"Schistosomiasismodl" Example Sentences
1. SchistosomiasisMODL is a computer simulation program designed to study the transmission of schistosomiasis.
2. The SchistosomiasisMODL model predicted that snail control measures would reduce the prevalence of the disease.
3. The SchistosomiasisMODL algorithm incorporates both environmental and socioeconomic factors that contribute to the prevalence of the disease.
4. SchistosomiasisMODL was developed in collaboration with global health organizations to improve disease control strategies.
5. Researchers used SchistosomiasisMODL to evaluate the impact of drug treatment on reducing schistosomiasis transmission.
6. The SchistosomiasisMODL interface allows users to adjust parameters and visualize the effects on disease transmission.
7. SchistosomiasisMODL simulations revealed that water sanitation measures were effective in reducing the prevalence of the disease.
8. Using SchistosomiasisMODL, scientists evaluated the effectiveness of different vaccination strategies for schistosomiasis prevention.
9. SchistosomiasisMODL can be used to simulate disease outbreaks in different regions of the world.
10. SchistosomiasisMODL is an open-source platform that allows researchers to share data and collaborate on disease control efforts.
11. The SchistosomiasisMODL model predicted that snails were the primary intermediate host for the parasite that causes the disease.
12. SchistosomiasisMODL was used to assess the economic impacts of schistosomiasis on communities in endemic regions.
13. The SchistosomiasisMODL algorithm was modified to incorporate seasonal variations in the disease transmission cycle.
14. SchistosomiasisMODL simulations revealed that targeted educational interventions could improve disease prevention and control.
15. Using SchistosomiasisMODL, researchers evaluated the impacts of climate change on the transmission of the disease.
16. The SchistosomiasisMODL platform provides real-time data analysis and visualization tools for disease control efforts.
17. SchistosomiasisMODL simulations showed that changing water management practices could reduce the risk of disease transmission.
18. Researchers used SchistosomiasisMODL to develop a predictive model for the spread of the disease in different ecological settings.
19. The SchistosomiasisMODL algorithm was modified to incorporate genetic differences in schistosome populations.
20. SchistosomiasisMODL simulations revealed that combining multiple interventions was the most effective approach to disease control.
21. The SchistosomiasisMODL model was used to estimate the economic benefits of investing in schistosomiasis control programs.
22. Using SchistosomiasisMODL, researchers evaluated the impact of population growth on the prevalence of the disease.
23. SchistosomiasisMODL simulations showed that community-led interventions could improve the effectiveness of disease control programs.
24. The SchistosomiasisMODL algorithm was modified to incorporate spatial variations in disease transmission.
25. SchistosomiasisMODL was used to estimate the impact of climate change on the geographic distribution of the disease.
26. The SchistosomiasisMODL platform allows for the integration of data from multiple sources to provide a comprehensive view of disease transmission.
27. SchistosomiasisMODL simulations revealed that environmental changes could have a significant impact on the prevalence of the disease.
28. Using SchistosomiasisMODL, researchers evaluated the impact of different drug treatment regimens on disease control.
29. The SchistosomiasisMODL algorithm was modified to incorporate the effects of nutrition on disease transmission.
30. SchistosomiasisMODL simulations showed that targeted interventions in high-risk communities were effective in reducing the prevalence of the disease.
31. The SchistosomiasisMODL model predicts that global warming could lead to an expansion of schistosomiasis transmission zones.
32. Using SchistosomiasisMODL, researchers evaluated the impact of water quality on disease transmission.
33. SchistosomiasisMODL simulations revealed that public health education and awareness campaigns were key to reducing disease transmission.
34. The SchistosomiasisMODL algorithm was modified to incorporate the effects of water temperature on disease transmission.
35. SchistosomiasisMODL was used to evaluate the impact of alternative snail control strategies on disease control.
36. The SchistosomiasisMODL model can be adapted to simulate the transmission of other water-borne diseases.
37. Using SchistosomiasisMODL, researchers evaluated the impact of different sanitation practices on disease transmission.
38. SchistosomiasisMODL simulations showed that investing in basic infrastructure, such as clean water supplies, could have a significant impact on disease control.
39. The SchistosomiasisMODL platform can be used to design and evaluate the effectiveness of disease control programs in endemic regions.
40. SchistosomiasisMODL was used to evaluate the impact of alternative drug treatment regimens on the development and spread of drug resistance.
Common Phases
Schistosomiasis, also known as bilharzia, is a parasitic infection caused by Schistosoma worms; The disease can cause a wide range of symptoms, from itching and rash to abdominal pain and blood in the urine; Schistosomiasis is commonly found in many countries in sub-Saharan Africa, but also occurs in parts of South America, the Caribbean, the Middle East, and Southeast Asia; The infection is spread when a person comes into contact with water that is contaminated with Schistosoma larvae; Prevention includes avoiding contaminated water sources and taking medication to kill the parasites.