eliminate malaria by 2030. However, residual malaria transmission due to early evening and outdoor biting vectors could pose a challenge to malaria elimination efforts. This study assessed vector behavior, patterns of human exposure to vector bites and residual malaria transmission in southwestern Ethiopia. Anopheles mosquitoes were collected monthly from January to December 2018 using human landing catches (HLCs), human-baited double net traps, CDC light traps and pyrethrum spray catches. Human behavior data were collected using questionnaire to estimate the magnitude of human exposure to mosquito bites occurring indoors and outdoors at various times of the night. Enzyme-linked immunosorbent assay (ELISA) was used to determine mosquito blood meal sources and sporozoite infections. A total of 2,038 female Anopheles mosquitoes comprising Anopheles arabiensis (30.8%), An. pharoensis (40.5%), An. coustani (28.1%), An. squamosus (0.3%) and An. funestus group (0.2%) were collected. Anopheles arabiensis and An. pharoensis were 2.4 and 2.5 times more likely to seek hosts outdoors than indoors, respectively. However, 66% of human exposure to An. arabiensis and 39% of exposure to An. pharoensis bites occurred indoors for LLIN non-users. For LLIN users, 75% of residual exposure to An. arabiensis bites occurred outdoors while 23% occurred indoors before bed time. Likewise, 84% of residual exposure to An. pharoensis bites occurred outdoors while 15% occurred indoors before people retired to bed. Anopheles arabiensis and An. pharoensis were 4.1 and 4.8 times more likely to feed on bovine than humans, respectively. Based on the HLC, an estimated indoor and outdoor EIR of An. arabiensis was 6.2 and 1.4 infective bites/person/year, respectively, whereas An. pharoensis had an estimated outdoor EIR of 3.0 infective bites/person/year. In conclusion, An. arabiensis and An. pharoensis showed exophagic and zoophagic behavior. Human exposure to An. arabiensis bites occurred mostly indoors for LLIN non-users, while most of the exposure to both An. arabiensis and An. pharoensis bites occurred outdoors for LLIN users. Malaria transmission by An. arabiensis occurred both indoors and outdoors, whereas An. pharoensis contributed exclusively to outdoor transmission. Additional control tools targeting early-evening and outdoor biting malaria vectors are required to complement the current control interventions to control residual transmission and ultimately achieve malaria elimination.

Published
2021

83. Microgeographic Epidemiology of Malaria Parasites in an Irrigated Area of Western Kenya by Deep Amplicon Sequencing.

Author

Hemming-Schroeder, Elizabeth, Zhong, Daibin, Kibret, Solomon, Chie, Amanda, Lee, Ming-Chieh, Zhou, Guofa, Atieli, Harrysone, Githeko, Andrew, Kazura, James W, and Yan, Guiyun

Subjects
Animals, Humans, Plasmodium, Malaria, Falciparum, Merozoite Surface Protein 1, Kenya, Agricultural Irrigation, Plasmodium falciparum, amplicon sequencing, infection complexity, irrigation, microgeographic epidemiology, transmission intensity, Rare Diseases, Vector-Borne Diseases, Infectious Diseases, Malaria, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Plasmodium falciparum, Biological Sciences, Medical and Health Sciences, Microbiology
Abstract

To improve food security, investments in irrigated agriculture are anticipated to increase throughout Africa. However, the extent to which environmental changes from water resource development will impact malaria epidemiology remains unclear. This study was designed to compare the sensitivity of molecular markers used in deep amplicon sequencing for evaluating malaria transmission intensities and to assess malaria transmission intensity at various proximities to an irrigation scheme. Compared to ama1, csp, and msp1 amplicons, cpmp required the smallest sample size to detect differences in infection complexity between transmission risk zones. Transmission intensity was highest within 5 km of the irrigation scheme by polymerase chain reaction positivity rate, infection complexity, and linkage disequilibrium. The irrigated area provided a source of parasite infections for the surrounding 2- to 10-km area. This study highlights the suitability of the cpmp amplicon as a measure for transmission intensities and the impact of irrigation on microgeographic epidemiology of malaria parasites.

Published
2021

84. Widespread multiple insecticide resistance in the major dengue vector Aedes albopictus in Hainan Province, China.

Author

Li, Yiji, Zhou, Guofa, Zhong, Daibin, Wang, Xiaoming, Hemming-Schroeder, Elizabeth, David, Randy E, Lee, Ming-Chieh, Zhong, Saifeng, Yi, Guohui, Liu, Zhuanzhuan, Cui, Guzhen, and Yan, Guiyun

Subjects
Animals, Aedes, Dengue, Pyrethrins, Insecticides, Insecticide Resistance, China, Zika Virus, Zika Virus Infection, Aedes albopictus, Hainan Province, insecticide resistance, knockdown resistance, piperonyl butoxide, Vector-Borne Diseases, Infectious Diseases, Vaccine Related, Rare Diseases, Biodefense, Prevention, Emerging Infectious Diseases, 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, Environmental Science and Management, Crop and Pasture Production, Entomology
Abstract

