Your search keyword '"Patchara Sriwichai"' showing total 84 results

1. Potential of emodepside for vector-borne disease control

Author

Pattarapon Khemrattrakool, Thitipong Hongsuwong, Theerawit Phanphoowong, Patchara Sriwichai, Kittiyod Poovorawan, Joel Tarning, and Kevin C. Kobylinski

Subjects

Emodepside, Ivermectin, Anopheles dirus, Aedes aegypti, Mosquito, Survival, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Emodepside is an anthelmintic used in veterinary medicine that is currently under investigation in human clinical trials for the treatment of soil-transmitted helminths and possibly Onchocerca volvulus. Emodepside targets the calcium-activated voltage-gated potassium slowpoke 1 (SLO-1) channels of presynaptic nerves of pharynx and body wall muscle cells of nematodes leading to paralysis, reduced locomotion and egg laying, starvation, and death. Emodepside also has activity against Drosophila melanogaster SLO-1 channels. Orthologous SLO-1 genes are present in Anopheles gambiae and Aedes aegypti, suggesting that emodepside may have activity against mosquitoes. Methods Both Anopheles dirus and Ae. aegypti were blood-fed emodepside across a range of concentrations (1–10,000 nM) and mosquito survival was monitored for 10 days. Co-feeding experiments were also performed with An. dirus blood fed ivermectin at the concentrations that kills 25% (LC25) and 50% (LC50) of mosquitoes with and without emodepside at clinical peak concentration in humans (Cmax) and five times the Cmax, and mosquito survival was monitored for 10 days. Results Emodepside had weak mosquito-lethal effects in An. dirus but none observed in Ae. aegypti at the concentrations evaluated. The An. dirus emodepside LC50 was 4,623 [4,159–5,066] ng/ml which is > 100-fold greater than the peak concentrations seen in human. The ivermectin and emodepside co-feed experiment with An. dirus did not indicate any altered effect of ivermectin on mosquito survival when emodepside co-fed at human Cmax or five times that of the human Cmax. Conclusions Emodepside was not lethal to An. dirus at human-relevant concentrations and had no effect on Ae. aegypti survival. Thus, mass distribution of emodepside does not appear to be a potential tool for vector-borne disease control. Emodepside induced mortality in An. dirus does suggest that the SLO-1 channel could be a potential target for novel vector control and may warrant further investigation.

Published

2025

2. Enhancing mosquito classification through self-supervised learning

Author

Ratana Charoenpanyakul, Veerayuth Kittichai, Songpol Eiamsamang, Patchara Sriwichai, Natchapon Pinetsuksai, Kaung Myat Naing, Teerawat Tongloy, Siridech Boonsang, and Santhad Chuwongin

Subjects

Mosquito vectors, Self-supervised learning, Self-distillation with unlabeled data, Mobile phone application, Medicine, Science

Abstract

Abstract Traditional mosquito identification methods, relied on microscopic observation and morphological characteristics, often require significant expertise and experience, which can limit their effectiveness. This study introduces a self-supervised learning-based image classification model using the Bootstrap Your Own Latent (BYOL) algorithm, designed to enhance mosquito species identification efficiently. The BYOL algorithm offers a key advantage by eliminating the need for labeled data during pretraining, as it autonomously learns important features. During fine-tuning, the model requires only a small fraction of labeled data to achieve accurate results. Our approach demonstrates impressive performance, achieving over 96.77% accuracy in mosquito image analysis, with minimized both false positives and false negatives. Additionally, the model’s overall accuracy, measured by the area under the ROC curve, surpasses 99.55%, highlighting its robustness and reliability. A notable finding is that fine-tuning with just 10% of labeled data produces results comparable to using the full dataset. This is particularly valuable for resource-limited settings with limited access to advanced equipment and expertise. Our model provides a practical solution for mosquito identification, overcoming the challenges of traditional microscopic methods, such as the time-consuming process and reliance on specialized knowledge in healthcare services. Overall, this model supports personnel in resource-constrained environments by facilitating mosquito vector density analysis and paving the way for future mosquito species identification methodologies.

Published

2024

3. Impact of ivermectin components on Anopheles dirus and Anopheles minimus mosquito survival

Author

Pattarapon Khemrattrakool, Thitipong Hongsuwong, Phornpimon Tipthara, Rattawan Kullasakboonsri, Theerawit Phanphoowong, Patchara Sriwichai, Borimas Hanboonkunupakarn, Podjanee Jittamala, Joel Tarning, and Kevin C. Kobylinski

Subjects

Anopheles, Racemic ivermectin, Ivermectin B1a, Ivermectin B1b, Survival, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Ivermectin mass drug administration to humans or livestock is a potential vector control tool for malaria elimination. Racemic ivermectin is composed of two components, namely a major component (> 80%; ivermectin B1a), which has an ethyl group at C-26, and a minor component (

Published

2024

4. Author Correction: Ivermectin metabolites reduce Anopheles survival

Author

Kevin C. Kobylinski, Phornpimon Tipthara, Narenrit Wamaket, Sittinont Chainarin, Rattawan Kullasakboonsri, Patchara Sriwichai, Siriporn Phasomkusolsil, Borimas Hanboonkunupakarn, Podjanee Jittamala, Renia Gemmell, John Boyle, Stephen Wrigley, Jonathan Steele, Nicholas J. White, and Joel Tarning

Subjects

Medicine, Science

Published

2024

5. Ivermectin metabolites reduce Anopheles survival

Author

Kevin C. Kobylinski, Phornpimon Tipthara, Narenrit Wamaket, Sittinont Chainarin, Rattawan Kullasakboonsri, Patchara Sriwichai, Siriporn Phasomkusolsil, Borimas Hanboonkunupakarn, Podjanee Jittamala, Renia Gemmell, John Boyle, Stephen Wrigley, Jonathan Steele, Nicholas J. White, and Joel Tarning

Subjects

Medicine, Science

Abstract

Abstract Ivermectin mass drug administration to humans or livestock is a potential vector control tool for malaria elimination. The mosquito-lethal effect of ivermectin in clinical trials exceeds that predicted from in vitro laboratory experiments, suggesting that ivermectin metabolites have mosquito-lethal effect. The three primary ivermectin metabolites in humans (i.e., M1 (3″-O-demethyl ivermectin), M3 (4-hydroxymethyl ivermectin), and M6 (3″-O-demethyl, 4-hydroxymethyl ivermectin) were obtained by chemical synthesis or bacterial modification/metabolism. Ivermectin and its metabolites were mixed in human blood at various concentrations, blood-fed to Anopheles dirus and Anopheles minimus mosquitoes, and mortality was observed daily for fourteen days. Ivermectin and metabolite concentrations were quantified by liquid chromatography linked with tandem mass spectrometry to confirm the concentrations in the blood matrix. Results revealed that neither the LC50 nor LC90 values differed between ivermectin and its major metabolites for An. dirus or An. minimus., Additionally, there was no substantial differences in the time to median mosquito mortality when comparing ivermectin and its metabolites, demonstrating an equal rate of mosquito killing between the compounds evaluated. These results demonstrate that ivermectin metabolites have a mosquito-lethal effect equal to the parent compound, contributing to Anopheles mortality after treatment of humans.

Published

2023

6. Efficacy of household Aedes larval control practices in a peri-urban township, Yangon, Myanmar: Implication for entomological surveillance

Author

Soe Htet Aung, Aye Mon Mon Kyaw, Podjanee Jittamala, Saranath Lawpoolsri, Ngamphol Soonthornworasiri, Patchara Sriwichai, and Suparat Phuanukoonnon

Subjects

Dengue, Larvae, Household water containers, Entomology, Temephos, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Dengue is a major public health concern in Myanmar. We carried out a cross-sectional study to investigate the efficacy of larval control practices in household water containers, such as the use of the larvicide, temephos, covering the containers with lids and weekly cleaning. We surveyed 300 households in Kaw Hmu Township, a peri-urban community in the Yangon region. We inspected 1,892 water storage containers and 342 non-water storage/household waste containers during the rainy season and 1,866 water storage containers and 287 non-water storage/household waste containers during the dry season. The presence of Aedes larvae and larval control measures were recorded for each container. Results revealed that larval indices were higher than World Health Organization standard indices, and infestations in water storage containers were more common in the rainy season (6.6%) than in the dry season (5.7%). Infestations were also more likely in containers of non-potable water (9.1%–9.9%) than in containers of potable water (0.1%–0.7%). Two thirds of water storage containers were treated with temephos. Containers most likely to contain Aedes larvae were cement basins and barrels. Temephos was effective in controlling infestations in cement basins, while weekly cleaning was effective in controlling infestations in barrels. Combinations of control methods were more effective at larval control than the use of a single method. Larval infestations were high (18.4% in the rainy season) in unused containers and in containers which were household waste. Overall, we found a complex interaction between household water use, container characteristics, and larval control practices. Larval control strategies in Myanmar will require ongoing entomological surveillance and the identification of key breeding sources and optimal control methods.

Published

2023

7. Effectiveness of dengue training programmes on prevention and control among high school students in the Yangon region, Myanmar

Author

Soe Htet Aung, Suparat Phuanukoonnon, Aye Mon Mon Kyaw, Saranath Lawpoolsri, Patchara Sriwichai, Ngamphol Soonthornworasiri, and Podjanee Jittamala

Subjects

Dengue school training programme, Knowledge, Attitude and practices, Yangon, Myanmar, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Dengue is one of the health problems in Myanmar. Thus, health promotion in schools is considered a key approach for reducing risk-taking behaviours related to dengue. Objectives: The study aimed to evaluate a dengue training programme for high school students to measure changes in knowledge, attitude and practices (KAP) towards dengue; evaluate the effectiveness of the programme in improving prevention and control practices among families and determining changes in larval indices in their dwelling places. Methodology: The dengue school training programme was conducted for Grades 9 and 10 students in Yangon. In total, 300 students in the intervention school received training and were compared with 300 students as control. KAP was assessed using a self-administered questionnaire, whereas larval and control practice surveys were conducted at the homes of both groups 3 months before and after the programme. Results: The KAP scores of the intervention group increased after the programme. Moreover, the programme improved prevention and control practices and decreased the larval indices in the intervention group. Students from the same group with high scores in knowledge and self-reported practices were less likely to exhibit Aedes larval positivity in their residential areas. Conclusion: This study demonstrated the impact of the dengue training programme on the KAP of students and short-term family larval control practices, which influenced household larval indices.

