01877nas a2200241   4500000000100000008004100001260004400042653001500086653001600101653002900117653001700146653002100163653001200184100001400196700001500210700001900225700001400244245011800258300001200376520121100388022001401599020002201613       2018                            d  bSpringer International PublishingaCham10aclustering10aData mining10aEpidemiological analysis10aEpidemiology10aKohonen networks10aleprosy1 aSilva YED1 aSalgado CG1 aGomes Conde VM1 aConde GBA00aApplication of Clustering Technique with Kohonen Self-organizing Maps for the Epidemiological Analysis of Leprosy  a295-3093 a<p>Leprosy is still a worldwide public health problem, and Brazil ranks second in the largest number of cases of leprosy. Social and economic conditions drastically influence people’s lives, making them more vulnerable to disease and increasing dissemination, contributing to endemicity in the country. Based on this, this study aimed to analyze the epidemiology of leprosy by analyzing data from patients and their Household contacts using Artificial Intelligence techniques in the data mining process. The best results were obtained with Kohonen’s Self-Organizing Maps algorithm in 2 × 3 matrix. A data set with SINAN patients and new leprosy cases (schoolchildren and HHCs) was found in an active search conducted in the municipality of Santarém in the year 2014. The results analyzed call attention to a high number of late diagnoses and the values ​​found for the Anti PGL-1 in clusters 1, 2 and 5 indicating a high burden of the leprosy bacillus and, therefore, a high risk of contagion. The study demonstrated that the identification of the relationship profile of the leprosy patient with their home and their family appears as promising tools, such as leprosy control strategy.</p>
  a2194-5357  a978-3-030-01056-0