BackgroundAedes albopictus is a highly invasive mosquito and has become a potential vector of dengue, chikungunya and Zika viruses. Insecticide-based mosquito interventions are the main tools for vector-borne disease control. However, mosquito resistance to insecticides is a major threat to effective prevention and control. Five Ae. albopictus populations across Hainan Province, China were investigated for susceptibility to multiple insecticide and resistance mechanisms.ResultsLarval bioassays indicated that resistance to pyrethroids was common in all larval populations. Adult bioassays revealed all populations were either resistant or highly resistant to at least four of the six synthetic insecticides (deltamethrin, permethrin, cyfluthrin, propoxur, malathion, and DDT) tested. Pre-exposure of mosquitoes to the synergistic agent piperonyl butoxide (PBO) increased mosquito mortality by 2.4-43.3% in bioassays to DDT, malathion, and permethrin and rendered mosquito sensitive to deltamethrin, cyfluthrin, and propoxur. The frequency of knockdown resistance (kdr) mutations (F1534S and F1534C) ranged from 69.8% to 89.3% and from 38.1% to 87.0% in field-resistant and sensitive populations, respectively. F1534S mutation was significantly associated with pyrethroid resistance. No mutation was detected in the acetylcholinesterase (ace-1) gene in the two examined populations.ConclusionThis study provides evidence of widespread resistance to multiple insecticides in Ae. albopictus in Hainan Province, China. Both kdr mutations and metabolic detoxification were potential causes of insecticide resistance for Ae. albopictus. Our findings highlight the need for insecticide resistance management and mosquito control measures that do not entirely depend on synthetic insecticides. © 2020 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Published
2021

86. Multi-Indicator and Multistep Assessment of Malaria Transmission Risks in Western Kenya.

Author

Zhou, Guofa, Zhong, Daibin, Lee, Ming-Chieh, Wang, Xiaoming, Atieli, Harrysone E, Githure, John I, Githeko, Andrew K, Kazura, James, and Yan, Guiyun

Subjects
Animals, Humans, Anopheles, Malaria, Incidence, Risk Factors, Cohort Studies, Cross-Sectional Studies, Carrier State, Mosquito Control, Larva, Socioeconomic Factors, Kenya, Female, Mosquito Vectors, Prevention, Infectious Diseases, Rare Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Medical and Health Sciences, Tropical Medicine
Abstract

Malaria risk factor assessment is a critical step in determining cost-effective intervention strategies and operational plans in a regional setting. We develop a multi-indicator multistep approach to model the malaria risks at the population level in western Kenya. We used a combination of cross-sectional seasonal malaria infection prevalence, vector density, and cohort surveillance of malaria incidence at the village level to classify villages into malaria risk groups through unsupervised classification. Generalized boosted multinomial logistics regression analysis was performed to determine village-level risk factors using environmental, biological, socioeconomic, and climatic features. Thirty-six villages in western Kenya were first classified into two to five operational groups based on different combinations of malaria risk indicators. Risk assessment indicated that altitude accounted for 45-65% of all importance value relative to all other factors; all other variable importance values were < 6% in all models. After adjusting by altitude, villages were classified into three groups within distinct geographic areas regardless of the combination of risk indicators. Risk analysis based on altitude-adjusted classification indicated that factors related to larval habitat abundance accounted for 63% of all importance value, followed by geographic features related to the ponding effect (17%), vegetation cover or greenness (15%), and the number of bed nets combined with February temperature (5%). These results suggest that altitude is the intrinsic factor in determining malaria transmission risk in western Kenya. Malaria vector larval habitat management, such as habitat reduction and larviciding, may be an important supplement to the current first-line vector control tools in the study area.

Published
2021

87. Increased investment in gametocytes in asymptomatic Plasmodium falciparum infections in the wet season.

Author

Oduma, Colins O, Ogolla, Sidney, Atieli, Harrysone, Ondigo, Bartholomew N, Lee, Ming-Chieh, Githeko, Andrew K, Dent, Arlene E, Kazura, James W, Yan, Guiyun, and Koepfli, Cristian

Subjects
Asymptomatic, Gametocyte, Plasmodium falciparum, Season, Transmission, Microbiology, Clinical Sciences, Medical Microbiology
Abstract

BackgroundTransmission stemming from asymptomatic infections is increasingly being recognized as a threat to malaria elimination. In many regions, malaria transmission is seasonal. It is not well understood whether Plasmodium falciparum modulates its investment in transmission to coincide with seasonal vector abundance.MethodsWe sampled 1116 asymptomatic individuals in the wet season, when vectors are abundant, and 1743 in the dry season, in two sites in western Kenya, representing different transmission intensities (Chulaimbo, moderate transmission, and Homa Bay, low transmission). Blood samples were screened for P. falciparum by qPCR, and gametocytes by pfs25 RT-qPCR.ResultsParasite prevalence by qPCR was 27.1% (Chulaimbo, dry), 48.2% (Chulaimbo, wet), 9.4% (Homabay, dry), and 7.8% (Homabay, wet). Mean parasite densities did not differ between seasons (P = 0.562). pfs25 transcripts were detected in 119/456 (26.1%) of infections. In the wet season, fewer infections harbored detectable gametocytes (22.3% vs. 33.8%, P = 0.009), but densities were 3-fold higher (wet: 3.46 transcripts/uL, dry: 1.05 transcripts/uL, P  1 gametocyte per 2 uL blood), compared to 7.9% in the wet season. Children aged 5-15 years harbored 76.7% of infections with gametocytes at moderate-to-high densities.ConclusionsParasites increase their investment in transmission in the wet season, reflected by higher gametocyte densities. Despite increased gametocyte densities, parasite density remained similar across seasons and were often below the limit of detection of microscopy or rapid diagnostic test, thus a large proportion of infective infections would escape population screening in the wet season. Seasonal changes of gametocytemia in asymptomatic infections need to be considered when designing malaria control measures.

