Introduction.

Cholangiocarcinoma (CCA) is a lethal cancer arising in the bile ducts within and just outside the liver. It occurs worldwide and falls into two etiologically defined groups, one related to chronic liver fluke infection and the other not. Liver fluke-related CCA is found in continental Southeast Asia (caused by Opisthorchis viverrini with infection leading to opisthorchiasis), East Asia (Clonorchis sinensis), and Eastern Europe and Russia (Opisthorchis felineus). Both O. viverrini and C. sinensis are classified as group one carcinogens, while recent data from O. felineus suggest the same. In Southeast Asia, an estimated 67.3 million people are at risk of O. viverrini infection and subsequently developing CCA. When the three liver fluke species are considered, an estimated 700 million people are at risk of infection and developing CCA globally. The northeast of Thailand (Isan) is the world's hot spot of liver fluke infection and CCA. Early detection, diagnosis, and surgical intervention/curative treatment of CCA are critical to increase life expectancy and quality of life of people in the region and globally. Despite concentrated recent efforts focusing on a multidisciplinary approach to understand the ecology, epidemiology, biology, public health, and social significance of infection by cancer causing liver flukes, it remains an underestimated and under-resourced public health problem. In addition, it is still believed to be a regional problem without global significance-this is not the case. This book focuses on O. viverrini as the main causative agent of CCA in Southeast Asia, but many aspects detailed in the following chapters also relate to the two other liver fluke species. Our aim is to produce a holistic framework including the basic biology of O. viverrini and its relation to the epidemiology of the disease through diagnosis to treatment, including palliative methods, pathology, and control.

Opisthorchis viverrini Life Cycle, Distribution, Systematics, and Population Genetics.

Opisthorchis viverrini plays a key role as the carcinogenic liver fluke causing bile duct cancer in Southeast Asia. A comprehensive understanding of its life cycle, distribution, systematics, and population genetics is critically important as they underpin the effective development and establishment of future prevention and control programs that center on opisthorchiasis and cholangiocarcinoma. This chapter provides detailed information concerning the basic biology and updated information of O. viverrini related to its host life cycle, transmission route via raw, partially cooked or fermented freshwater cyprinid fish, endemic areas, and the discovery of new foci. Previous sequential studies over the last two decades on the phylogenetic and systematic relationships, genetic variation, and population genetics of O. viverrini as well as its snail intermediate host Bithynia spp. are presented and discussed, which have led to the currently known complex species level systematics and population genetics framework of this host-parasite system. Additionally, further directions for comprehensive research are suggested to provide a more complete understanding of liver fluke, O. viverrini-related cholangiocarcinoma.

Epidemiology and Control of Opisthorchis viverrini Infection: Implications for Cholangiocarcinoma Prevention.

It is known that Opisthorchis viverrini (OV) is the most significant risk factor for the development of cholangiocarcinoma (CCA); hence, it is also known as carcinogenic parasite. Effective control and elimination of OV infection should significantly reduce O. viverrini-related CCA. This chapter includes details of the three recently developed innovative tools, namely the Isan cohort database software, an OV-RDT for screening of O. viverrini, and an ultrasound telecommunication system. Past and current control programs, i.e., education, medication, and sanitation were discussed and stressed the need for a comprehensive control program which encompasses primary, secondary, and tertiary patient care programs for confirmation and management of suspected CCA cases. The approach of mathematical modeling for control of OV and CCA was also briefly described. Additionally, we highlighted the current progress toward control of OV and CCA in Thailand and potential for expansion into nearby countries in Southeast Asia.

Synopsis.