Published

2023

8. Population genetic structure of the malaria vector Anopheles minimus in Thailand based on mitochondrial DNA markers

Author

Kamonchanok Bunmee, Urusa Thaenkham, Naowarat Saralamba, Alongkot Ponlawat, Daibin Zhong, Liwang Cui, Jetsumon Sattabongkot, and Patchara Sriwichai

Subjects

Malaria vector, Anopheles minimus lineages A and B, Population genetic structure, Mitochondrial protein-coding genes, Thailand, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The malaria vector Anopheles minimus has been influenced by external stresses affecting the survival rate and vectorial capacity of the population. Since An. minimus habitats have continuously undergone ecological changes, this study aimed to determine the population genetic structure and the potential gene flow among the An. minimus populations in Thailand. Methods Anopheles minimus was collected from five malaria transmission areas in Thailand using Centers for Disease Control and Prevention (CDC) light traps. Seventy-nine females from those populations were used as representative samples. The partial mitochondrial cytochrome c oxidase subunit I (COI), cytochrome c oxidase subunit II (COII) and cytochrome b (Cytb) gene sequences were amplified and analyzed to identify species and determine the current population genetic structure. For the past population, we determined the population genetic structure from the 60 deposited COII sequences in GenBank of An. minimus collected from Thailand 20 years ago. Results The current populations of An. minimus were genetically divided into two lineages, A and B. Lineage A has high haplotype diversity under gene flow similar to the population in the past. Neutrality tests suggested population expansion of An. minimus, with the detection of abundant rare mutations in all populations, which tend to arise from negative selection. Conclusions This study revealed that the population genetic structure of An. minimus lineage A was similar between the past and present populations, indicating high adaptability of the species. There was substantial gene flow between the eastern and western An. minimus populations without detection of significant gene flow barriers. Graphical abstract

Published

2021

9. Deep learning approaches for challenging species and gender identification of mosquito vectors

Author

Veerayuth Kittichai, Theerakamol Pengsakul, Kemmapon Chumchuen, Yudthana Samung, Patchara Sriwichai, Natthaphop Phatthamolrat, Teerawat Tongloy, Komgrit Jaksukam, Santhad Chuwongin, and Siridech Boonsang

Subjects

Medicine, Science

Abstract

Abstract Microscopic observation of mosquito species, which is the basis of morphological identification, is a time-consuming and challenging process, particularly owing to the different skills and experience of public health personnel. We present deep learning models based on the well-known you-only-look-once (YOLO) algorithm. This model can be used to simultaneously classify and localize the images to identify the species of the gender of field-caught mosquitoes. The results indicated that the concatenated two YOLO v3 model exhibited the optimal performance in identifying the mosquitoes, as the mosquitoes were relatively small objects compared with the large proportional environment image. The robustness testing of the proposed model yielded a mean average precision and sensitivity of 99% and 92.4%, respectively. The model exhibited high performance in terms of the specificity and accuracy, with an extremely low rate of misclassification. The area under the receiver operating characteristic curve (AUC) was 0.958 ± 0.011, which further demonstrated the model accuracy. Thirteen classes were detected with an accuracy of 100% based on a confusion matrix. Nevertheless, the relatively low detection rates for the two species were likely a result of the limited number of wild-caught biological samples available. The proposed model can help establish the population densities of mosquito vectors in remote areas to predict disease outbreaks in advance.

Published

2021

10. Seasonal dynamics and molecular differentiation of three natural Anopheles species (Diptera: Culicidae) of the Maculatus group (Neocellia series) in malaria hotspot villages of Thailand

Author

Suchada Sumruayphol, Tanawat Chaiphongpachara, Yudthana Samung, Jiraporn Ruangsittichai, Liwang Cui, Daibin Zhong, Jetsumon Sattabongkot, and Patchara Sriwichai

Subjects

Anopheles maculatus, Anopheles pseudowillmori, Anopheles sawadwongporni, Seasonal dynamic, Cytochrome c oxidase subunit 1, Internal transcribed spacer 2, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Anopheles sawadwongporni Rattanarithikul & Green, Anopheles maculatus Theobald and Anopheles pseudowillmori (Theobald) of the Anopheles maculatus group (Diptera: Culicidae) are recognized as potential malaria vectors in many countries from the Indian subcontinent through Southeast Asia to Taiwan. A number of malaria vectors in malaria hotspot areas along the Thai-Myanmar border belong to this complex. However, the species distribution and dynamic trends remain understudied in this malaria endemic region. Methods Mosquitoes of the Maculatus group were collected using CDC light traps every other week from four villages in Tha Song Yang District, Tak Province, Thailand from January to December 2015. Adult female mosquitoes were morphologically identified on site using taxonomic keys. Molecular species identification was performed by multiplex PCR based on the internal transcribed spacer 2 (ITS2) region of ribosomal DNA (rDNA) and sequencing of the cox1 gene at a DNA barcoding region in a subset of 29 specimens. Results A total of 1328 An. maculatus (sensu lato) female mosquitoes were captured with An. maculatus, An. sawadwongporni and An. pseudowilmori accounting for 75.2, 22.1 and 2.7% respectively. The field captured mosquitoes of the Maculatus group were most abundant in the wet season and had a preferred distribution in villages at higher elevations. The phylogenetic relationships of 29 cox1 sequences showed a clear-cut separation of the three member species of the Maculatus group, with the An. pseudowillmori cluster being separated from An. sawadwongporni and An. maculatus. Conclusions This study provides updated information for the species composition, seasonal dynamics and microgeographical distribution of the Maculatus group in malaria-endemic areas of western Thailand. This information can be used to guide the planning and implementation of mosquito control measures in the pursuance of malaria transmission.

Published

2020

11. An updated checklist of the ants of Thailand (Hymenoptera, Formicidae)

Author

Salinee Khachonpisitsak, Seiki Yamane, Patchara Sriwichai, and Weeyawat Jaitrong

Subjects

Zoology, QL1-991

Abstract

Thailand has a great diversity of ant fauna as a zoogeographical crossroads and biodiversity hotspot. The last publication presenting a Thai ant checklist was published in 2005. In the present paper, based on an examination of museum specimens and published records, a comprehensive and critical species list of Thai ants is synthesized. Currently, 529 valid species and subspecies in 109 genera among ten subfamilies are known from Thailand with their diversity and distribution within 77 provinces presented and assigned to six geographical regions. Furthermore, Thailand is the type locality for 81 ant species. Forty-one species are here newly recorded for Thailand with photographs illustrating these species. The checklist provides information on distribution and a comprehensive bibliography. This study will also serve as a guide for the upper northeast and central Thailand, which are poorly sampled; a comprehensive reference list relating to endemic taxa and localities where conservation is an important priority, thus an essential resource for policy makers and conservation planners concerned with the management of insect diversity in Thailand; and a list of exotic ant species found in Thailand, which could possibly impact the ecological balance.

Published

2020

12. Efficacy of Ageratum conyzoides extracts against Giardia duodenalis trophozoites: an experimental study

Author

Ai-rada Pintong, Jiraporn Ruangsittichai, Sumate Ampawong, Kanthinich Thima, Patchara Sriwichai, Narumon Komalamisra, and Supaluk Popruk

Subjects

Giardia duodenalis, Ageratum conyzoides, Crude extract, Organelles, Other systems of medicine, RZ201-999

Abstract

Abstract Background Giardia duodenalis causes giardiasis in humans, particularly in developing countries. Despite the availability of treatments, resistance to some of the commercial anti-Giardia drugs has been reported in addition to their harmful side effects. Therefore, novel treatments for giardiasis are required. In this study, we aimed to assess the in vitro activity of crude extracts of Ageratum conyzoides against G. duodenalis trophozoites. Methods Plants were classified into three groups based on their flower colors: white (W), purple (P), and white–purple (W–P). Plants were separately cut into leaf (L) and flower (F) parts. Changes in internal organelle morphology of trophozoites following exposure to crude extracts were assessed using transmission electron microscopy (TEM). In subsequent experiments, efficacy of the most active essential oils from crude extracts [half maximal inhibitory concentrations (IC50) ≤ 100 μg/mL] against G. duodenalis trophozoites was tested. In vitro anti-Giardia assays using essential oils were performed in the same way as those performed using crude extracts. Results LW–P and FP extracts showed high activity (IC50 ≤ 100 μg/mL) against G. duodenalis trophozoites, with IC50 ± SD values of 45.67 ± 0.51 and 96.00 ± 0.46 μg/mL, respectively. In subsequent experiments, IC50 ± SD values of LW–P and FP essential oils were 35.00 ± 0.50 and 89.33 ± 0.41 μg/mL, respectively. TEM revealed the degeneration of flagella and ventral discs of G. duodenalis trophozoites following exposure to crude extracts. Conclusion Crude LW–P and FP extracts of A. conyzoides showed the highest activity against G. duodenalis. Exposure to crude extract induced changes in the flagella and ventral discs of G. duodenalis trophozoites, which play important roles in attachment to the surface of mucosal cells. Our results suggest that the tested extracts warrant further research in terms of their efficacy and safety as giardiasis treatment.

Published

2020

13. Transmission risk beyond the village: entomological and human factors contributing to residual malaria transmission in an area approaching malaria elimination on the Thailand–Myanmar border

Author

Hannah M. Edwards, Patchara Sriwichai, Kirakorn Kirabittir, Jetsumon Prachumsri, Irwin F. Chavez, and Jeffrey Hii

Subjects

Malaria, RMT, Vector control, Vector behaviour, Forest malaria, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background A mixed methods study was conducted to look at the magnitude of residual malaria transmission (RMT) and factors contributing to low (

Published

2019

14. Human population movement and behavioural patterns in malaria hotspots on the Thai–Myanmar border: implications for malaria elimination

Author

Sayambhu Saita, Wirichada Pan-ngum, Suparat Phuanukoonnon, Patchara Sriwichai, Tassanee Silawan, Lisa J. White, and Daniel M. Parker

Subjects

Human population movement, Malaria hotspots, Thai–Myanmar border, Spatial epidemiology, Spatial demography, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Malaria is heterogeneously distributed across landscapes. Human population movement (HPM) could link sub-regions with varying levels of transmission, leading to the persistence of disease even in very low transmission settings. Malaria along the Thai–Myanmar border has been decreasing, but remains heterogeneous. This study aimed to measure HPM, associated predictors of travel, and HPM correlates of self-reported malaria among people living within malaria hotspots. Methods 526 individuals from 279 households in two malaria hotspot areas were included in a prospective observational study. A baseline cross-sectional study was conducted at the beginning, recording both individual- and household-level characteristics. Individual movement and travel patterns were repeatedly observed over one dry season month (March) and one wet season month (May). Descriptive statistics, random effects logistic regressions, and logistic regressions were used to describe and determine associations between HPM patterns, individual-, household-factors, and self-reported malaria. Results Trips were more common in the dry season. Malaria risk was related to the number of days doing outdoor activities in the dry season, especially trips to Myanmar, to forest areas, and overnight trips. Trips to visit forest areas were more common among participants aged 20–39, males, individuals with low income, low education, and especially among individuals with forest-related occupations. Overnight trips were more common among males, and individual with forest-related occupations. Forty-five participants reported having confirmed malaria infection within the last year. The main place of malaria blood examination and treatment was malaria post and malaria clinic, with participants usually waiting for 2–3 days from onset fever to seeking diagnosis. Individuals using bed nets, living in houses with elevated floors, and houses that received indoor residual spraying in the last year were less likely to report malaria infection. Conclusion An understanding of HPM and concurrent malaria dynamics is important for consideration of targeted public health interventions. Furthermore, diagnosis and treatment centres must be capable of quickly diagnosing and treating infections regardless of HPM. Coverage of diagnosis and treatment centres should be broad, maintained in areas bordering malaria hotspots, and available to all febrile individuals.