Published
2021

88. Emerging mosquito resistance to piperonyl butoxide-synergized pyrethroid insecticide and its mechanism

Author

Zhou, Guofa, Li, Yiji, Jeang, Brook, Wang, Xiaoming, Zhong, Daibin, and Yan, Guiyun

Subjects
Agricultural Biotechnology, Agricultural, Veterinary and Food Sciences, Rare Diseases, Infectious Diseases, Vector-Borne Diseases, 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
Abstract

Piperonyl butoxide (PBO)-synergized pyrethroid products are widely available for the control of pyrethroid-resistant mosquitoes. To date, no study has formally examined mosquito resistance to PBO-synergized insecticides. We used Culex quinquefasciatus as a model mosquito examined the insecticide resistance mechanisms of mosquitoes to PBO-synergized pyrethroid using modified World Health Organization tube bioassays and biochemical analysis of metabolic enzyme expressions prior- and post-PBO exposure. We measured mosquito mortalities and metabolic enzyme expressions in mosquitoes with/without pre-exposure to different PBO concentrations and exposure durations. We found that field Culex quinquefasciatus mosquitoes were resistant to all insecticides tested, including PBO-synergized pyrethroids (mortality ranged from 3.7±4.7% to 66.7±7.7%), except malathion. Field mosquitoes had elevated levels of carboxylesterase (COE, 3.8-fold) and monooxygenase (P450, 2.1-fold) but not glutathione S-transferase (GST) compared to susceptible mosquitoes. When the field mosquitoes were pre-exposed to 4% PBO, the 50% lethal concentration of deltamethrin was reduced from 0.22% to 0.10%, compare to 0.02% for susceptible mosquitoes. Knockdown resistance gene mutation (L1014F) rate was 62% in field mosquitoes. PBO pre-exposure suppressed P450 enzyme expression levels by 25∼34%, GST by 11%, and had no impact on COE enzyme expression. Even with the optimal PBO concentration and exposure duration, field mosquitoes had significantly higher P450 enzyme expression levels after PBO exposure compared to laboratory controls. These results demonstrate that PBO alone may not be enough to control highly pyrethroid resistant mosquitoes due to the multiple resistance mechanisms. Mosquito resistance to PBO-synergized insecticide should be closely monitored. Authors’ Summary Mosquitoes are vectors of many major infectious diseases globally. Insecticides and related products are widely used for mosquito controls and disease preventions. Over time and following repeated use, mosquitoes (including Aedes, Anopheles and Culex ) have developed very high resistance to multiple insecticides all over the world. Target site insensitivity due to mutations in the voltage-gated sodium channel gene and overproduction of metabolic detoxification enzymes such as cytochrome P450 (CYP) monooxygenases play critical role in insecticide resistance in mosquitoes. To enhance the killing power of insecticides, synergized insecticides were developed by mixing insecticide synergists with pyrethroids. Discovered in the 1940s, piperonyl butoxide (PBO) is one of the earliest and most commonly used insecticide synergists. Field application of PBO-synergized insecticides performed far better than mono-pyrethroids. PBO-treated long-lasting insecticidal nets (PBO-LLINs), which also use pyrethroids, outperformed regular LLIN for malaria control in many African countries. PBO-LLIN is soon to be rolled out on a large scale for malaria control in Africa. One important question regarding the use of synergized insecticides is whether they will select for vector population resistance to synergized insecticide products, in other words, are PBO-synergized pyrethroids effective against highly insecticide-resistant mosquitoes? To date, no study has formally examined mosquito resistance to PBO-synergized insecticides. Here, we used Culex quinquefasciatus as a model mosquito, we examined its resistance status to different insecticides including PBO-synergized pyrethrins and tested how PBO exposure affect mosquito mortality and the expressions of metabolic enzymes. We found that field Culex quinquefasciatus mosquitoes were resistant to multiple insecticides tested, including PBO-synergized pyrethroids. Field mosquitoes had elevated levels of carboxylesterase (COE) and monooxygenase (P450) but not glutathione S-transferase (GST) enzyme expressions compared to susceptible mosquitoes. Even with optimal PBO concentration and exposure duration, field mosquitoes had significantly higher P450 enzyme expression levels after PBO exposure compared to laboratory controls, and PBO exposure had no impact on COE enzyme expressions. The phenomena of the insecticide-resistant mosquitoes’ insensitivity to PBO exposure or PBO-synergized insecticides and multiple-resistance mechanisms have also been reported from Aedes and Anopheles mosquitoes in different countries. These results demonstrate that PBO alone is not enough to control highly pyrethroid resistant mosquitoes due to multiple resistance mechanisms. Mosquito resistance to PBO-synergized insecticide should be closely monitored

Published
2021

89. Unraveling the Complexity of Imported Malaria Infections by Amplicon Deep Sequencing

Author

He, Xi, Zhong, Daibin, Zou, Chunyan, Pi, Liang, Zhao, Luyi, Qin, Yucheng, Pan, Maohua, Wang, Siqi, Zeng, Weiling, Xiang, Zheng, Chen, Xi, Wu, Yanrui, Si, Yu, Cui, Liwang, Huang, Yaming, Yan, Guiyun, and Yang, Zhaoqing

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Malaria, Clinical Research, Vector-Borne Diseases, Infectious Diseases, Rare Diseases, Infection, Good Health and Well Being, Antimalarials, China, Communicable Diseases, Imported, High-Throughput Nucleotide Sequencing, Humans, Malaria, Falciparum, imported malaria, mixed-species infection, relapse, recrudescence, multiplexity of infect drug resistance, drug resistance, multiplexity of infection, Biochemistry and Cell Biology, Microbiology, Medical microbiology
Abstract