Cholangiocarcinoma (CCA) is the second most common primary liver cancer worldwide. Despite the severity of the disease and its impact on individuals, families, and communities, there remains an overall lack of awareness and interest in this disease. The information contained in the chapters of this book shows that this is indeed a significant public health and socioeconomic problem with varying levels of country-specific awareness. In Southeast Asia liver fluke, O. viverrini related CCA is endemic with the highest incidence worldwide in northeast Thailand, yet it is treatable and preventable. The chapters highlight significant advances in our knowledge of the biology and epidemiology of the O. viverrini species complex, intermediate hosts, systematics, population genetics, and the complexity of the three-host life cycle. A comprehensive conceptual framework has been developed to assist in understanding the complexity of molecular mechanisms of CCA carcinogenesis and cancer development which can result in improvement of targeted CCA therapy. There have been many advances in understanding the pathology of CCA in the biliary tract, including advances in prognosis and molecular pathogenesis. The development of different modalities and their advantages for diagnosis have increased diagnostic accuracy, providing reliable information allowing appropriate treatment and management programs to be selected for each patient. Particularly exciting is the recent development of a urine antigen assay which has revolutionized the diagnostic approach of opisthorchiasis due to its simplicity, the non-invasive nature of sample collection, and its ease of use in field settings. Significant in-roads and advances have been made in the surgical and systemic treatment of CCA patients. Additionally, a sophisticated data collection and analysis system, the Isan Cohort, has been developed and established for the treatment and control of CCA. Importantly, a greater understanding has been made of the social, community, religious, and anthropological issues initiating and sustaining the eating behavior of raw, partially cooked, and/or fermented fresh water fish. Specially designed education programs/curricula, based on currently available multidisciplinary hard data targeting school children, have been introduced since the inception of the Cholangiocarcinoma Screening and Care Program (CASCAP) and the subsequent strategic Fluke Free Thailand Model. The education program is being expanded to other provinces in Thailand and in the near future to other Southeast Asian countries, initially to Lao PDR, where the Fluke Free Lao PDR program has already been implemented. Despite advances that have been made in many disciplines focused on O. viverrini related CCA, raising awareness of CCA at all levels, particularly across endemic regions, is still needed, as is raising the awareness of CCA globally. As parasites and parasite related diseases have no borders, it is critical that an effective common strategic plan is instigated and established between all countries where liver fluke, O. viverrini related CCA is a significant public health problem, thereby increasing the quality of life and life expectancy of millions of people who suffer from this insidious disease.

RAW ATTITUDES: Socio-Cultures, Altered Landscapes, and Changing Perceptions of an Underestimated Disease.

Raw attitudes relate to the food cultures, eating habits, and behaviours of people in relation to the consumption of raw, partially cooked, and fermented freshwater fish dishes, which puts people at risk of Ophistochis viverrini and other parasitic infections. The chapter reviews raw attitudes within the countries and across the borders of the greater Mekong region, particularly northeast Thailand, Lao PDR, Vietnam, and Cambodia. Rather than treat each nation-state as an isolated epidemiological box, the chapter explores transborder complexity in relation to multiple anthropogenic transformations to the landscapes of the region and developmental impacts upon ecosystems and life cycles. Economic projects such as multiple hydropower dams, irrigation schemes, water-diversions, roads, and aquaculture ponds have significant impacts on FTZ life-cycle dynamics. In addition, many ecological changes are transboundary ones, and there are added complications relating human mobility, altered agrarian landscapes, and significant numbers of migrant workers. The chapter also examines public health programmes and educational interventions which are altering perceptions of O. viverrini and cholangiocarcinoma over time. A key argument is the need for transdisciplinary scientific and social science strategies alongside multi-pronged health interventions, such as 'the CASCAP model'. There exist many unknowns and gaps relating to widespread anthropogenic modifications upon life cycles, upon lifestyles, livelihoods, and human behaviours, which require research projects that span socio-economic, ecological, geographical, and public health dynamics of disease.

Population dynamics and diversity of trematode infections in Bithynia siamensis goniomphalos in an irrigated area in northeast Thailand.

Several trematodes including Opisthorchis viverrini utilize Bithynia siamensis goniomphalos as a snail intermediate host in their life cycles. In order to capture a comprehensive range of host­parasite interactions and their transmission dynamic patterns, B. s. goniomphalos were sampled monthly over 4 consecutive years in an irrigated paddy-field habitat in northeast Thailand. Using a standard cercarial shedding method, a high diversity of trematodes (17 types) was recovered. Virgulate xiphidiocercariae were the most prevalent (7.84%) followed by O. viverrini (0.71%). In addition to seasonal and environmental factors, the quantity of irrigation water for rice cultivation correlated with transmission dynamics of trematodes in B. s. goniomphalos. The peak prevalence of all trematode infections combined in the snails shifted from the cool-dry season in 2010­2012 to the hot-dry season in 2013 associated with an increasing quantity of water irrigation. A low frequency of mixed trematode infections was found, indicating that the emergence of virgulate cercariae, but not of O. viverrini, was negatively impacted by the presence of other trematodes in the same snail. Taken together, the observed results suggest that interactions between host and parasite, and hence transmission dynamics, depend on specific characteristics of the parasite and environmental factors including irrigated water for rice cultivation.

