https://www.selleckchem.com/products/u73122.html The deadly effects of KFD have been pointed in southern India; however, the infecting regions have been getting larger in recent epochs. People who live or work in regions where KFDV infected tick vectors are present are severely prone to procuring the infection. Being aware of tick vectors and infectious agents' geospatial location is vital to direct sustenance approaches to prevent and manage such infectious diseases as KFD. The present investigation has focussed on the spatial distribution, Extensive genetic Diversity, and phylogeography to forecast the probable KFD disease risk provinces in the Western Ghats. The statistical analysis for diversity indices and community comparison has been performed by using SPSS version 24.0.0 and R software version 3.4.2. The nucleotide sequences of the respective ticks and KFDV were retrieved from NCBI. The first strand of this investigation revealed that, around the world, the Indian province was found to exhibit a maximum range of diversity for tick vectors. The next strands prophesied the KFD transmission risk areas in the Western Ghats region, India, with computational spatial analysis and phylogeography. The final strand exposed the genetic diversity of the KFD virus and the tick vectors in terms of their spatial distribution worldwide.This study compares the trajectories of recent scientific/intellectual movements (SIMs) in biomedicine evidence-based medicine, translational medicine, precision medicine, personalized medicine, stratified medicine, and genomic medicine. Drawing on bibliometric analysis of these six SIMs, this study identifies three patterns field integration, niche creation, and disruptive insurgence. Field integration SIMs such as evidence-based medicine and translational medicine are characterized by centrality of key concept papers of the SIM in co-citation networks and dense institutional and country collaboration networks, signaling the resonance of the