Imported malaria and recurrent infections are becoming an emerging issue in many malaria non-endemic countries. This study aimed to determine the molecular patterns of the imported malaria infections and recurrence. Blood samples were collected from patients with imported malaria infections during 2016-2018 in Guangxi Zhuang Autonomous Region, China. Next-generation amplicon deep-sequencing approaches were used to assess parasite genetic diversity, multiplexity of infection, relapse, recrudescence, and antimalarial drug resistance. A total of 44 imported malaria cases were examined during the study, of which 35 (79.5%) had recurrent malaria infections within 1 year. The majority (91.4%) had one recurrent malaria episode, whereas two patients had two recurrences and one patient had three recurrences. A total of 19 recurrence patterns (the species responsible for primary and successive clinical episodes) were found in patients returning from malaria epidemic countries. Four parasite species were detected with a higher than usual proportion (46.2%) of non-falciparum infections or mixed-species infections. An increasing trend of recurrence infections and reduced drug treatment efficacy were observed among the cases of imported malaria. The high recurrence rate and complex patterns of imported malaria from Africa to non-endemic countries have the potential to initiate local transmission, thereby undermining efforts to eliminate locally acquired malaria. Our findings highlight the power of amplicon deep-sequencing applications in molecular epidemiological studies of the imported malaria recurrences.

Published
2021

90. Insecticide resistance status of indoor and outdoor resting malaria vectors in a highland and lowland site in Western Kenya.

Author

Owuor, Kevin O, Machani, Maxwell G, Mukabana, Wolfgang R, Munga, Stephen O, Yan, Guiyun, Ochomo, Eric, and Afrane, Yaw A

Subjects
General Science & Technology
Abstract

BackgroundLong Lasting Insecticidal Nets (LLINs) and indoor residual spraying (IRS) represent powerful tools for controlling malaria vectors in sub-Saharan Africa. The success of these interventions relies on their capability to inhibit indoor feeding and resting of malaria mosquitoes. This study sought to understand the interaction of insecticide resistance with indoor and outdoor resting behavioral responses of malaria vectors from Western Kenya.MethodsThe status of insecticide resistance among indoor and outdoor resting anopheline mosquitoes was compared in Anopheles mosquitoes collected from Kisumu and Bungoma counties in Western Kenya. The level and intensity of resistance were measured using WHO-tube and CDC-bottle bioassays, respectively. The synergist piperonyl butoxide (PBO) was used to determine if metabolic activity (monooxygenase enzymes) explained the resistance observed. The mutations at the voltage-gated sodium channel (Vgsc) gene and Ace 1 gene were characterized using PCR methods. Microplate assays were used to measure levels of detoxification enzymes if present.ResultsA total of 1094 samples were discriminated within Anopheles gambiae s.l. and 289 within An. funestus s.l. In Kisian (Kisumu county), the dominant species was Anopheles arabiensis 75.2% (391/520) while in Kimaeti (Bungoma county) collections the dominant sibling species was Anopheles gambiae s.s 96.5% (554/574). The An. funestus s.l samples analysed were all An. funestus s.s from both sites. Pyrethroid resistance of An.gambiae s.l F1 progeny was observed in all sites. Lower mortality was observed against deltamethrin for the progeny of indoor resting mosquitoes compared to outdoor resting mosquitoes (Mortality rate: 37% vs 51%, P = 0.044). The intensity assays showed moderate-intensity resistance to deltamethrin in the progeny of mosquitoes collected from indoors and outdoors in both study sites. In Kisian, the frequency of vgsc-L1014S and vgsc-L1014F mutation was 0.14 and 0.19 respectively in indoor resting malaria mosquitoes while those of the outdoor resting mosquitoes were 0.12 and 0.12 respectively. The ace 1 mutation was present in higher frequency in the F1 of mosquitoes resting indoors (0.23) compared to those of mosquitoes resting outdoors (0.12). In Kimaeti, the frequencies of vgsc-L1014S and vgsc-L1014F were 0.75 and 0.05 respectively for the F1 of mosquitoes collected indoors whereas those of outdoor resting ones were 0.67 and 0.03 respectively. The ace 1 G119S mutation was present in progeny of mosquitoes from Kimaeti resting indoors (0.05) whereas it was absent in those resting outdoors. Monooxygenase activity was elevated by 1.83 folds in Kisian and by 1.33 folds in Kimaeti for mosquitoes resting indoors than those resting outdoors respectively.ConclusionThe study recorded high phenotypic, metabolic and genotypic insecticide resistance in indoor resting populations of malaria vectors compared to their outdoor resting counterparts. The indication of moderate resistance intensity for the indoor resting mosquitoes is alarming as it could have an operational impact on the efficacy of the existing pyrethroid based vector control tools. The use of synergist (PBO) in LLINs may be a better alternative for widespread use in these regions recording high insecticide resistance.

Published
2021

91. Larval ecology and bionomics of Anopheles funestus in highland and lowland sites in western Kenya.

Author

Debrah, Isaiah, Afrane, Yaw A, Amoah, Linda E, Ochwedo, Kevin O, Mukabana, Wolfgang R, Zhong, Daibin, Zhou, Guofa, Lee, Ming-Chieh, Onyango, Shirley A, Magomere, Edwin O, Atieli, Harrysone, Githeko, Andrew K, and Yan, Guiyun

Subjects
Animals, Humans, Anopheles, Plasmodium falciparum, Malaria, Falciparum, Insecticides, Ecology, Mosquito Control, Larva, Kenya, Insecticide-Treated Bednets, Mosquito Vectors, Rare Diseases, Infectious Diseases, Vector-Borne Diseases, Malaria, Infection, Good Health and Well Being, General Science & Technology
Abstract