Genetic diversity and phylogenetic analyses of ixodid ticks infesting cattle in northeast Thailand: the discovery of Rhipicephalus microplus clade C and the rarely detected R. haemaphysaloides.

In total, 160 ticks infesting cattle in the northeast region of Thailand were collected and used for molecular investigation. Three tick species-Rhipicephalus microplus Canestrini, Rhipicephalus haemaphysaloides Supino and Haemaphysalis bispinosa Neumann-were identified based on morphology and DNA sequences of mitochondrial cytochrome c oxidase subunit 1 (CO1) and 16S ribosomal RNA (16S rRNA). In total, 26 and seven unique haplotypes of the CO1 and 16S rRNA genes, respectively, were recovered. Phylogenetic analysis using the CO1 sequence revealed that the R. microplus from northeastern Thailand were grouped into the previously described clades A and C, whereas the 16S rRNA phylogenetic tree assigned all isolates of R. microplus from Northeast Thailand into the previously described clade B. Clade C of the CO1 phylogenetic tree is a new genetic assemblage recently discovered from India and Malaysia, which has now been detected in our study. The haplotype network also demonstrated that R. microplus is divided into two haplogroups corresponding to the assemblage of the CO1 phylogenetic tree. Our findings strongly support the previous genetic assemblage classification and evidence that R. microplus from Northeast Thailand is a species complex comprising at least two genetic assemblages, i.e., clades A and C. However, further investigation is needed and should involve more comprehensive genetic and morphological analyses and cover a larger part of their distributional range throughout Southeast Asia.

Current assessment of the systematics and population genetics of Opisthorchis viverrini sensu lato (Trematoda: Opisthorchiidae) and its first intermediate host Bithynia siamensis sensu lato (Gastropoda: Bithyniidae) in Thailand and Southeast Asia.

The group 1 carcinogen, the liver fluke Opisthorchis viverrini is the causative agent of opisthorchiasis and subsequent bile duct cancer (cholangiocarcinoma; CCA), which is an important public health problem in Southeast Asia. Bithynia snails are known to be the sole intermediate host of O. viverrini, and distributed throughout endemic areas of opisthorchiasis. Since 2001, the genetic variation investigation of O. viverrini has progressively been investigated. Comprehensive genetic variation studies of O. viverrini and Bithynia snails were undertaken and consecutively published in 2007 by Saijuntha and colleagues. These studies provided genetic evidence that O. viverrini and Bithynia snails are both species complex with evidence of co-evolution. Later, several studies have provided data in support of this finding, and have continuously to date reinforced that both O. viverrini and Bithynia are species complexes. Moreover, studies have shown that genetic variation of O. viverrini is related to geographical, temporal, fish host species including geographical genetic variation of its snail host, Bithynia siamensis sensu lato. This is significant and important in our understanding of the evolution and phylogenetic relationships between species within the O. viverrini and Bithynia species complexes. A comprehensive knowledge of the systematics and population genetics of O. viverrini and Bithynia snails provides a sound basis to instigate and develop effective prevention and control programs targeting opisthorchiasis and CCA in the endemic areas of Southeast Asia. Thus, this review examines the historical series of investigations of the systematics and population genetics of O. viverrini including Bithynia spp. in Southeast Asia since molecular genetic investigations commenced some 20 years ago.

Genetic diversity and population structure of Haemonchus contortus in goats from Thailand.

Haemonchus contortus is one of the most economically important parasitic nematodes affecting small ruminant livestock worldwide. This study was conducted to elucidate the genetic diversity and population structure of this nematode in Thailand based on mitochondrial DNA markers, the nicotinamide dehydrogenase subunit 4 (nad4) and the cytochrome c oxidase subunit 1 (cox1) genes. One hundred and thirty-six adult worms were obtained from 86 abomasa of slaughtered goats from 13 different localities in 5 regions of Thailand. Identification to the genus Haemonchus was done using morphology. DNA sequences of the nuclear ribosomal second internal transcribed spacer (ITS2) identified each specimen to species: three fixed nucleotide (SNP) differences distinguished H. contortus from H. placei. Genetic analysis defined 118 and 122 unique haplotypes in partial sequences of nad4 (alignment length 723 bp) and cox1 (645 bp) genes, respectively. Nucleotide diversities were 0.031 and 0.043 for nad4 and cox1 genes, respectively. Low genetic differentiation was observed among H. contortus samples from various provinces in Thailand. This is the first study on the genetic diversity and population structure of H. contortus of goats in Thailand. This study has provided insights into the transmission dynamics of this parasitic nematode, information which is essential for farm management and parasite control.