Published

2019

15. Insecticide Susceptibility Status of Anopheles and Aedes Mosquitoes in Malaria and Dengue Endemic Areas, Thai–Myanmar Border

Author

Kanchon Pusawang, Jetsumon Sattabongkot, Jassada Saingamsook, Daibin Zhong, Guiyun Yan, Pradya Somboon, Somsakul Pop Wongpalee, Liwang Cui, Atiporn Saeung, and Patchara Sriwichai

Subjects

An. minimus, An. maculatus, Ae. aegypti, bendiocarb, deltamethrin, kdr mutations, Science

Abstract

The occurrence and spread of insecticide resistance has had a negative effect on the efficacy of insecticide–based tools and is distributed worldwide, including the Greater Mekong Subregion (GMS). This study aims to determine the insecticide susceptibility of malaria and dengue vectors in malaria and dengue hotspots on the Thai–Myanmar border. Mosquito larvae and pupae were obtained from water sources from December 2019 to April 2020 in Tha Song Yang District, Tak province, western Thailand. WHO bioassay susceptibility tests were conducted with three classes of insecticides to evaluate the knockdown and mortality rates of Anopheles and Aedes aegypti female adults. V1016G and F1534C kdr mutations in the voltage-gated sodium channel of Ae. aegypti were identified using a multiplex PCR. A total of 5764 female mosquitoes were bioassayed in this study, including Anopheles spp. (92.63%) and F1 Ae. aegypti (7.37%). After 24 h of observation, An. minimus s.l. (n = 3885) and An. maculatus s.l. (n = 1138) in Suan Oi (SO) and Tala Oka (TO) were susceptible to pyrethroids, organophosphates and carbamates (except bendiocarb) with 98–100% mortality (MR). Resistance to bendiocarb was detected with a mortality rate of 88.80%, 88.77%, and 89.92% for An. minimus s.l. (n = 125, 125) and An. maculatus s.l. (n = 66), respectively. The first generation of Ae. aegypti adult females were suspected of resistance to deltamethrin (n = 225, MR = 96.89%) and confirmed resistance to permethrin (n = 200, MR = 20.00%). V1016G and F1534C mutations were detected in three genotypes, heterozygote and homozygote forms. The correlation between the kdr alleles and deltamethrin resistance was significant. In conclusion, bendiocarb resistance was found in primary malaria vectors, An. minimus s.l. and An. maculatus s.l. F1 Ae. aegypti population was pyrethroids-resistant, associated with kdr alleles. Therefore, molecular analysis should be conducted to gain insights into the mechanism of insecticide resistance. Routine malaria vector control programmes, such as fogging implementation in hotspot villages to induce Aedes resistance available in peri–domestic sites, are questionable.

Published

2022

16. Effectiveness of Herbal Essential Oils as Single and Combined Repellents against Aedes aegypti, Anopheles dirus and Culex quinquefasciatus (Diptera: Culicidae)

Author

Nataya Sutthanont, Monthatip Sudsawang, Theerawit Phanpoowong, Patchara Sriwichai, Jiraporn Ruangsittichai, Chawarat Rotejanaprasert, and Raweewan Srisawat

Subjects

essential oil, repellent, protection, Aedes aegypti, Anopheles dirus, Culex quinquefasciatus, Science

Abstract

Mosquito repellents reduce human-vector contact of vector-borne diseases. We compared the repellent activity of 10 undiluted essential oils (anise, basil, bergamot, coriander, patchouli, peppermint, petitgrain, rosemary, sage and vetiver) against A. aegypti, A. dirus and C. quinquefasciatus using the arm-in-cage method. Petitgrain oil was the most effective against A. aegypti (270 min). Peppermint oil was the most effective against A. dirus (180 min). Interestingly, all single oils had attributes of repellency against C. quinquefasciatus (ranged, 120–360 min). Moreover, we integrated their binary combinations of highly effective essential oils against A. aegypti and A. dirus to potentially increase the protection time. A 1:1 combination of petitgrain/basil, petitgrain/coriander, basil/coriander and basil/sage reduced the median complete-protection time of 150 min for A. aegypti; a combination of sage and patchouli oils prolonged the median complete-protection time of 270 min for A. dirus. Combining essential oils effect protection time from these two mosquito species.

Published

2022

17. Species Discrimination of Three Odontomachus (Formicidae: Ponerinae) Species in Thailand Using Outline Morphometrics

Author

Yudthana Samung, Tanawat Chaiphongpachara, Jiraporn Ruangsittichai, Patchara Sriwichai, Anon Phayakkaphon, Weeyawat Jaitrong, Jean-Pierre Dujardin, and Suchada Sumruayphol

Subjects

outline morphometrics, Odontomachus monticola, O. rixosus, O. simillimus, Science

Abstract

All members of the ant genus Odontomachus Latreille, 1804 are venomous ants. Four species in this genus have been identified from Thailand: Odontomachus latidens Mayr, 1867; O. monticola Emery, 1892; O. rixosus Smith, 1757; and O. simillimus Smith, 1758. The three latter species are available and have been used for an outline morphometric study. They display similar morphology, which makes their distinction very difficult except for highly qualified individuals. A total of 80 worker specimens were studied, exploring the contour shapes of their head and pronotum as possible taxonomic characters. The size of each body part was estimated determining the contour perimeter, the values for which were largely overlapping between O. rixosus and O. simillimus; most O. monticola specimens exhibited a significantly larger size. In contrast to the size, each contour shape of the head or pronotum established O. rixosus as the most distinct species. An exploratory data analysis disclosed the higher taxonomic signal of the head contour relative to the pronotum one. The scores obtained for validated reclassification were much better for the head (99%) than for the pronotum (82%). This study supports outline morphometrics of the head as a promising approach to contribute to the morphological identification of ant species, at least for monomorphic workers.

Published

2022

18. Imported Plasmodium falciparum and locally transmitted Plasmodium vivax: cross-border malaria transmission scenario in northwestern Thailand

Author

Patchara Sriwichai, Stephan Karl, Yudthana Samung, Kirakorn Kiattibutr, Jeeraphat Sirichaisinthop, Ivo Mueller, Liwang Cui, and Jetsumon Sattabongkot

Subjects

Malaria transmission, Border malaria, Migration, Mosquito infection, Thailand, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Cross-border malaria transmission is an important problem for national malaria control programmes. The epidemiology of cross-border malaria is further complicated in areas where Plasmodium falciparum and Plasmodium vivax are both endemic. By combining passive case detection data with entomological data, a transmission scenario on the northwestern Thai–Myanmar border where P. falciparum is likely driven by importation was described, whereas P. vivax is also locally transmitted. This study highlights the differences in the level of control required to eliminate P. falciparum and P. vivax from the same region. Methods Malaria case data were collected from malaria clinics in Suan Oi village, Tak Province, Thailand between 2011 and 2014. Infections were diagnosed by light microscopy. Demographic data, including migrant status, were correlated with concomitantly collected entomology data from 1330 mosquito trap nights using logistic regression. Malaria infection in the captured mosquitoes was detected by ELISA. Results Recent migrants were almost four times more likely to be infected with P. falciparum compared with Thai patients (OR 3.84, p

Published

2017

19. Insecticidal and Histopathological Effects of Ageratum conyzoides Weed Extracts against Dengue Vector, Aedes aegypti

Author

Ai-rada Pintong, Sumate Ampawong, Narumon Komalamisra, Patchara Sriwichai, Supaluk Popruk, and Jiraporn Ruangsittichai

Subjects

Asteraceae, Aedes, essential oils, crude extracts, insecticide, pesticide, Science

Abstract

Crude extracts and essential oils of A. conyzoides were tested with larva and adult stages of Ae. aegypti mosquitoes to determine their insecticidal properties. The crude extracts and essential oils came from three varieties of A. conyzoides (with white flowers, purple flowers, or white-purple flowers) and from two places on each plant (leaves and flowers), giving six types overall: leaf-white (LW); leaf-purple (LP); leaf white-purple (LW-P); flower-white (FW); flower-purple (FP); and flower white-purple (FW-P). Chemical constituents and components of the essential oils were identified using gas chromatography-mass spectrometry (GC-MS). Electron microscopic and histopathological studies were performed to determine the toxicological effects on mosquitoes in terms of morphological alterations. The six types of crude extracts exhibited no activity against individuals in the larval stages. However, six types of essential oils were effective against adult Ae. aegypti females. The mortality of adult Ae. aegypti females was higher from leaf extracts, particularly LP (median lethal dose, LD50 = 0.84%). The number of chemical constituents identified by GC-MS was high in flowers, especially W-P. Precocene I was the most abundant chemical component among the five types of essential oils, except in LP, in which precocene II was the most abundant. Histopathological alterations in adult Ae. aegypti females included compound eye degeneration, muscular damage with cellular infiltration, gut epithelial degeneration and necrosis, pyknotic nuclei in the malpighian epithelium and ovarian cell degeneration. FW and FP plant types exhibited the highest severity of histopathological alterations in mosquitoes compared with other plants, probably owing to the presence of monoterpene compounds in their tissues. The present study demonstrated LP plant extracts from A. conyzoides could be effective adulticides against adult Ae. aegypti. As natural products are biodegradable and exhibit low toxicity to mammalian and non-target organisms, they are suitable candidates for use in vector control programmes.

