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. Infectious neuropathies. Current opinion in neurology. 2013;26(5):510-5.
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. Role of HLA, KIR, MICA, and cytokines genes in leprosy. BioMed research international [Internet]. 2013;2013:989837. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3722889/pdf/BMRI2013-989837.pdf
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. CD4+ Th17 cells discriminate clinical types and constitute a third subset of non Th1, Non Th2 T cells in human leprosy. PLoS neglected tropical diseases [Internet]. 2013;7(7):e2338. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3723566/pdf/pntd.0002338.pdf
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. Leprosy association with low MASP-2 levels generated by MASP2 haplotypes and polymorphisms flanking MAp19 exon 5. PloS one [Internet]. 2013;8(7):e69054. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3728295/pdf/pone.0069054.pdf
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. Leprosy and hepatitis B coinfection in southern Brazil. The Brazilian journal of infectious diseases : an official publication of the Brazilian Society of Infectious Diseases. 2013;.
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. Insights into ancient leprosy and tuberculosis using metagenomics. Trends in microbiology. 2013;21(9):448-50.
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. Leprous neuropathy. Handbook of clinical neurology. 2013;115:499-514.
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. The eradication of leprosy: molecular modeling techniques for novel drug discovery. Expert opinion on drug discovery. 2013;8(10):1239-51.
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. CD4+CD25+ T regs with acetylated FoxP3 are associated with immune suppression in human leprosy. Molecular immunology. 2013;56(4):513-20.
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. Health information system model for monitoring treatment and surveillance for leprosy patients in indonesia (case study in Pekalongan District, Central Java, Indonesia). Studies in health technology and informatics [Internet]. 2013;192:1096. Available from: http://ebooks.iospress.nl/publication/34312