BackgroundAn. funestus is a major Afrotropical vector of human malaria. This study sought to investigate the larval ecology, sporozoite infection rates and blood meal sources of An. funestus in western Kenya.MethodsLarval surveys were carried out in Bungoma (Highland) and Kombewa (lowland) of western Kenya. Aquatic habitats were identified, characterized, georeferenced and carefully examined for mosquito larvae and predators. Indoor resting mosquitoes were sampled using pyrethrum spray catches. Adults and larvae were morphologically and molecularly identified to species. Sporozoite infections and blood meal sources were detected using real-time PCR and ELISA respectively.ResultsOf the 151 aquatic habitats assessed, 62/80 (78%) in Bungoma and 58/71(82%) in Kombewa were positive for mosquito larvae. Of the 3,193 larvae sampled, An. funestus larvae constitute 38% (1224/3193). Bungoma recorded a higher number of An. funestus larvae (85%, 95%, CI, 8.722-17.15) than Kombewa (15%, 95%, CI, 1.33-3.91). Molecular identification of larvae showed that 89% (n = 80) were An. funestus. Approximately 59%, 35% and 5% of An. funestus larvae co-existed with An. gambiae s.l, Culex spp and An. coustani in the same habitats respectively. Of 1,221 An. funestus s.l adults sampled, molecular identifications revealed that An. funestus constituted 87% (n = 201) and 88% (n = 179) in Bungoma and Kombewa, respectively. The Plasmodium falciparum sporozoite rate of An. funestus in Bungoma and Kombewa was 2% (3/174) and 1% (2/157), respectively, and the human blood index of An. funestus was 84% (48/57) and 89% (39/44) and for Bungoma and Kombewa, respectively.ConclusionMan-made ponds had the highest abundance of An. funestus larvae. Multiple regression and principal component analyses identified the distance to the nearest house as the key environmental factor associated with the abundance of An. funestus larvae in aquatic habitats. This study serves as a guide for the control of An. funestus and other mosquito species to complement existing vector control strategies.

Published
2021

92. Genetic diversity and population structure of the human malaria parasite Plasmodium falciparum surface protein Pfs47 in isolates from the lowlands in Western Kenya.

Author

Onyango, Shirley A, Ochwedo, Kevin O, Machani, Maxwell G, Omondi, Collince J, Debrah, Isaiah, Ogolla, Sidney O, Lee, Ming-Chieh, Zhou, Guofa, Kokwaro, Elizabeth, Kazura, James W, Afrane, Yaw A, Githeko, Andrew K, Zhong, Daibin, and Yan, Guiyun

Subjects
Humans, Plasmodium falciparum, Malaria, Falciparum, Membrane Glycoproteins, Protozoan Proteins, Cross-Sectional Studies, Gene Frequency, Mutation, Kenya, Genetic Variation, Rare Diseases, Vector-Borne Diseases, Malaria, Genetics, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, General Science & Technology
Abstract

Plasmodium falciparum parasites have evolved genetic adaptations to overcome immune responses mounted by diverse Anopheles vectors hindering malaria control efforts. Plasmodium falciparum surface protein Pfs47 is critical in the parasite's survival by manipulating the vector's immune system hence a promising target for blocking transmission in the mosquito. This study aimed to examine the genetic diversity, haplotype distribution, and population structure of Pfs47 and its implications on malaria infections in endemic lowlands in Western Kenya. Cross-sectional mass blood screening was conducted in malaria endemic regions in the lowlands of Western Kenya: Homa Bay, Kombewa, and Chulaimbo. Dried blood spots and slide smears were simultaneously collected in 2018 and 2019. DNA was extracted using Chelex method from microscopic Plasmodium falciparum positive samples and used to genotype Pfs47 using polymerase chain reaction (PCR) and DNA sequencing. Thirteen observed haplotypes of the Pfs47 gene were circulating in Western Kenya. Population-wise, haplotype diversity ranged from 0.69 to 0.77 and the nucleotide diversity 0.10 to 0.12 across all sites. All the study sites displayed negative Tajima's D values although not significant. However, the negative and significant Fu's Fs statistical values were observed across all the study sites, suggesting population expansion or positive selection. Overall genetic differentiation index was not significant (FST = -0.00891, P > 0.05) among parasite populations. All Nm values revealed a considerable gene flow in these populations. These results could have important implications for the persistence of high levels of malaria transmission and should be considered when designing potential targeted control interventions.

Published
2021

93. 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

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Prevention, Infectious Diseases, Rare Diseases, Malaria, Vector-Borne Diseases, 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, Bacillus thuringiensis, Bacterial Toxins, Cost-Benefit Analysis, Culicidae, Humans, Insecticide Resistance, Insecticide-Treated Bednets, Insecticides, Larva, Mosquito Control, Mosquito Vectors, Pyrethrins, Cost-effectiveness, Long-lasting microbial larvicide, Malaria control and elimination, Supplemental tool, Clinical Sciences, Public Health and Health Services, Clinical sciences, Epidemiology, Public health
Abstract

The issues of pyrethroid resistance and outdoor malaria parasite transmission have prompted the WHO to call for the development and adoption of viable alternative vector control methods. Larval source management is one of the core malaria vector interventions recommended by the Ministry of Health in many African countries, but it is rarely implemented due to concerns on its cost-effectiveness. New long-lasting microbial larvicide can be a promising cost-effective supplement to current vector control and elimination methods because microbial larvicide uses killing mechanisms different from pyrethroids and other chemical insecticides. It has been shown to be effective in reducing the overall vector abundance and thus both indoor and outdoor transmission. In our opinion, the long-lasting formulation can potentially reduce the cost of larvicide field application, and should be evaluated for its cost-effectiveness, resistance development, and impact on non-target organisms when integrating with other malaria vector control measures. In this opinion, we highlight that long-lasting microbial larvicide can be a potential cost-effective product that complements current front-line long-lasting insecticidal nets (LLINs) and indoor residual spraying (IRS) programs for malaria control and elimination. Microbial larviciding targets immature mosquitoes, reduces both indoor and outdoor transmission and is not affected by vector resistance to synthetic insecticides. This control method is a shift from the conventional LLINs and IRS programs that mainly target indoor-biting and resting adult mosquitoes.