Published

2020

20. Evaluation of CDC light traps for mosquito surveillance in a malaria endemic area on the Thai-Myanmar border

Author

Patchara Sriwichai, Stephan Karl, Yudthana Samung, Suchada Sumruayphol, Kirakorn Kiattibutr, Anon Payakkapol, Ivo Mueller, Guiyun Yan, Liwang Cui, and Jetsumon Sattabongkot

Subjects

CDC light trap, Dry ice, CO2, Anopheles, Culex, Aedes, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Centers for Disease Control and Prevention miniature light traps (CDC-LT) baited with CO2 are a routine tool for adult mosquito sampling used in entomological surveys, and for monitoring and surveillance of disease vectors. The present study was aimed at evaluating the performance of baited and unbaited CDC-LT for indoor and outdoor trapping of endemic mosquito species in northwestern Thailand. Methods CDC-LT (n = 112) with and without dry ice baits were set both indoors and outdoors in 88 selected houses for stretches of 5 consecutive nights per month in 7 villages in Tha Song Yang district, Tak province between January 2011 and March 2013. Individual traps were repeatedly placed in the same location for a median of 6 (range 1–10) times. Mosquitoes were identified by morphological characteristics and classified into blood-fed, empty, male/female and gravid. Absolute mosquito numbers were converted to capture rates (i.e., mosquitoes per trap and year). Capture rates were compared using multilevel negative binomial regression to account for multiple trap placements and adjust for regional and seasonal differences. Results A total of 6,668 mosquitoes from 9 genera were collected from 576 individual CDC-LT placements. Culex was the predominant captured genus (46 %), followed by anopheline mosquitoes (45 %). Overall, CO2 baited traps captured significantly more Culex (especially Culex vishnui Theobald) and Anopheles mosquitoes per unit time (adjusted capture rate ratio (aCRR) 1.64 and 1.38, respectively). Armigeres spp. mosquitoes were trapped in outdoor traps with significantly higher frequency (aCRR: 1.50), whereas Aedes albopictus (Skuse) had a tendency to be trapped more frequently indoors (aCRR: 1.89, p = 0.07). Furthermore, capture rate ratios between CO2 baited and non-baited CDC-LT were significantly influenced by seasonality and indoor vs. outdoor trap placement. Conclusion The present study shows that CDC-LT with CO2 baiting capture significantly more Culex and Anopheles mosquitoes, some of which (e.g., Cx. vishnui, Cx. quinquefasciatus Say, An. minimus s.l. Theobald, An. maculatus s.l. Theobald) represent important disease vectors in Thailand. This study also shows significant differences in the capture efficiency of CDC-LT when placed indoors or outdoors and in different seasons. Our study thus provides important guidelines for more targeted future vector trapping studies on the Thai-Myanmar border, which is an important cross-border malaria transmission region in Thailand.

Published

2015

21. Correction to: Transmission risk beyond the village: entomological and human factors contributing to residual malaria transmission in an area approaching malaria elimination on the Thailand–Myanmar border

Author

Hannah M. Edwards, Patchara Sriwichai, Kirakorn Kirabittir, Jetsumon Sattabongkot, Irwin F. Chavez, and Jeffrey Hii

Subjects

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

Abstract

Following publication of the original article [1], the authors advised of two errors present in the article: one concerning two author names and the other missing funding details.

Published

2019

22. Spatial Heterogeneity and Temporal Trends in Malaria on the Thai–Myanmar Border (2012–2017): A Retrospective Observational Study

Author

Sayambhu Saita, Tassanee Silawan, Daniel M. Parker, Patchara Sriwichai, Suparat Phuanukoonnon, Prayuth Sudathip, Richard J. Maude, Lisa J. White, and Wirichada Pan-ngum

Subjects

spatial patterns, temporal trends, Plasmodium falciparum, Plasmodium vivax, Thai–Myanmar border, Medicine

Abstract

Malaria infections remain an important public health problem for the Thai–Myanmar border population, despite a plan for the elimination by the end of 2026 (Thailand) and 2030 (Myanmar). This study aimed to explore spatiotemporal patterns in Plasmodium falciparum and Plasmodium vivax incidence along the Thai–Myanmar border. Malaria cases among Thai citizens in 161 sub-districts in Thailand’s Kanchanaburi and Tak Provinces (2012–2017) were analyzed to assess the cluster areas and temporal trends. Based on reported incidence, 65.22% and 40.99% of the areas studied were seen to be at elimination levels for P. falciparum and P. vivax already, respectively. There were two clear clusters of malaria in the region: One in the northern part (Cluster I), and the other in the central part (Cluster II). In Cluster I, the malaria season exhibited two peaks, while there was only one peak seen for Cluster II. Malaria incidence decreased at a faster rate in Cluster I, with 5% and 4% reductions compared with 4% and 3% reductions in P. falciparum and P. vivax incidence per month, respectively, in Cluster II. The decreasing trends reflect the achievements of malaria control efforts on both sides of the Thai–Myanmar border. However, these clusters could act as reservoirs. Perhaps one of the main challenges facing elimination programs in this low transmission setting is maintaining a strong system for early diagnosis and treatment, even when malaria cases are very close to zero, whilst preventing re-importation of cases.

Published

2019

23. Salivary Gland Proteome during Adult Development and after Blood Feeding of Female Anopheles dissidens Mosquitoes (Diptera: Culicidae).

Author

Benjarat Phattanawiboon, Narissara Jariyapan, Chonlada Mano, Sittiruk Roytrakul, Atchara Paemanee, Sriwatapron Sor-Suwan, Patchara Sriwichai, Atiporn Saeung, and Paul A Bates

Subjects

Medicine, Science

Abstract

Understanding changes in mosquito salivary proteins during the time that sporozoite maturation occurs and after blood feeding may give information regarding the roles of salivary proteins during the malarial transmission. Anopheles dissidens (formerly Anopheles barbirostris species A1) is a potential vector of Plasmodium vivax in Thailand. In this study, analyses of the proteomic profiles of female An. dissidens salivary glands during adult development and after blood feeding were carried out using two-dimensional gel electrophoresis coupled with nano-liquid chromatography-mass spectrometry. Results showed at least 17 major salivary gland proteins present from day one to day 21 post emergence at 8 different time points sampled. Although there was variation observed, the patterns of protein expression could be placed into one of four groups. Fifteen protein spots showed significant depletion after blood feeding with the percentages of the amount of depletion ranging from 8.5% to 68.11%. The overall results identified various proteins, including a putative mucin-like protein, an anti-platelet protein, a long form D7 salivary protein, a putative gVAG protein precursor, a D7-related 3.2 protein, gSG7 salivary proteins, and a gSG6 protein. These results allow better understanding of the changes of the salivary proteins during the adult mosquito development. They also provide candidate proteins to investigate any possible link or not between sporozoite maturation, or survival of skin stage sporozoites, and salivary proteins.

Published

2016

24. MosquitoSongSense: IoT-based mosquito wingbeat data collection system.

Author

Myat Su Yin, Dolvara Gunatilaka, Kanpitcha Assawavinijkulchai, Thanawit Thampakorn, Wasin Heesawat, Peter Haddawy, Songpol Eiamsamang, Patchara Sriwichai, and Michael Weber

Published

2023

25. A deep learning-based pipeline for mosquito detection and classification from wingbeat sounds.

Author

Myat Su Yin, Peter Haddawy, Tim Ziemer, Fabian Wetjen, Akara Supratak, Kanrawee Chiamsakul, Worameth Siritanakorn, Tharit Chantanalertvilai, Patchara Sriwichai, and Chaitawat Sa-ngamuang

Published

2023

26. A Lightweight Deep Learning Approach to Mosquito Classification from Wingbeat Sounds.

Author

Myat Su Yin, Peter Haddawy, Borvorntat Nirandmongkol, Tup Kongthaworn, Chanaporn Chaisumritchoke, Akara Supratak, Chaitawat Sa-ngamuang, and Patchara Sriwichai

Published

2021

27. Hydroxyapatite-binding Silver/Titanium Dioxide as a Potential Control Compound Against Mosquito Vectors, Aedes aegypti (Diptera: Culicidae) and Anopheles dirus (Diptera: Culicidae)

Author

Raweewan Srisawat, Patchara Sriwichai, Jiraporn Ruangsittichai, Chawarat Rotejanaprasert, Naoko Imaizumi, Dai Yamaki, Maki Maekawa, Yuki Eshita, and Narumi Okazaki

Subjects

Infectious Diseases, General Veterinary, Insect Science, Parasitology

Abstract

Controlling mosquitoes is vital for counteracting the rising number of mosquito-borne illnesses. Vector control requires the implementation of various measures; however, current methods lack complete effectiveness, and new control agents or substances are urgently needed. Therefore, this study developed a nonwoven fabric sheet coated with hydroxyapatite-binding silver/titanium dioxide compound (hydroxyapatite-binding silver/titanium dioxide sheet [HATS])and evaluated its effectiveness on all stages of laboratory Aedes aegypti (Linnaeus); Diptera: Culicidae and Anopheles dirus (Peyton & Harrison); Diptera: Culicidae. We reared larvae with HATS and control sheets and assessed their mortality, emergence, and hatching rates. The submersion rates of engorged female mosquitoes in submerged HATS and control sheets were also compared. The HATS strongly affected mosquito development, resulting in high mortality rates (mean ± SE) of 99.66 ± 0.58% (L1–L2) and 91.11 ± 9.20% (L3–L4) for Ae. aegypti and 100% of both stages for An. dirus. In contrast, mosquitoes raised in the control sheet showed relatively high survival rates of 92.33 ± 3.21% (L1–L2) and 95.67 ± 0.58% (L3–L4) for Ae. aegypti and 86.07 ± 3.53% (L1–L2) and 92.01 ± 8.67% (L3–L4) for An. dirus. Submersion of engorged females was found in the HATS oviposition cup, leading to a decreased number of eggs and a low hatching rate compared to that of the control. Overall, HATS may be a useful new control method for Ae. aegypti and An. dirus.