Genetic structure and evidence for coexistence of three taxa of Bithynia (Gastropoda: Bithyniidae), the intermediate host of Opisthorchis viverrini sensu lato (Digenea: Opisthorchiidae) in Thailand examined by mitochondrial DNA sequences analyses.

The freshwater snails, Bithynia are the first intermediate hosts of the liver fluke, Opisthorchis viverrini, the causative agent of cholangiocarcinoma (CCA) in Southeast Asia. In Thailand, there are three traditionally recognized taxa of Bithynia: Bithynia funiculata; B. siamensis siamensis; B. s. goniomphalos. This study examines the geographical distribution and genetic structure of Bithynia species from five previously reported water catchments and six new catchments in Thailand. Of these, three new catchments Kok, Wang, and Nan are from the north and the remaining three new catchments are Phetchaburi, Prachuap Khiri Khan Coast, Mae Klong from the west of Thailand. We sampled 291 Bithynia snails from 52 localities in 11 catchment systems in the northern, western and central regions of Thailand. Mitochondrial cytochrome c oxidase subunit 1 (COI) and 16S ribosomal DNA (16S rDNA) sequences were used to examine genetic diversity of Bithynia snails which revealed 200 and 27 haplotypes of COI and 16S rDNA, respectively. However, as 16S rDNA is a conserved gene, it is not suitable to distinguish Bithynia at the species and sub-species levels in our study. The phylogenetic tree and haplotype network analyses included sequences of COI from GenBank. B. funiculata was found only in the north of Thailand and the genetic structure did not differ among populations. Genetic differentiation (ΦST) analyses showed that B. s. goniomphalos contained three distinct lineages. Lineage I contained B. s. goniomphalos from the vast majority of catchment systems in Thailand and Lao PDR. Lineage II contained all B. s. goniomphalos from the Prachin Buri and Bang Pakong catchment systems in eastern and central Thailand, including samples from all catchment systems in Cambodia. While lineage III contained B. s. goniomphalos from the Songkram and Nam Kam catchment systems in Thailand and the Nam Ngum and Huai Som Pak catchment systems in Lao PDR. Furthermore, results showed that all samples of B. s. siamensis were classified into one lineage and placed phylogenetically between B. s. goniomphalos lineages I and II. Thus, the taxonomic status of B. s. goniomphalos and B. s. siamensis requires reassessment, and they should be reclassified as belonging to the species complex "Bithynia siamensis sensu lato".

Phylogeographic genetic variation of Indoplanorbis exustus (Deshayes, 1834) (Gastropoda: Planorbidae) in South and Southeast Asia.

The freshwater snail Indoplanorbis exustus play an important role as the sole intermediate host of several medically- and economically-important trematodes, especially zoonotic schistosomes and echinostomes, which can infect and cause diseases in livestock and people. This study aims to explore the mitochondrial cytochrome c oxidase subunit 1 sequence variation of I. exustus collected from new geographical areas; 459 specimens of I. exustus were collected from 43 localities in South and Southeast Asia. The 42 haplotypes (Ie1 - Ie42) we detected were classified into haplogroups I - V. Phylogenetic analyses revealed five major clades, A - E, in concordance with all previous studies. Clade E contained two subclades, E1 (haplogroup I) and E2 (haplogroup II). The most widespread genetic group was subclade E1. Clade A, clade B (haplogroup V), and clade C (haplogroup IV) were found only in South Asia, whereas clade D (haplogroup III) was specifically found in Southeast Asia. In Thailand, I. exustus showed high genetic divergence with 21 haplotypes. Several isolates showed significant genetic differences from others with unique haplotype(s). Hence, we confidently conclude our findings support all previous studies that I. exustus is a species complex with at least four major lineages and five haplogroups. Our additional analyses of 35 samples from Sri Lanka showed these were indeed an independent genetic group as previously found, but they can now be classified as a unique group forming subclade E2 (haplogroup II) of I. exustus sensu lato.

Foodborne zoonotic parasites of the family Opisthorchiidae.