Published
2020

94. Spatial heterogeneity and temporal dynamics of mosquito population density and community structure in Hainan Island, China

Author

Li, Yiji, Zhou, Guofa, Zhong, Saifeng, Wang, Xiaoming, Zhong, Daibin, Hemming-Schroeder, Elizabeth, Yi, Guohui, Fu, Fengyang, Fu, Faxing, Cui, Liwang, Cui, Guzhen, and Yan, Guiyun

Subjects
Biological Sciences, Ecology, Infectious Diseases, Vector-Borne Diseases, Emerging Infectious Diseases, Prevention, Good Health and Well Being, Aedes, Animals, Anopheles, Biodiversity, China, Culex, Culicidae, Mosquito Control, Mosquito Vectors, Population Density, Seasons, Vector Borne Diseases, Hainan Island, Mosquito composition, Population dynamics, Species diversity, BGS trap, CDC light trap, Medical Microbiology, Public Health and Health Services, Mycology & Parasitology, Tropical Medicine, Microbiology, Medical microbiology
Abstract

BackgroundMosquitoes are vectors of many tropical diseases. Understanding the ecology of local mosquito vectors, such as species composition, distributions, population dynamics, and species diversity is important for designing the optimal strategy to control the mosquito-borne diseases.MethodsEntomological surveillance of adult mosquitoes was conducted in five sites representing different ecological settings across Hainan Island from January to December of 2018 using BG Sentinel (BGS) traps and Centers for Disease Prevention and Control (CDC) light traps. In each site, we selected three areas representing urban, suburban and rural settings. Eighteen trap-days were sampled in each setting at each site, and CDC light traps and BGS traps were setup simultaneously. Mosquito species composition, distribution, population dynamics, and species diversity were analyzed. Mosquito densities were compared between different study sites and between different settings.ResultsNine species of mosquitoes belonging to four genera were identified. Culex quinquefasciatus (80.8%), Armigeres subalbatus (13.0%) and Anopheles sinensis (3.1%) were the top three species collected by CDC light traps; Cx. quinquefasciatus (91.9%), Ae. albopictus (5.1%), and Ar. subalbatus (2.8%) were the top three species collected by BGS traps. Predominant species varied among study sites. The population dynamics of Ae. albopictus, An. sinensis and Cx. quinquefasciatus showed clear seasonal variation regardless of study sites with a varied peak season for different species. Mosquito abundance of all species showed significant differences among different study sites and among urban, suburban and rural areas. Danzhou had the highest mosquito biodiversity, with an α, β, and Gini-Simpson biodiversity index of 8, 1.13 and 0.42, respectively. BGS traps captured Aedes mosquito at a higher efficiency than CDC light traps, whereas CDC light traps captured significantly more Anopheles and Armigeres mosquitoes than BGS traps.ConclusionsMosquitoes were abundant on Hainan Island with clear seasonality and spatial heterogeneity. Population density, species composition, distribution, and species diversity were strongly affected by the natural environment. Different tools are required for the surveillance of different mosquito species.

Published
2020

95. Evaluation of human-baited double net trap and human-odour-baited CDC light trap for outdoor host-seeking malaria vector surveillance in Kenya and Ethiopia

Author

Degefa, Teshome, Yewhalaw, Delenasaw, Zhou, Guofa, Atieli, Harrysone, Githeko, Andrew K, and Yan, Guiyun

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Infectious Diseases, Malaria, Rare Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Animals, Anopheles, Entomology, Ethiopia, Female, Humans, Kenya, Male, Mosquito Control, Mosquito Vectors, Odorants, Malaria vectors, Outdoor host-seeking, Surveillance, Human-odour-baited CDC light trap, Human-baited double net trap, Microbiology, Public Health and Health Services, Tropical Medicine, Medical microbiology, Public health
Abstract

BackgroundSurveillance of outdoor host-seeking malaria vectors is crucial to monitor changes in vector biting behaviour and evaluate the impact of vector control interventions. Human landing catch (HLC) has been considered the most reliable and gold standard surveillance method to estimate human-biting rates. However, it is labour-intensive, and its use is facing an increasing ethical concern due to potential risk of exposure to infectious mosquito bites. Thus, alternative methods are required. This study was conducted to evaluate the performance of human-odour-baited CDC light trap (HBLT) and human-baited double net trap (HDNT) for outdoor host-seeking malaria vector surveillance in Kenya and Ethiopia.MethodsThe sampling efficiency of HBLT and HDNT was compared with CDC light trap and HLC using Latin Square Design in Ahero and Iguhu sites, western Kenya and Bulbul site, southwestern Ethiopia between November 2015 and December 2018. The differences in Anopheles mosquito density among the trapping methods were compared using generalized linear model.ResultsOverall, 16,963 female Anopheles mosquitoes comprising Anopheles gambiae sensu lato (s.l.), Anopheles funestus s.l., Anopheles pharoensis, Anopheles coustani and Anopheles squamosus were collected. PCR results (n = 552) showed that Anopheles arabiensis was the only member of An. gambiae s.l. in Ahero and Bulbul, while 15.7% An. arabiensis and 84.3% An. gambiae sensu stricto (s.s.) constituted An. gambiae s.l. in Iguhu. In Ahero, HBLT captured 2.23 times as many An. arabiensis and 2.11 times as many An. funestus as CDC light trap. In the same site, HDNT yielded 3.43 times more An. arabiensis and 3.24 times more An. funestus than HBLT. In Iguhu, the density of Anopheles mosquitoes did not vary between the traps (p > 0.05). In Bulbul, HBLT caught 2.19 times as many An. arabiensis as CDC light trap, while HDNT caught 6.53 times as many An. arabiensis as CDC light trap. The mean density of An. arabiensis did not vary between HDNT and HLC (p = 0.098), whereas the HLC yielded significantly higher density of An. arabiensis compared to HBLT and CDC light trap. There was a significant density-independent positive correlation between HDNT and HLC (r = 0.69).ConclusionThis study revealed that both HBLT and HDNT caught higher density of malaria vectors than conventional CDC light trap. Moreover, HDNT yielded a similar vector density as HLC, suggesting that it could be an alternative tool to HLC for outdoor host-seeking malaria vector surveillance.