Published

2022

28. Malaria Research for Tailored Control and Elimination Strategies in the Greater Mekong Subregion

Author

Jetsumon Sattabongkot, Liwang Cui, Sirasate Bantuchai, Sadudee Chotirat, Jaranit Kaewkungwal, Amnat Khamsiriwatchara, Kirakorn Kiattibutr, Myat Phone Kyaw, Saranath Lawpoolsri, Nay Yi Yi Linn, Lynette Menezes, Jun Miao, Wang Nguitragool, Daniel Parker, Pathomporn Prikchoo, Wanlapa Roobsoong, Patiwat Sa-angchai, Yudthana Samung, Jeeraphat Sirichaisinthop, Patchara Sriwichai, Kritsana Suk-uam, Suwich Thammapalo, Baomin Wang, and Daibin Zhong

Subjects

Antimalarials, Cross-Sectional Studies, Infectious Diseases, Virology, Plasmodium falciparum, Humans, Parasitology, Malaria, Falciparum, Artemisinins, Malaria

Abstract

The malaria landscape in the Greater Mekong Subregion has experienced drastic changes with the ramp-up of the control efforts, revealing formidable challenges that slowed down the progress toward malaria elimination. Problems such as border malaria and cross-border malaria introduction, multidrug resistance in Plasmodium falciparum, the persistence of Plasmodium vivax, the asymptomatic parasite reservoirs, and insecticide resistance in primary vectors require integrated strategies tailored for individual nations in the region. In recognition of these challenges and the need for research, the Southeast Asian International Center of Excellence for Malaria Research has established a network of researchers and stakeholders and conducted basic and translational research to identify existing and emerging problems and develop new countermeasures. The installation of a comprehensive disease and vector surveillance system at sentinel sites in border areas with the implementation of passive/active case detection and cross-sectional surveys allowed timely detection and management of malaria cases, provided updated knowledge for effective vector control measures, and facilitated the efficacy studies of antimalarials. Incorporating sensitive molecular diagnosis to expose the significance of asymptomatic parasite reservoirs for sustaining transmission helped establish the necessary evidence to guide targeted control to eliminate residual transmission. In addition, this program has developed point-of-care diagnostics to monitor the quality of artemisinin combination therapies, delivering the needed information to the drug regulatory authorities to take measures against falsified and substandard antimalarials. To accelerate malaria elimination, this program has actively engaged with stakeholders of all levels, fostered vertical and horizontal collaborations, and enabled the effective dissemination of research findings.

Published

2022

29. Multidisciplinary Investigations of Sustained Malaria Transmission in the Greater Mekong Subregion

Author

Liwang Cui, Jetsumon Sattabongkot, Pyae Linn Aung, Awtum Brashear, Yaming Cao, Jaranit Kaewkungwal, Amnat Khamsiriwatchara, Myat Phone Kyaw, Saranath Lawpoolsri, Lynette Menezes, Jun Miao, Wang Nguitragool, Daniel Parker, Suparat Phuanukoonnon, Wanlapa Roobsoong, Faiza Siddiqui, Myat Thu Soe, Patchara Sriwichai, Zhaoqing Yang, Yan Zhao, and Daibin Zhong

Subjects

Antimalarials, Infectious Diseases, Virology, Plasmodium falciparum, Drug Resistance, Animals, Humans, Parasitology, Mosquito Vectors, Malaria, Falciparum, Artemisinins, Malaria

Abstract

In the course of malaria elimination in the Greater Mekong Subregion (GMS), malaria epidemiology has experienced drastic spatiotemporal changes with residual transmission concentrated along international borders and the rising predominance of Plasmodium vivax. The emergence of Plasmodium falciparum parasites resistant to artemisinin and partner drugs renders artemisinin-based combination therapies less effective while the potential spread of multidrug-resistant parasites elicits concern. Vector behavioral changes and insecticide resistance have reduced the effectiveness of core vector control measures. In recognition of these problems, the Southeast Asian International Center of Excellence for Malaria Research (ICEMR) has been conducting multidisciplinary research to determine how human migration, antimalarial drug resistance, vector behavior, and insecticide resistance sustain malaria transmission at international borders. These efforts allow us to comprehensively understand the ecology of border malaria transmission and develop population genomics tools to identify and track parasite introduction. In addition to employing in vivo, in vitro, and molecular approaches to monitor the emergence and spread of drug-resistant parasites, we also use genomic and genetic methods to reveal novel mechanisms of antimalarial drug resistance of parasites. We also use omics and population genetics approaches to study insecticide resistance in malaria vectors and identify changes in mosquito community structure, vectorial potential, and seasonal dynamics. Collectively, the scientific findings from the ICEMR research activities offer a systematic view of the factors sustaining residual malaria transmission and identify potential solutions to these problems to accelerate malaria elimination in the GMS.

Published

2022

30. Population genetic structure of the malaria vector Anopheles minimus in Thailand based on mitochondrial DNA markers

Author

Jetsumon Sattabongkot, Liwang Cui, Daibin Zhong, Kamonchanok Bunmee, Urusa Thaenkham, Alongkot Ponlawat, Patchara Sriwichai, and Naowarat Saralamba

Subjects

Gene Flow, Genetic Markers, Mitochondrial DNA, Lineage (genetic), Population, Zoology, Mitochondrial protein-coding genes, Mosquito Vectors, Infectious and parasitic diseases, RC109-216, Biology, Gene flow, Electron Transport Complex IV, Anopheles, Animals, Population genetic structure, education, Phylogeny, education.field_of_study, Cytochrome b, Anopheles minimus lineages A and B, Cytochrome c oxidase subunit II, Research, Haplotype, Cytochromes b, Thailand, Malaria, Mitochondria, Infectious Diseases, Malaria vector, Genetic structure, Insect Proteins, Parasitology

Abstract

Background The malaria vector Anopheles minimus has been influenced by external stresses affecting the survival rate and vectorial capacity of the population. Since An. minimus habitats have continuously undergone ecological changes, this study aimed to determine the population genetic structure and the potential gene flow among the An. minimus populations in Thailand. Methods Anopheles minimus was collected from five malaria transmission areas in Thailand using Centers for Disease Control and Prevention (CDC) light traps. Seventy-nine females from those populations were used as representative samples. The partial mitochondrial cytochrome c oxidase subunit I (COI), cytochrome c oxidase subunit II (COII) and cytochrome b (Cytb) gene sequences were amplified and analyzed to identify species and determine the current population genetic structure. For the past population, we determined the population genetic structure from the 60 deposited COII sequences in GenBank of An. minimus collected from Thailand 20 years ago. Results The current populations of An. minimus were genetically divided into two lineages, A and B. Lineage A has high haplotype diversity under gene flow similar to the population in the past. Neutrality tests suggested population expansion of An. minimus, with the detection of abundant rare mutations in all populations, which tend to arise from negative selection. Conclusions This study revealed that the population genetic structure of An. minimus lineage A was similar between the past and present populations, indicating high adaptability of the species. There was substantial gene flow between the eastern and western An. minimus populations without detection of significant gene flow barriers. Graphical abstract

Published

2021

31. Geometric morphometrics to distinguish the cryptic species <scp> Anopheles minimus </scp> and <scp> An. harrisoni </scp> in malaria hot spot villages, western <scp>Thailand</scp>

Author

Jean-Pierre Dujardin, K. Chatpiyaphat, Jetsumon Sattabongkot, Sungsit Sungvornyothin, Suchada Sumruayphol, A. Phayakkaphon, Jiraporn Ruangsittichai, Yudthana Samung, Patchara Sriwichai, and Liwang Cui

Subjects

0301 basic medicine, Morphometrics, Sympatry, Species complex, General Veterinary, 030231 tropical medicine, Interspecific competition, 030108 mycology & parasitology, Biology, Anopheles minimus, Intraspecific competition, Theobald, 03 medical and health sciences, 0302 clinical medicine, Evolutionary biology, Insect Science, Parasitology, Internal transcribed spacer, Ecology, Evolution, Behavior and Systematics

Abstract

Anopheles minimus Theobald 1901 and An. harrisoni Harbach & Manguin 2007 belong to the same species complex. They are morphologically similar and can exist in sympatry but have blood host preferences. The most accurate method for their identification is based on molecular techniques. Here, we measure the level of interspecific discrimination by geometric morphometry. Sixty-seven An. minimus and 22 An. harrisoni specimens were selected based on their morphological integrity and confirmed by identification polymerase chain reaction of internal transcribed spacer 2. These samples were used as reference data allowing for a morphometric identification based on geometric shape. Despite size overlap between the two species, there was a significant shape divergence allowing for differentiation of An. minimus and An. harrisoni with 90% accuracy. An intraspecific study of An. minimus showed a summer period associated to the reducing of wing size, which did not influence the shape-based differentiation of An. harrisoni. Wing venation geometry can be used to distinguish between these cryptic species mainly based on shaped divergence. This study suggests that geometric morphometrics represent a convenient low-cost method to complement morphological identification, especially concerning damaged specimens, i.e., insects having accidentally lost the anatomical features allowing a reliable morphological identification.

Published

2020

32. An updated checklist of the ants of Thailand (Hymenoptera, Formicidae)

Author

Seiki Yamane, Weeyawat Jaitrong, Patchara Sriwichai, and Salinee Khachonpisitsak

Subjects

0106 biological sciences, Insecta, Asia, Arthropoda, Far East, Fauna, 010607 zoology, Distribution, Subspecies, 010603 evolutionary biology, 01 natural sciences, updated nomenclature, taxonomy, lcsh:Zoology, Incertae Sedis, Animalia, lcsh:QL1-991, Formicidae, Invertebrata, Ecology, Evolution, Behavior and Systematics, Ecology, new records, Thailand, Hymenoptera, Checklist, Biodiversity hotspot, Distribution new records updated nomenclature taxonomy, Vespoidea, Taxon, Geography, Animal Science and Zoology, Taxonomy (biology), Type locality, Catalogues and Checklists, Balance of nature

Abstract

Thailand has a great diversity of ant fauna as a zoogeographical crossroads and biodiversity hotspot. The last publication presenting a Thai ant checklist was published in 2005. In the present paper, based on an examination of museum specimens and published records, a comprehensive and critical species list of Thai ants is synthesized. Currently, 529 valid species and subspecies in 109 genera among ten subfamilies are known from Thailand with their diversity and distribution within 77 provinces presented and assigned to six geographical regions. Furthermore, Thailand is the type locality for 81 ant species. Forty-one species are here newly recorded for Thailand with photographs illustrating these species. The checklist provides information on distribution and a comprehensive bibliography. This study will also serve as a guide for the upper northeast and central Thailand, which are poorly sampled; a comprehensive reference list relating to endemic taxa and localities where conservation is an important priority, thus an essential resource for policy makers and conservation planners concerned with the management of insect diversity in Thailand; and a list of exotic ant species found in Thailand, which could possibly impact the ecological balance.

