Due to the advancement of emerging technologies and the advent of Big Data as a fundamental part of modern life, there have been significant changes in how data is collected and analysed. As it happens to the life cycle of the sand fly species Phlebotomus papatasi, data also undergoes a detailed process of development and evolution to extract valuable information that can support decision-making.
Continue readingPredictive surveillance and AI for global health defence against SFBD
CLIMOS leverages the power of cutting-edge data and AI technologies to revolutionize the fight against sand fly-borne diseases, particularly those caused by Leishmania parasites and Phleboviruses.
Continue readingCLIMOS Project: Preventing the impact of climate change on sand fly-borne diseases
Phlebotomine sand flies can be found in various regions around the world, primarily in warm and tropical climates. However, climate change is dramatically altering their geographical landscape. Milder winters and warmer temperatures extend their reach into new regions, prompting earlier and intensified sand fly activity. This shift increases the risk of sand fly-borne diseases in areas where they were previously non-existent.
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