Dengue hemorrhagic fever prevention and control: DHF-solve model using linebot-application and GIS

Dengue hemorrhagic fever (DHF) poses a significant health challenge in Thailand, highlighting the need for a better understanding of its transmission and characteristics. Innovation and technology are essential for effective prevention and control measures. This research article centres on developing a model to prevent and control DHF, utilising the DHF-Solve model, a Linebot, and Geographic Information Systems (GIS). The research was conducted in four phases. Phase 1 focused on identifying risk factors and high-risk areas for DHF. Phase 2 examined the factors influencing people's behaviours regarding DHF prevention and control. Phase 3 was dedicated to developing the model, while Phase 4 assessed its effectiveness. The research employed various tools, including GIS, questionnaires, Linebot, assessment forms, and primary and secondary data collection. Risk areas were identified through frequency and weighting techniques as well as descriptive statistical analysis. The factor that most significantly influenced behaviour was people's perception of DHF, which received an average score of 4.19. The findings from the model development indicated that the DHF-Solve Linebot is an effective management and control system for DHF. It features six menus accessible through the Line Official Account (LOA) and can function as a real-time platform. This Linebot incorporates AI chatbot commands and GIS technology, which proved to be the most effective in terms of promptness and responsiveness. It has demonstrated the potential to reduce morbidity rates during two outbreak generations. Therefore, this model effectively addresses the issue of DHF and should be implemented as a response mechanism in emergencies where DHF outbreaks may arise

Insights into SCP/TAPS Proteins of Liver Flukes Based on Large-Scale Bioinformatic Analyses of Sequence Datasets

Background: SCP/TAPS proteins of parasitic helminths have been proposed to play key roles in fundamental biological processes linked to the invasion of and establishment in their mammalian host animals, such as the transition from free-living to parasitic stages and the modulation of host immune responses. Despite the evidence that SCP/TAPS proteins of parasitic nematodes are involved in host-parasite interactions, there is a paucity of information on this protein family for parasitic trematodes of socio-economic importance.\ud \ud Methodology/Principal Findings: We conducted the first large-scale study of SCP/TAPS proteins of a range of parasitic trematodes of both human and veterinary importance (including the liver flukes Clonorchis sinensis, Opisthorchis viverrini, Fasciola hepatica and F. gigantica as well as the blood flukes Schistosoma mansoni, S. japonicum and S. haematobium). We mined all current transcriptomic and/or genomic sequence datasets from public databases, predicted secondary structures of full-length protein sequences, undertook systematic phylogenetic analyses and investigated the differential transcription of SCP/TAPS genes in O. viverrini and F. hepatica, with an emphasis on those that are up-regulated in the developmental stages infecting the mammalian host.\ud \ud Conclusions: This work, which sheds new light on SCP/TAPS proteins, guides future structural and functional explorations of key SCP/TAPS molecules associated with diseases caused by flatworms. Future fundamental investigations of these molecules in parasites and the integration of structural and functional data could lead to new approaches for the control of parasitic diseases

National Program of Opisthorchiasis in Thailand; Situation and Policy Strategy

Opisthorchiasisis, a chronic parasitic inflammatory disease of the bile ducts, caused by liver fluke or Opisthorchis viverrini infections is a crucial significant public health problem in Thailand. Most evidence of Opisthorchiasis is reported from national programs. Thus the magnitude of liver fluke infection at the national level required to assess the effectiveness of the national opisthorchiasis control program. In Thailand, infections with Opisthorchis viverrini are associated with a high mortality secondary to Cholangiocarcinoma (CCA). A systematic countrywide national survey in Thailand already reported from the past more than half-century (59 years) in 1957 to date in 2019, revealed the declining trend of the overall helminthiasis infection from 62.9% (in 1957) to 8.13% (in 2009). The National Opisthorchiasis control program managers have initiated and established a national plan to prevent and control these eradicate diseases through the interaction and responses of the provincial public health sectors. However, the national control program managers need to have information determined by evidence-based needs. These intensive data are representative of all ages of the population of Thailand and are derived from the national household survey. The national prevalence of Opisthorchis viverrini in this study was carried out in 77 provinces. A total of 9,904 samples of stool specimens were obtained from the population by using a cluster random sampling under WHO guidelines. The results of this large scale survey showed that the overall prevalence of Opisthorchaisis among Thai people was 4.0%. The highest prevalence of O. viverrini was 11.9 %, in the health region 5 in the Northeast region. During this national survey of Opisthorchiasis, geographic information is also conducted to investigate the prevalence of O. viverrini. The spatial analysis would be the trends and analyze the risk factors that correlate with infections among rural Thai people. The recommendation that already showed the impact of National program useful for every country especially in Mae King basin for elimination and control for opisthorchiasis.</jats:p

Surveillance Model of Parasitic Zoonosis in Cyprinoid Fishes in Northern Zone and Northeastern Zone of Thailand and Myanmar Using GIS

The parasitic zoonosis, opisthorchis viverrini has been an important public health problem in many parts of the globe. In Thailand, fish-borne parasitic zoonosis is highly spread in the northern and northeastern regions, where a large impact of cholangiocarcinoma occurs, a crucial source of the liver cancer. The rare occasions reports date published about the Opisthorchiasis in the middle zone of Myanmar. In our study, a total of a few species of fish borne trematode metacercariae i.e.; three kind of small intestinal flukes, the family of Heterophyidae; Haplorchoides sp., Haplorchis pumilio, Haplorchis taichi and one species of carcinogenic liver fluke, the family of Opisthorchiidae; Opisthorchis viverrini have been detected from seven study areas from Thailand and Myanmar. The geographic information relevant with the rate of infection with vulnerable species of freshwater fishes was also posted from Thailand and Myanmar, and built a parasitic diseases combine with georeference for Geographical Information System (GIS) implementation. Furthermore, secondary descriptive analysis of the prevalence of fishborne trematodes metacercariae from countries of golden triangles (Southeast Asia) ie; Thailand, Myanmar, and Laos PDR have been created a GIS database for infection status of parasite infections. The outcome from this study may be helpful in strategies for protocol of the prevention of parasitic zoonosis in freshwater fishes reportin Thailand and Myanmar.</p