Published

2020

33. Efficacy of Household Aedes Larval Control Practices in a Peri-Urban Township, Yangon, Myanmar: Implications for Entomological Surveillance

Author

Soe Htet Aung, Aye Mon Mon Kyaw, Podjanee Jittamala, Saranath Lawpoolsri, Ngamphol Soonthornworasiri, Patchara Sriwichai, and Suparat Phuanukoonnon

Published

2022

34. Geometric morphometrics approach towards discrimination of three member species of Maculatus group in Thailand

Author

Tanawat Chaiphongpachara, Jiraporn Ruangsittichai, Jetsumon Sattabongkot, Jean-Pierre Dujardin, Suchada Sumruayphol, Yudthana Samung, Liwang Cui, Patchara Sriwichai, and Ronald Enrique Morales Vargas

Subjects

0301 basic medicine, Veterinary (miscellaneous), 030231 tropical medicine, Anopheles maculatus, Mosquito Vectors, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Malaria transmission, Group (periodic table), Anopheles, Animals, Species identification, Anopheles sawadwongporni, Malaria vector, Anopheles pseudowillmori, Morphometrics, Geometric morphometrics, 030108 mycology & parasitology, Thailand, Infectious Diseases, Evolutionary biology, Insect Science, Parasitology

Abstract

Members of the Maculatus group are important malaria vectors in the border regions of Thailand. However, the role of each species in malaria transmission remains unclear because of their highly similar morphologies, making them difficult to be differentiated. Whereas An. pseudowillmori may be identified by the color pattern of some scales on abdomen and wings, the distinction between An. maculatus and An. sawadwongporni relies on the wings only. Scales are labile structures, as they may be accidentally removed during capture and transportation to the laboratory. To discriminate among the species of this complex, we tested the suitability of geometric techniques. Shape variables were used as input for discriminant analyses and validated reclassification. Both landmark- and outline-based geometric techniques disclosed significant differences between the three species. For the delicate An. maculatus - An. sawadwongporni distinction, the outline-based approach appeared as the most promising, with validated reclassification scores reaching 93%, as compared to 77% obtained by landmark data. For An. pseudowillmori, reclassification scores were 100% and 94%, respectively. Geometric morphometrics may provide an alternative and useful complement for discriminating members of the Maculatus group.

Published

2019

35. Deep learning approaches for challenging species and gender identification of mosquito vectors

Author

Theerakamol Pengsakul, Natthaphop Phatthamolrat, Yudthana Samung, Santhad Chuwongin, Siridech Boonsang, Teerawat Tongloy, Kemmapon Chumchuen, Komgrit Jaksukam, Patchara Sriwichai, and Veerayuth Kittichai

Subjects

Male, Computer science, Epidemiology, Science, 030231 tropical medicine, 02 engineering and technology, Mosquito Vectors, Article, 03 medical and health sciences, 0302 clinical medicine, Deep Learning, 0202 electrical engineering, electronic engineering, information engineering, Animals, Sensitivity (control systems), Multidisciplinary, Receiver operating characteristic, business.industry, Deep learning, Confusion matrix, Pattern recognition, Identification (information), Culicidae, Medicine, 020201 artificial intelligence & image processing, Female, Artificial intelligence, business, Software

Abstract

Microscopic observation of mosquito species, which is the basis of morphological identification, is a time-consuming and challenging process, particularly owing to the different skills and experience of public health personnel. We present deep learning models based on the well-known you-only-look-once (YOLO) algorithm. This model can be used to simultaneously classify and localize the images to identify the species of the gender of field-caught mosquitoes. The results indicated that the concatenated two YOLO v3 model exhibited the optimal performance in identifying the mosquitoes, as the mosquitoes were relatively small objects compared with the large proportional environment image. The robustness testing of the proposed model yielded a mean average precision and sensitivity of 99% and 92.4%, respectively. The model exhibited high performance in terms of the specificity and accuracy, with an extremely low rate of misclassification. The area under the receiver operating characteristic curve (AUC) was 0.958 ± 0.011, which further demonstrated the model accuracy. Thirteen classes were detected with an accuracy of 100% based on a confusion matrix. Nevertheless, the relatively low detection rates for the two species were likely a result of the limited number of wild-caught biological samples available. The proposed model can help establish the population densities of mosquito vectors in remote areas to predict disease outbreaks in advance.

Published

2021

36. Insecticidal and Histopathological Effects of Ageratum conyzoides Weed Extracts against Dengue Vector, Aedes aegypti

Author

Supaluk Popruk, Narumon Komalamisra, Patchara Sriwichai, Sumate Ampawong, Ai-rada Pintong, and Jiraporn Ruangsittichai

Subjects

Veterinary medicine, Ageratum conyzoides, 030231 tropical medicine, vector control, Aedes aegypti, Asteraceae, Median lethal dose, 03 medical and health sciences, 0302 clinical medicine, Aedes, crude extracts, lcsh:Science, essential oils, pesticide, 030304 developmental biology, 0303 health sciences, Larva, biology, fungi, insecticide, food and beverages, Compound eye, biology.organism_classification, Insect Science, lcsh:Q, Weed

Abstract

Crude extracts and essential oils of A. conyzoides were tested with larva and adult stages of Ae. aegypti mosquitoes to determine their insecticidal properties. The crude extracts and essential oils came from three varieties of A. conyzoides (with white flowers, purple flowers, or white-purple flowers) and from two places on each plant (leaves and flowers), giving six types overall: leaf-white (LW), leaf-purple (LP), leaf white-purple (LW-P), flower-white (FW), flower-purple (FP), and flower white-purple (FW-P). Chemical constituents and components of the essential oils were identified using gas chromatography-mass spectrometry (GC-MS). Electron microscopic and histopathological studies were performed to determine the toxicological effects on mosquitoes in terms of morphological alterations. The six types of crude extracts exhibited no activity against individuals in the larval stages. However, six types of essential oils were effective against adult Ae. aegypti females. The mortality of adult Ae. aegypti females was higher from leaf extracts, particularly LP (median lethal dose, LD50 = 0.84%). The number of chemical constituents identified by GC-MS was high in flowers, especially W-P. Precocene I was the most abundant chemical component among the five types of essential oils, except in LP, in which precocene II was the most abundant. Histopathological alterations in adult Ae. aegypti females included compound eye degeneration, muscular damage with cellular infiltration, gut epithelial degeneration and necrosis, pyknotic nuclei in the malpighian epithelium and ovarian cell degeneration. FW and FP plant types exhibited the highest severity of histopathological alterations in mosquitoes compared with other plants, probably owing to the presence of monoterpene compounds in their tissues. The present study demonstrated LP plant extracts from A. conyzoides could be effective adulticides against adult Ae. aegypti. As natural products are biodegradable and exhibit low toxicity to mammalian and non-target organisms, they are suitable candidates for use in vector control programmes.

Published

2020

37. Additional file 1 of Efficacy of Ageratum conyzoides extracts against Giardia duodenalis trophozoites: an experimental study

Author

Ai-Rada Pintong, Jiraporn Ruangsittichai, Sumate Ampawong, Kanthinich Thima, Patchara Sriwichai, Narumon Komalamisra, and Supaluk Popruk

Subjects

Data_FILES

Abstract

Additional file 1.

Published

2020

38. Wing geometry of Phlebotomus stantoni and Sergentomyia hodgsoni from different geographical locations in Thailand

Author

Raxsina Polseela, Suchada Sumruayphol, Patchara Sriwichai, Boonruam Chittsamart, Chamnarn Apiwathnasorn, Yudthana Samung, and Jean-Pierre Dujardin

Subjects

0106 biological sciences, 030231 tropical medicine, Population, Geometry, Geometric shape, Biology, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Intraspecific competition, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, Image Processing, Computer-Assisted, Animals, Wings, Animal, education, Morphometrics, education.field_of_study, Wing, Geography, General Immunology and Microbiology, Organ Size, General Medicine, Interspecific competition, Thailand, Phlebotomus stantoni, Insect Vectors, Phlebotomus, Female, Mainland, Anatomic Landmarks, Psychodidae, General Agricultural and Biological Sciences, Software

Abstract

Geographic populations of the two main sandflies genera present in Thailand were studied for species and population identification. Size and shape of Phlebotomus stantoni and Sergentomyia hodgsoni from different island and mainland locations were examined by landmark-based geometric morphometrics. Intraspecific and interspecific wing comparison was carried out based on 12 anatomical landmarks. The wing centroid size of P. stantoni was generally larger than that of S. hodgsoni. Within both species, wings from the continent were significantly larger than those from island populations. Size variation could be significant between geographic locations, but could also overlap between genera. The wing venation geometry showed non-overlapping differences between two species. The within-species variation of geometric shape between different geographical locations was highly significant, but it could not interfere with the interspecies difference. The lack of species overlapping in shape, and the high discrimination between geographic populations, make geometric shape a promising character for future taxonomic and epidemiological studies.

Published

2017

39. Efficacy of Ageratum conyzoides extracts against Giardia duodenalis trophozoites: an experimental study

Author

Kanthinich Thima, Ai-rada Pintong, Jiraporn Ruangsittichai, Supaluk Popruk, Narumon Komalamisra, Sumate Ampawong, and Patchara Sriwichai

Subjects

0301 basic medicine, Giardiasis, Ageratum conyzoides, Chromatography, Gas, 030231 tropical medicine, 030106 microbiology, Ageratum, Crude extract, Mass Spectrometry, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Oils, Volatile, High activity, Trophozoites, IC50, Organelles, biology, Plant Extracts, lcsh:Other systems of medicine, biology.organism_classification, lcsh:RZ201-999, Thailand, In vitro, Complementary and alternative medicine, Giardia duodenalis, Giardia lamblia, Research Article

Abstract

Background Giardia duodenalis causes giardiasis in humans, particularly in developing countries. Despite the availability of treatments, resistance to some of the commercial anti-Giardia drugs has been reported in addition to their harmful side effects. Therefore, novel treatments for giardiasis are required. In this study, we aimed to assess the in vitro activity of crude extracts of Ageratum conyzoides against G. duodenalis trophozoites. Methods Plants were classified into three groups based on their flower colors: white (W), purple (P), and white–purple (W–P). Plants were separately cut into leaf (L) and flower (F) parts. Changes in internal organelle morphology of trophozoites following exposure to crude extracts were assessed using transmission electron microscopy (TEM). In subsequent experiments, efficacy of the most active essential oils from crude extracts [half maximal inhibitory concentrations (IC50) ≤ 100 μg/mL] against G. duodenalis trophozoites was tested. In vitro anti-Giardia assays using essential oils were performed in the same way as those performed using crude extracts. Results LW–P and FP extracts showed high activity (IC50 ≤ 100 μg/mL) against G. duodenalis trophozoites, with IC50 ± SD values of 45.67 ± 0.51 and 96.00 ± 0.46 μg/mL, respectively. In subsequent experiments, IC50 ± SD values of LW–P and FP essential oils were 35.00 ± 0.50 and 89.33 ± 0.41 μg/mL, respectively. TEM revealed the degeneration of flagella and ventral discs of G. duodenalis trophozoites following exposure to crude extracts. Conclusion Crude LW–P and FP extracts of A. conyzoides showed the highest activity against G. duodenalis. Exposure to crude extract induced changes in the flagella and ventral discs of G. duodenalis trophozoites, which play important roles in attachment to the surface of mucosal cells. Our results suggest that the tested extracts warrant further research in terms of their efficacy and safety as giardiasis treatment.