Several foodborne zoonotic trematodes of the family Opisthorchiidae have been reported to infect people, specifically two genera, Clonorchis and Opisthorchis. Three species Clonorchis sinensis, Opisthorchis felineus and Opisthorchis viverrini are the most extensivley studied of the Opisthorchiidae. At least 680 million people worldwide are at risk of infection of these liver flukes through the consumption of raw or partially cooked freshwater cyprinid fish. An estimated 45 million people in Europe and Asia are currently infected with these liver flukes. Of these, the 35 million are infected with C. sinensis mainly in China, 10 million with O. viverrini in Southeast Asia, and 1.2 million with O. felineus in Eastern Europe and Russia. These liver flukes have been proven to be causative agents of bile duct cancer or cholangiocarcinoma (CCA). A multidisciplinary program should be implemented involving comprehensive research on molecular genetics, diagnosis, treatment, prevention, as well as educational and control programs should progressively be introduced and applied in endemic regions of O. viverrini, O. felineus and C. sinensis throughout their ranges, hence, opisthorchiasis and clonorchiasis free communities can be realised globally.

Ixodidae (Acari: Ixodoidea): descriptions and redescriptions of all known species from 1758 to December 31, 2019.

References to the descriptions and redescriptions of the 742 species of Ixodidae published from 1758 to December 31, 2019 are compiled, with the goal of enabling tick taxonomists to readily access this diffuse and often confusing literature. Additionally, data resulting from this effort are critically analyzed to demonstrate the problems attending correct identification of several tick species that are of medical, veterinary and/or evolutionary importance, and to highlight the need for new or enhanced diagnostic techniques. Recent morphological and molecular studies indicate that some ixodid species names represent more than one taxon; therefore, it is expected that new species will be described in the near future, based partly on material already deposited in museums around the world.

Impact of geography and time on genetic clusters of Opisthorchis viverrini identified by microsatellite and mitochondrial DNA analysis.

Infection by the small liver fluke, Opisthorchis viverrini, causes serious public health problems, including cholangiocarcinoma, in Thailand and southeastern Asian countries. Previous studies have reported that O. viverrini represents a species complex with varying levels of genetic differentiation in Thailand and Lao PDR. In this study, we re-examined population genetic structure and genetic diversity of O. viverrini using extensive samples of the parasite collected over 15 years from 12 geographical localities in Thailand and eight localities in Lao PDR. Parasite life-cycle stages of 721 individuals of O. viverrini (91 cercariae, 230 metacercariae and 400 adult worms) were genotyped using 12 microsatellite loci. Metacercariae exhibited genetic diversity comparable with that of experimentally raised adults: metacercariae can therefore be used to represent O. viverrini populations without the need for laboratory definitive hosts. Data obtained from larval as well as adult worms identified two distinct genetic clusters of O. viverrini. Sequences of a portion of the mitochondrial cox1 gene strongly supported the existence of these two clusters. One, the widespread cluster, was found at all sampled sites. The second cluster occurred only in Phang Khon District, Sakon Nakhon Province (SPk), within the Songkram River wetland in Thailand. A striking feature of our data relates to the temporal dynamics of the SPk cluster, which was largely replaced by representatives of the widespread cluster over time. If the SPk cluster is excluded, no marked genetic differences were seen among O. viverrini populations from Thailand and Lao PDR. The underlying causes of the observed population structure and population dynamics of O. viverrini are not known.

Intron sequence variation of the echinostomes (Trematoda; Echinostomatidae): implications for genetic investigations of the 37 collar-spined, Echinostoma miyagawai Ischii, 1932 and E. revolutum (Fröelich, 1802).

Echinostomes are a diverse group of digenetic trematodes that are difficult to classify by predominantly traditional techniques and contain many cryptic species. Application of contemporary genetic/molecular markers can provide an alternative choice for comprehensive classification or systematic analysis. In this study, we successfully characterized the intron 5 of domain 1 of the taurocyamine kinase gene (TkD1Int5) of Artyfechinostomum malayanum and the other two species of the 37 collar-spined group, Echinostoma revolutum and Echinostoma miyagawai, whereas TkD1Int5 of Hypoderaeum conoideum cannot be amplified. High levels of nucleotide polymorphism were detected in TkD1Int5 within E. revolutum and E. miyagawai, but not in A. malayanum. Thus, TkD1Int5 can be potentially used as genetic marker for genetic investigation of E. miyagawai and E. revolutum. We therefore used TkD1Int5 to explore genetic variation within and genetic differentiation between 58 samples of E. miyagawai and five samples of E. revolutum. Heterozygosity was observed in 17 and two samples with 16 and three insertion/deletion (indel) patterns in E. miyagawai and E. revolutum, respectively. Heterozygous samples were then cloned and nucleotide sequence was performed revealing the combined haplotypes in a particular sample. Based on nucleotide variable sites (excluding indels), the 72 E. miyagawai and seven E. revolutum haplotypes were subsequently classified. The haplotype network revealed clear genetic differentiation between E. miyagawai and E. revolutum haplogroups, but no genetic structure correlated with geographical localities was detected. High polymorphism and heterogeneity of the TkD1Int5 sequence found in our study suggest that it can be used in subsequent studies as an alternate independent potential genetic marker to investigate the population genetics, genetic structure, and possible hybridization of the other echinostomes, especially the 37 collar-spined group distributed worldwide.