Published
2020

96. Ecological drivers of genetic connectivity for African malaria vectors Anopheles gambiae and An. arabiensis.

Author

Hemming-Schroeder, Elizabeth, Zhong, Daibin, Machani, Maxwell, Nguyen, Hoan, Thong, Sarah, Kahindi, Samuel, Mbogo, Charles, Atieli, Harrysone, Githeko, Andrew, Lehmann, Tovi, Kazura, James W, and Yan, Guiyun

Abstract

Anopheles gambiae and An. arabiensis are major malaria vectors in sub-Saharan Africa. Knowledge of how geographical factors drive the dispersal and gene flow of malaria vectors can help in combatting insecticide resistance spread and planning new vector control interventions. Here, we used a landscape genetics approach to investigate population relatedness and genetic connectivity of An. gambiae and An. arabiensis across Kenya and determined the changes in mosquito population genetic diversity after 20 years of intensive malaria control efforts. We found a significant reduction in genetic diversity in An. gambiae, but not in An. arabiensis as compared to prior to the 20-year period in western Kenya. Significant population structure among populations was found for both species. The most important ecological driver for dispersal and gene flow of An. gambiae and An. arabiensis was tree cover and cropland, respectively. These findings highlight that human induced environmental modifications may enhance genetic connectivity of malaria vectors.

Published
2020

97. Phenotypic, genotypic and biochemical changes during pyrethroid resistance selection in Anopheles gambiae mosquitoes.

Author

Machani, Maxwell G, Ochomo, Eric, Zhong, Daibin, Zhou, Guofa, Wang, Xiaoming, Githeko, Andrew K, Yan, Guiyun, and Afrane, Yaw A

Abstract

The directional selection for insecticide resistance due to indiscriminate use of insecticides in public health and agricultural system favors an increase in the frequency of insecticide-resistant alleles in the natural populations. Similarly, removal of selection pressure generally leads to decay in resistance. Past investigations on the emergence of insecticide resistance in mosquitoes mostly relied on field survey of resistance in vector populations that typically had a complex history of exposure to various public health and agricultural pest control insecticides in nature, and thus the effect of specific insecticides on rate of resistance emergency or resistance decay rate is not known. This study examined the phenotypic, genotypic, and biochemical changes that had occurred during the process of selection for pyrethroid resistance in Anopheles gambiae, the most important malaria vector in Africa. In parallel, we also examined these changes in resistant populations when there is no selection pressure applied. Through repeated deltamethrin selection in adult mosquitoes from a field population collected in western Kenya for 12 generations, we obtained three independent and highly pyrethroid-resistant An. gambiae populations. Three susceptible populations from the same parental population were generated by removing selection pressure. These two lines of mosquito populations differed significantly in monooxygenase and beta-esterase activities, but not in Vgsc gene mutation frequency, suggesting metabolic detoxification mechanism plays a major role in generating moderate-intensity resistance or high-intensity resistance. Pre-exposure to the synergist piperonyl butoxide restored the susceptibility to insecticide among the highly resistant mosquitoes, confirming the role of monooxygenases in pyrethroid resistance. The rate of resistance decay to become fully susceptible from moderate-intensity resistance took 15 generations, supporting at least 2-years interval is needed when the rotational use of insecticides with different modes of action is considered for resistance management.

Published
2020

98. Vertical transmission of zika virus in Aedes albopictus.

Author

Lai, Zetian, Zhou, Tengfei, Zhou, Jiayong, Liu, Shuang, Xu, Ye, Gu, Jinbao, Yan, Guiyun, and Chen, Xiao-Guang

Subjects
Biological Sciences, Medical and Health Sciences, Tropical Medicine
Abstract

BackgroundZika virus (ZIKV) is an arthropod-borne flavivirus transmitted by Aedes mosquitoes. Aedes albopictus is an important vector of ZIKV worldwide. To date, most experiments have focused on the vertical transmission of ZIKV in Ae. aegypti, while studies on Ae. albopictus are very limited. To explore vertical transmission in Ae. albopictus, a series of laboratory studies were carried out.Methodology/principal findingsIn this study, Ae. albopictus were blood-fed with ZIKV-infectious blood, and the ovaries and offspring viral infection rates were analyzed by reverse transcription PCR (RT-PCR), real-time reverse transcription PCR (RT-qPCR) and immunohistochemistry (IHC). ZIKV was detected in the ovaries and oviposited eggs in two gonotrophic cycles. The minimum filial egg infection rates in two gonotrophic cycles were 2.06% and 0.69%, and the effective population transmission rate was 1.87%. The hatching, pupation, and emergence rates of infected offspring were not significantly different from those of uninfected offspring, indicating that ZIKV did not prevent the offspring from completing the growth and development process. ZIKV was detected in three of thirteen C57BL/6 suckling mice bitten by ZIKV-positive F1 females, and the viremia persisted for at least seven days.Conclusions/significanceZIKV can be vertically transmitted in Ae. albopictus via transovarial transmission. The vertical transmission rates in F1 eggs and adults were 2.06% and 1.87%, respectively. Even though the vertical transmission rates were low, the female mosquitoes infected via the congenital route horizontally transmitted ZIKV to suckling mice through bloodsucking. This is the first experimental evidence of offspring with vertically transmitted ZIKV initiating new horizontal transmission. The present study deepens the understanding of the vertical transmission of flaviviruses in Aedes mosquitoes and sheds light on the prevention and control of mosquito-borne diseases.