Published

2019

40. MOESM3 of Transmission risk beyond the village: entomological and human factors contributing to residual malaria transmission in an area approaching malaria elimination on the Thailandâ Myanmar border

Author

Edwards, Hannah, Patchara Sriwichai, Kirakorn Kirabittir, Jetsumon Prachumsri, Chavez, Irwin, and Hii, Jeffrey

Subjects

Hardware_MEMORYSTRUCTURES, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION

Abstract

Additional file 3: Table S3. Calculation of indoor and outdoor exposure risk for users and non-users of LLINs in Pha Man.

Published

2019

41. Natural Plasmodium vivax infections in Anopheles mosquitoes in a malaria endemic area of northeastern Thailand

Author

Jetsumon Sattabongkot, Wichai Srisuka, Petchaboon Poolphol, Udom Chaithong, Kittipat Aupalee, Rochana Phuackchantuck, Chalermpon Kumpitak, Ralph E. Harbach, Sorawat Thongsahuan, Patchara Sriwichai, Kritsana Taai, and Atiporn Saeung

Subjects

0301 basic medicine, Veterinary medicine, Endemic Diseases, 030231 tropical medicine, Plasmodium vivax, Plasmodium falciparum, Protozoan Proteins, Enzyme-Linked Immunosorbent Assay, Biology, Polymerase Chain Reaction, 03 medical and health sciences, 0302 clinical medicine, Anopheles dirus, parasitic diseases, Anopheles barbirostris, Anopheles, medicine, Malaria, Vivax, Animals, Humans, General Veterinary, Outbreak, General Medicine, biology.organism_classification, medicine.disease, Thailand, Insect Vectors, Circumsporozoite protein, 030104 developmental biology, Infectious Diseases, Insect Science, Parasitology, Female, Malaria

Abstract

There was recently an outbreak of malaria in Ubon Ratchathani Province, northeastern Thailand. In the absence of information on malaria vector transmission dynamics, this study aimed to identify the anopheline vectors and their role in malaria transmission. Adult female Anopheles mosquitoes were collected monthly by human-landing catch in Na Chaluai District of Ubon Ratchathani Province during January 2014−December 2015. Field-captured mosquitoes were identified to species using morphology-based keys and molecular assays (allele-specific polymerase chain reaction, AS-PCR), and analysed for the presence of Plasmodium falciparum and Plasmodium vivax using an enzyme-linked immunosorbent assay (ELISA) for the detection of circumsporozoite proteins (CSP). A total of 1,229 Anopheles females belonging to 13 species were collected. Four anopheline taxa were most abundant: Members of the Anopheles barbirostris complex, comprising 38% of the specimens, species of the Anopheles hyrcanus group (18%), Anopheles nivipes (17%) and Anopheles philippinensis (12%). The other nine species comprised 15% of the collections. Plasmodium infections were detected in two of 668 pooled samples of heads/thoraces, Anopheles dirus (1/29) and An. philippinensis (1/97). The An. dirus pool had a mixed infection of P. vivax-210 and P. vivax-247, whereas the An. philippinensis pool was positive only for the latter protein variant. Both positive ELISA samples were confirmed by nested PCR. This study is the first to incriminate An. dirus and An. philippinensis as natural malaria vectors in the area where the outbreak occurred. This information can assist in designing and implementing a more effective malaria control programme in the province.

Published

2017

42. Corrigendum to 'Wing geometry of Phlebotomus stantoni and Sergentomyia hodgsoni from different geographical locations in Thailand' [C. R. Biologies 340(1) (2017) 37-46]

Author

Raxsina Polseela, Yudthana Samung, Chamnarn Apiwathnasorn, Suchada Sumruayphol, Jean-Pierre Dujardin, Patchara Sriwichai, and Boonruam Chittsamart

Subjects

Geography, Wing, General Immunology and Microbiology, Zoology, General Medicine, General Agricultural and Biological Sciences, Phlebotomus stantoni, General Biochemistry, Genetics and Molecular Biology

Abstract

Comptes Rendus Biologies - In Press.Proof corrected by the author Available online since jeudi 9 fevrier 2017

Published

2017

43. Infectivity of symptomatic and asymptomatic Plasmodium vivax infections to a Southeast Asian vector, Anopheles dirus

Author

Wanlapa Roobsoong, Sureemas Buates, Chayanut Suansomjit, Wang Nguitragool, Teerawat Saeseu, Thomas Obadia, Patchara Sriwichai, Jetsumon Sattabongkot, Liwang Cui, Kirakorn Kiattibutr, Nattawan Rachaphaew, Ivo Mueller, Mahidol University [Bangkok], Malaria : parasites et hôtes - Malaria : parasites and hosts, Institut Pasteur [Paris], Hub Bioinformatique et Biostatistique - Bioinformatics and Biostatistics HUB, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS), The Walter and Eliza Hall Institute of Medical Research (WEHI), Pennsylvania State University (Penn State), Penn State System, This study was supported by the TransEPI consortium funded by the Bill & Melinda Gates Foundation, USA (www.gatesfoundation.org) and National Institutes of Health, USA, International Centers of Excellence in Malaria Research grant (U19 AI089672, www.niaid.nih.gov). We greatly appreciate the contribution to microscopic examinations of blood samples by Mrs. Nongnuj Maneechai. IM is supported by a National Health and Medical Research Council of Australia Senior Research Fellowship. WN is supported by a UK Wellcome Trust Intermediate Fellowship in Public Health and Tropical Medicine., Institut Pasteur [Paris] (IP), and Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0301 basic medicine, Disease reservoir, Plasmodium vivax, MESH: Asia, Southeastern, Parasitemia, 0302 clinical medicine, Anopheles dirus, MESH: Animals, Malaria, Falciparum, Asia, Southeastern, Membrane feeding assay, biology, MESH: Malaria, Falciparum, Anopheles, 3. Good health, MESH: Plasmodium vivax, Infectious Diseases, Female, MESH: Mosquito Vectors, medicine.symptom, Adolescent, 030231 tropical medicine, Mosquito Vectors, Southeast asian, Asymptomatic, Article, MESH: Anopheles, 03 medical and health sciences, parasitic diseases, Malaria, Vivax, medicine, Animals, Humans, Transmission, [SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology, Disease Reservoirs, MESH: Adolescent, MESH: Disease Reservoirs, MESH: Humans, MESH: Malaria, Vivax, medicine.disease, biology.organism_classification, Virology, Malaria, 030104 developmental biology, Infectivity, Parasitology, MESH: Female

Abstract

International audience; Plasmodium vivax is now the predominant species causing malarial infection and disease in most non-African areas, but little is known about its transmission efficiency from human to mosquitoes. Because the majority of Plasmodium infections in endemic areas are low density and asymptomatic, it is important to evaluate how well these infections transmit. Using membrane feeding apparatus, Anopheles dirus were fed with blood samples from 94 individuals who had natural P. vivax infections with parasitemias spanning four orders of magnitude. We found that the mosquito infection rate was positively correlated with blood parasitemia and that infection began to rise when parasitemia was >10 parasites/ll. Below this threshold, mosquito infection is rare and associated with very few oocysts. These findings provide useful information for assessing the human reservoir of transmission and for establishing diagnostic sensitivity required to identify individuals who are most infective to mosquitoes.

Published

2017

44. CLONING OF A TRYPSIN-LIKE SERINE PROTEASE AND EXPRESSION PATTERNS DURING PLASMODIUM FALCIPARUM INVASION IN THE MOSQUITO, ANOPHELES DIRUS (PEYTON AND HARRISON)

Author

Duangporn Nacapunchai, Narissara Jariyapan, Patchara Sriwichai, Susan M. Paskewitz, Jetsumon Sattabongkot, Yupha Rongsiryam, and Chamnarn Apiwathnasorn

Subjects

Regulation of gene expression, Serine protease, Innate immune system, Protease, biology, Physiology, medicine.medical_treatment, fungi, Midgut, Plasmodium falciparum, General Medicine, biology.organism_classification, Trypsin, Biochemistry, Virology, Anopheles dirus, Insect Science, parasitic diseases, medicine, biology.protein, medicine.drug

Abstract

Understanding specific gene regulation during responses to malaria infection is key to dissecting the mosquito defense mechanisms and host/parasite interactions. A full-length serine protease cDNA was isolated from the fat body of female Anopheles dirus, a major malaria vector in Thailand. The predicted amino acid sequence of SERF4 identifies it as a member of the serine protease family containing a single trypsin-like protease domain. Digestive trypsins function in the female mosquito midgut and are inducible in two phases in this tissue upon blood intake. However, the gene was highly upregulated in the midgut at day 3 postinfection by Plasmodium falciparum. In situ hybridization confirmed that SERF4 transcripts were located in the midgut epithelial cells rather than hemocytes or other tissues associated with the midgut. SERF4 was also strongly downregulated in the whole insects at day 16 after infection in comparison with the blood-fed control. Changes in the expression of the SERF4 gene in response to infection with this human malaria parasite suggest a role in parasite-specific innate immunity.

Published

2012

45. DNA barcoding and wing morphometrics to distinguish three Aedes vectors in Thailand

Author

Jean-Pierre Dujardin, Jiraporn Ruangsittichai, Yudthana Samung, Patchara Sriwichai, Suchada Sumruayphol, Siriluck Attrapadung, and Chamnarn Apiwathnasorn

Subjects

0301 basic medicine, Adult, Aedes scutellaris, Culex, Veterinary (miscellaneous), 030231 tropical medicine, Zoology, Aedes aegypti, Disease Vectors, DNA barcoding, Dengue, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, Aedes, Animals, DNA Barcoding, Taxonomic, Humans, Wings, Animal, Ae. albopictus, Ae. aegypti, Phylogeny, Morphometrics, Geometric morphometrics, biology, Ecology, Landmarks, Outlines, Reproducibility of Results, biology.organism_classification, Thailand, 030104 developmental biology, Infectious Diseases, Sympatric speciation, Insect Science, Chikungunya Fever, Parasitology

Abstract

Aedes aegypti (Diptera: Culicidae) (L.), Ae. albopictus (Skuse), and Ae. scutellaris (Walker) are important mosquito vectors of dengue and chikungunya viruses. They are morphologically similar and sympatric in some parts of their distribution; therefore, there is a risk of incorrect morphological identification. Any confusion could have a negative impact on epidemiological studies or control strategies. Therefore, we explored two modern tools to supplement current morphological identification: DNA barcoding and geometric morphometric analyses. Field larvae were reared to adults and carefully classified based on morphological traits. The genetic analysis was based on the 658 bp each of 30COI sequences. Some Culex spp., Mansonia bonneae, were included as outgroups, and inclusion of a few other Aedes spp. facilitated phylogenetic inference of the relationship between Ae. albopictus and Ae. scutellaris. The two species were separated by an average interspecific divergence of 0.123 (0.119-0.127). Morphometric examination included landmark- (392 specimens) and outline-based (317 specimens) techniques. The shape of the wing showed different discriminating power based on sex and digitizing technique. This is the first time that Ae. scutellaris and Ae. albopictus have been compared using these two techniques. We confirm that these morphologically close species are valid, and that geometric morphometrics can considerably increase the reliability of morphological identification.