Influence of Water Irrigation Schemes and Seasonality on Transmission Dynamics of Opisthorchis viverrini in the Snail Intermediate Host, Bithynia siamensis goniomphalos in Rice Paddy Fields in Northeast Thailand.

Opisthorchis viverrini is a fish-borne zoonotic trematode that causes significant public health problems in Southeast Asia. Its life cycle requires Bithynia snails as the first intermediate hosts, fish, and human and/or carnivore hosts. This study assessed impacts of land use practice for rice cultivation and seasonality on the transmission dynamics of O. viverrini in Bithynia siamensis goniomphalos in rice paddy field habitats. The transmission of O. viverrini cercariae in B. s. goniomphalos was monitored at monthly intervals over a 4-year period from January 2010 to December 2013. From a total of 59,727 snails examined by standard cercarial shedding, the prevalence of O. viverrini was 0.7% (range, 0.0-4.1%). The prevalence of O. viverrini infection in B. s. goniomphalos varied with the amount of rainfall, with peaks of infection occurring in the cool-dry season, that is, after each rainy season. A shift of peak prevalence from cool-dry to hot-dry season observed in 2013 was associated with the increase in preceding water irrigation to support the production of second annual rice crop. Significant positive correlations were found between the prevalence and intensity of cercarial infection and the size of snails. Our results revealed substantial variation between years so that to have a clear understanding of the population dynamics of this complex system, studies should be conducted over an extended period (> 1 year). Results from this study highlight that water irrigation schemes in rice paddy cultivation and seasonality have a significant effect on the prevalence of O. viverrini in B. s. goniomphalos.

A comparison of the proportion of early stage cholangiocarcinoma found in an ultrasound-screening program compared to walk-in patients.

BACKGROUND: Patients with cholangiocarcinoma (CCA) usually have no specific symptoms until an advance stage of the disease and curative treatment is not possible. Patients with early stage, operable disease can be found using ultrasonography (US). A US-screening program was implemented in Thailand where CCA incidence is the highest worldwide. Here we evaluate the effectiveness of the program by comparing the proportion of individuals with early stage CCA in the screening group with that of the walk-in group presenting at hospitals with clinical symptoms. METHODS: All patients had a pathological diagnosis of CCA. The difference in the proportions and the 95% confidence interval (CI) were obtained using binomial regression. RESULTS: Of the 762 histologically proven CCA cases, 161 were from the screening group and 601 from the walk-in group. The proportion of early stage CCA (stages 0 to II) diagnosed was 84.5% in the screening and 21.6% in the walk-in groups. After adjustment age, gender, and liver fluke infection, there was a significantly higher proportion (P < 0.001) and higher chance (P < 0.001) of having early stage CCA in the screening group than in the walk-in group. CONCLUSIONS: US-screening is an effective tool for detecting early stage, operable CCA in high incidence areas.

Analysis of a school-based health education model to prevent opisthorchiasis and cholangiocarcinoma in primary school children in northeast Thailand.

Infection with the liver fluke Opisthorchis viverrini is the major causative factor inducing cholangiocarcinoma in the Mekong region of Southeast Asia. Northeast Thailand has the highest incidence of this cancer worldwide leading to about 20,000 deaths every year. Infection with the liver fluke comes from eating raw or undercooked fish, a tradition in this area that can potentially be countered by education programs at school level. Here we develop a school-based health education model, based on protection motivation theory (PMT), including module design, learning materials, student activities, and capacity building amongst teachers. This education program was applied and tested in primary school to pupils (9-13 years) in Khon Kaen province, northeast Thailand. Using a randomized control trial, four schools served as intervention groups (n = 118 pupils) and another four acted as controls (n = 113 pupils). Based on PMT constructs, we found that the pupils in the intervention group had significantly greater knowledge and perceived the severity, vulnerability, response efficacy, and self-efficacy parameters concerning the dangers of eating raw fish and of developing cholangiocarcinoma than those in the control schools (p < 0.05). All of the PMT constructs measured were significantly intercorrelated with each other (p < 0.001). At the same time, some background knowledge, from community-based education programs, was present in the control schools. The result from this initial study suggests that PMT can be used to predict protective attitude as well as behavior changes in evaluating the consequence of school health intervention programs.