Published
2020

99. Whole genome sequencing of Plasmodium vivax isolates reveals frequent sequence and structural polymorphisms in erythrocyte binding genes.

Author

Ford, Anthony, Kepple, Daniel, Abagero, Beka Raya, Connors, Jordan, Pearson, Richard, Auburn, Sarah, Getachew, Sisay, Ford, Colby, Gunalan, Karthigayan, Miller, Louis H, Janies, Daniel A, Rayner, Julian C, Yan, Guiyun, Yewhalaw, Delenasaw, and Lo, Eugenia

Subjects
Erythrocytes, Humans, Plasmodium vivax, Malaria, Vivax, Receptors, Cell Surface, Protozoan Proteins, DNA, Protozoan, Antigens, Protozoan, Duffy Blood-Group System, Phylogeny, Polymorphism, Single Nucleotide, Genome, Protozoan, Ethiopia, DNA Copy Number Variations, Whole Genome Sequencing, Biological Sciences, Medical and Health Sciences, Tropical Medicine
Abstract

Plasmodium vivax malaria is much less common in Africa than the rest of the world because the parasite relies primarily on the Duffy antigen/chemokine receptor (DARC) to invade human erythrocytes, and the majority of Africans are Duffy negative. Recently, there has been a dramatic increase in the reporting of P. vivax cases in Africa, with a high number of them being in Duffy negative individuals, potentially indicating P. vivax has evolved an alternative invasion mechanism that can overcome Duffy negativity. Here, we analyzed single nucleotide polymorphism (SNP) and copy number variation (CNV) in Whole Genome Sequence (WGS) data from 44 P. vivax samples isolated from symptomatic malaria patients in southwestern Ethiopia, where both Duffy positive and Duffy negative individuals are found. A total of 123,711 SNPs were detected, of which 22.7% were nonsynonymous and 77.3% were synonymous mutations. The largest number of SNPs were detected on chromosomes 9 (24,007 SNPs; 19.4% of total) and 10 (16,852 SNPs, 13.6% of total). There were particularly high levels of polymorphism in erythrocyte binding gene candidates including merozoite surface protein 1 (MSP1) and merozoite surface protein 3 (MSP3.5, MSP3.85 and MSP3.9). Two genes, MAEBL and MSP3.8 related to immunogenicity and erythrocyte binding function were detected with significant signals of positive selection. Variation in gene copy number was also concentrated in genes involved in host-parasite interactions, including the expansion of the Duffy binding protein gene (PvDBP) on chromosome 6 and MSP3.11 on chromosome 10. Based on the phylogeny constructed from the whole genome sequences, the expansion of these genes was an independent process among the P. vivax lineages in Ethiopia. We further inferred transmission patterns of P. vivax infections among study sites and showed various levels of gene flow at a small geographical scale. The genomic features of P. vivax provided baseline data for future comparison with those in Duffy-negative individuals and allowed us to develop a panel of informative Single Nucleotide Polymorphic markers diagnostic at a micro-geographical scale.

Published
2020

100. Extensive new Anopheles cryptic species involved in human malaria transmission in western Kenya.

Author

Zhong, Daibin, Hemming-Schroeder, Elizabeth, Wang, Xiaoming, Kibret, Solomon, Zhou, Guofa, Atieli, Harrysone, Lee, Ming-Chieh, Afrane, Yaw A, Githeko, Andrew K, and Yan, Guiyun

Subjects
Animals, Anopheles, Plasmodium falciparum, Malaria, Malaria, Falciparum, Insect Vectors, Demography, Mosquito Control, Phylogeny, Species Specificity, Kenya, Mosquito Vectors, Vector Borne Diseases
Abstract

A thorough understanding of malaria vector species composition and their bionomic characteristics is crucial to devise effective and efficient vector control interventions to reduce malaria transmission. It has been well documented in Africa that malaria interventions in the past decade have resulted in major changes in species composition from endophilic Anopheles gambiae to exophilic An. arabiensis. However, the role of cryptic rare mosquito species in malaria transmission is not well known. This study examined the species composition and distribution, with a particular focus on malaria transmission potential of novel, uncharacterized Anopheles cryptic species in western Kenya. Phylogenetic analysis based on ITS2 and COX1 genes revealed 21 Anopheles mosquito species, including two previously unreported novel species. Unusually high rates of Plasmodium sporozoite infections were detected in An. funestus, An. gambiae and eight cryptic rare species. Plasmodium falciparum, P. malariae and P. ovale sporozoite infections were identified with large proportion of mixed species infections in these vectors. This study, for the first time, reports extensive new Anopheles cryptic species involved in the malaria transmission in western Kenya. These findings underscore the importance of non-common Anopheles species in malaria transmission and the need to target them in routine vector control and surveillance efforts.

Published
2020

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