Published

2016

46. List of Contributors

Author

Zach N. Adelman, Omar S. Akbari, Tim Antonelli, Roberto Barrera, Sanjay Basu, Mark Q. Benedict, James K. Biedler, Benjamin J. Blumberg, Margareth L. Capurro, Danilo O. Carvalho, Amanda Clayton, Jan E. Conn, Mamadou B. Coulibaly, George Dimopoulos, Yara A. Halasa, Brantley A. Hall, Molly Hartzog, Anthony A. James, Xiaofang Jiang, Deepak Joshi, Rhea Longley, Vanessa Macias, John M. Marshall, Conor J. McMeniman, Kevin M. Myles, Hector Quemada, Paulo E. Ribolla, Jetsumon Sattabongkot, Patricia Y. Scaraffia, Maxwell J. Scott, Donald S. Shepard, Sarah M. Short, Robert E. Sinden, Patchara Sriwichai, Yeya T. Touré, Sekou F. Traoré, Zhijian J. Tu, Eduardo A. Undurraga, Sophia Webster, Zhiyong Xi, and Gabriel Zilnik

Published

2016

47. Ecology of Malaria Vectors and Current (Nongenetic) Methods of Control in the Asia Region

Author

Jetsumon Sattabongkot, Patchara Sriwichai, and Rhea J. Longley

Subjects

Entomology, biology, Ecology, Indoor residual spraying, Anopheles, biology.organism_classification, medicine.disease, Anopheles dirus, parasitic diseases, medicine, Vector (molecular biology), Anopheles culicifacies, Anopheles stephensi, Malaria

Abstract

Approximately 1.4 billion people are at some risk of malaria infection in the South East Asia region, with 352 million at high risk. The most common and effective malaria vector control strategies currently in use are based on insecticides: indoor residual spraying (IRS) and long-lasting insecticide-treated nets. However, these interventions were designed for indoor-biting vectors, and hence are not necessarily effective in all regions. Although there are many nongenetic tools for vector control, a major limitation is the research-based evaluation of efficiency of those tools in many areas. Another limitation for research of malaria vectors in Asia is due to the high complexity of many vector species and the difficulty to maintain most of the important vectors in the laboratory, as it is very labor intensive. Here, we review the ecological and behavioral characteristics of only the most important anthropophilic vectors within this region: Anopheles culicifacies , Anopoheles fluviatilis , and Anopheles stephensi across the Indian subcontinent; and Anopheles dirus and Anopheles minimus within Southeast Asia. The challenges in applying genetic control methods to malaria vectors in Asia will be similar to the other nongenetic tools that have been used to control vectors in this region: species complexity, multiple vectors, and potential vectors in each endemic area and only a few species that can be successfully maintained in the laboratory.

Published

2016

48. Evaluation of CDC light traps for mosquito surveillance in a malaria endemic area on the Thai-Myanmar border

Author

Kirakorn Kiattibutr, Ivo Mueller, Suchada Sumruayphol, Liwang Cui, Anon Payakkapol, Patchara Sriwichai, Yudthana Samung, Stephan Karl, Guiyun Yan, and Jetsumon Sattabongkot

Subjects

Male, and promotion of well-being, Endemic Diseases, Light, CDC light trap, Mycology & Parasitology, Myanmar, medicine.disease_cause, 0302 clinical medicine, Aedes, 0303 health sciences, Ecology, Anopheles, food and beverages, Thailand, 3. Good health, Culex, Wuchereria bancrofti, Infectious Diseases, Medical Microbiology, Dry ice, Epidemiological Monitoring, Public Health and Health Services, CO2, Female, Infection, 030231 tropical medicine, Aedes aegypti, Biology, 03 medical and health sciences, Rare Diseases, Environmental health, Tropical Medicine, parasitic diseases, medicine, Animals, 030304 developmental biology, 3.2 Interventions to alter physical and biological environmental risks, Research, Prevention, fungi, Feeding Behavior, medicine.disease, biology.organism_classification, Prevention of disease and conditions, Culex quinquefasciatus, Malaria, Insect Vectors, Vector-Borne Diseases, Emerging Infectious Diseases, Culicidae, Parasitology, Entomology

Abstract

Background Centers for Disease Control and Prevention miniature light traps (CDC-LT) baited with CO2 are a routine tool for adult mosquito sampling used in entomological surveys, and for monitoring and surveillance of disease vectors. The present study was aimed at evaluating the performance of baited and unbaited CDC-LT for indoor and outdoor trapping of endemic mosquito species in northwestern Thailand. Methods CDC-LT (n = 112) with and without dry ice baits were set both indoors and outdoors in 88 selected houses for stretches of 5 consecutive nights per month in 7 villages in Tha Song Yang district, Tak province between January 2011 and March 2013. Individual traps were repeatedly placed in the same location for a median of 6 (range 1–10) times. Mosquitoes were identified by morphological characteristics and classified into blood-fed, empty, male/female and gravid. Absolute mosquito numbers were converted to capture rates (i.e., mosquitoes per trap and year). Capture rates were compared using multilevel negative binomial regression to account for multiple trap placements and adjust for regional and seasonal differences. Results A total of 6,668 mosquitoes from 9 genera were collected from 576 individual CDC-LT placements. Culex was the predominant captured genus (46 %), followed by anopheline mosquitoes (45 %). Overall, CO2 baited traps captured significantly more Culex (especially Culex vishnui Theobald) and Anopheles mosquitoes per unit time (adjusted capture rate ratio (aCRR) 1.64 and 1.38, respectively). Armigeres spp. mosquitoes were trapped in outdoor traps with significantly higher frequency (aCRR: 1.50), whereas Aedes albopictus (Skuse) had a tendency to be trapped more frequently indoors (aCRR: 1.89, p = 0.07). Furthermore, capture rate ratios between CO2 baited and non-baited CDC-LT were significantly influenced by seasonality and indoor vs. outdoor trap placement. Conclusion The present study shows that CDC-LT with CO2 baiting capture significantly more Culex and Anopheles mosquitoes, some of which (e.g., Cx. vishnui, Cx. quinquefasciatus Say, An. minimus s.l. Theobald, An. maculatus s.l. Theobald) represent important disease vectors in Thailand. This study also shows significant differences in the capture efficiency of CDC-LT when placed indoors or outdoors and in different seasons. Our study thus provides important guidelines for more targeted future vector trapping studies on the Thai-Myanmar border, which is an important cross-border malaria transmission region in Thailand. Electronic supplementary material The online version of this article (doi:10.1186/s13071-015-1225-3) contains supplementary material, which is available to authorized users.

Published

2015

49. Distribution and abundance of Stomoxyini flies (Diptera: Muscidae) in Thailand

Author

Tanasak, Changbunjong, Thekhawet, Weluwanarak, Parntep, Ratanakorn, Pattarapon, Maneeon, Manoch, Ganpanakngan, Chamnarn, Apiwathnasorn, Sungsit, Sungvornyothin, Patchara, Sriwichai, Suchada, Sumruayphol, and Jiraporn, Ruangsittichai

Subjects

Population Surveillance, Muscidae, Animals, Thailand, Entomology

Abstract

Stomoxyini flies (Diptera: Muscidae) include species of parasitic flies of medical and veterinary importance. The adult flies feed on the blood of mammals and may transmit several parasites and pathogens. We conducted an entomological survey of Stomoxyini flies from different sites in Thailand. Stomoxyini flies were collected at four major types of sites: zoos, livestock farms, wildlife conservation areas and a national park using vavoua traps between November 2010 and April 2011. A total of 3,314 Stomoxyini flies belonging to the genera Stomoxys, Haematobosca, Haematostoma and Haematobia were collected. Eight species were identified: S. calcitrans (46.6%), S. uruma (26.8%), S. pulla (4.3%), S. indicus (0.7%), S. sitiens (0.1%), H. sanguinolenta (11.2 %), H. austeni (0.5%) and H. irritans exigua (9.8%). The diversity of Stomoxyini flies in the livestock farms was higher than the other sites. Altitude correlated with the number of flies. This study provides information that may be useful for Stomoxyini flies control.

Published

2013

50. Cloning of a trypsin-like serine protease and expression patterns during Plasmodium falciparum invasion in the mosquito, Anopheles dirus (Peyton and Harrison)

Author

Patchara, Sriwichai, Yupha, Rongsiryam, Narissara, Jariyapan, Jetsumon, Sattabongkot, Chamnarn, Apiwathnasorn, Duangporn, Nacapunchai, and Susan, Paskewitz

Subjects

DNA, Complementary, Time Factors, Base Sequence, Fat Body, Molecular Sequence Data, Plasmodium falciparum, Polymerase Chain Reaction, Immunity, Innate, Organ Specificity, Anopheles, Animals, Insect Proteins, Female, Amino Acid Sequence, Cloning, Molecular, Serine Proteases, Phylogeny

Abstract

Understanding specific gene regulation during responses to malaria infection is key to dissecting the mosquito defense mechanisms and host/parasite interactions. A full-length serine protease cDNA was isolated from the fat body of female Anopheles dirus, a major malaria vector in Thailand. The predicted amino acid sequence of SERF4 identifies it as a member of the serine protease family containing a single trypsin-like protease domain. Digestive trypsins function in the female mosquito midgut and are inducible in two phases in this tissue upon blood intake. However, the gene was highly upregulated in the midgut at day 3 postinfection by Plasmodium falciparum. In situ hybridization confirmed that SERF4 transcripts were located in the midgut epithelial cells rather than hemocytes or other tissues associated with the midgut. SERF4 was also strongly downregulated in the whole insects at day 16 after infection in comparison with the blood-fed control. Changes in the expression of the SERF4 gene in response to infection with this human malaria parasite suggest a role in parasite-specific innate immunity.

Published

2012