Infection Dynamics of Opisthorchis viverrini Metacercariae in Cyprinid Fishes from Two Endemic Areas in Thailand and Lao PDR.

The infection dynamics of Opisthorchis viverrini metacercariae was analyzed in cyprinid fish from endemic areas in Mukdahan Province, Thailand, and Khammouane Province, Lao PDR. The fish were collected during the cool-dry (November-February), hot-dry (March-May), and rainy (June-October) seasons in 2017. They were examined by the digestion method, and the infection status was statistically analyzed by study area, season, and fish size. The prevalence (no. of fish positive/no. of fish examined × 100) and metacercarial intensities (no. of metacercariae detected/no. of fish positive) of O. viverrini in both study areas depended on season, being high in the cool-dry season and varying in the hot-dry and rainy seasons. In Mukdahan Province, the average prevalence was 18.3% (range 11.0-46.7%, n = 420) and the intensity was 4.07 ± 5.86 cysts/fish (mean ± SD), whereas in Khammouane Province, the prevalence was 51.9% (range 9.1-70.6%, n = 673) and the intensity was 6.67 ± 12.88 cysts/fish. Among the cyprinid fish species examined, the infection was associated with fish body size and predominantly found in Hampala dispar (86.5%), Cyclocheilichthys armatus (73.2%), and Puntius brevis (42.7%). The distribution of O. viverrini metacercariae in fish was skewed, with most of the fish having a low worm burden with an average of four to six cysts/fish. The findings that seasonality, sampling locality, fish size, and species of fish play roles in the risk of O. viverrini infection imply that these host and environmental factors are important for the transmission dynamics and control of O. viverrini.

Genetic structure and geographical variation of Bithynia siamensis goniomphalos sensu lato (Gastropoda: Bithyniidae), the snail intermediate host of Opisthorchis viverrini sensu lato (Digenea: Opisthorchiidae) in the Lower Mekong Basin revealed by mitochondrial DNA sequences.

The freshwater snail Bithynia siamensis goniomphalos sensu lato is widely distributed in the Lower Mekong Basin where it acts as the first intermediate host of the liver fluke Opisthorchis viverrini, a group 1 carcinogen causing cholangiocarcinoma. This study explores the genetic structure and geographical variation of B. s. goniomphalos from eight previously studied catchments and eight new catchments. These catchments belong to five previously studied catchment systems and one new catchment system (Tonlesap) in the Lower Mekong Basin. Two new catchment systems, Prachin Buri and Bang Pakong from eastern and central Thailand, respectively, were also examined. We collected 289 specimens of B. s. goniomphalos from 15 previously studied localities and 18 new localities in Thailand, Lao PDR (People's Democratic Republic), and Cambodia. The mitochondrial cytochrome c oxidase subunit 1 and 16S ribosomal DNA sequences were used to determine genetic variation. Classification of haplotypes specified 100 at the cox1 locus and 15 at the rrnL locus. Comparison between 16 catchment populations found significant genetic differences (ФST) between all populations. The phylogenetic tree and haplotype network analyses classified B. s. goniomphalos into three evolutionary lineages (lineage I-III). Lineage I contained B. s. goniomphalos from the Mekong, Chi, Mun, Prachin Buri and Bang Pakong catchments in Thailand, including the Nam Ngum catchment in Lao PDR. Lineage II contained all specimens from the Tonlesap catchment, whereas lineage III contained specimens from the Mekong and Sea Bang Heang catchments in Thailand and Lao PDR, respectively. Interestingly, Bithynia siamensis siamensis was placed between lineages I and II of B. s. goniomphalos. This study supports the hypothesis that B. s. goniomphalos is a species complex containing at least three distinct evolutionary lineages in the Lower Mekong Basin, and that comprehensive molecular genetic analyses need to be conducted to further our understanding of the evolutionary and systematic relationships of these Bithynia snail taxa.