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. The epidemiological consequences of leprosy-tuberculosis co-infection. Mathematical biosciences. 2013;241(2):225-37.
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. Role of cultural factors in the biopsychosocial model of psychosomatic skin diseases: an Indian perspective. Clinics in dermatology. 2013;31(1):62-5.
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. IL12B SNPs and copy number variation in IL23R gene associated with susceptibility to leprosy. Journal of medical genetics. 2013;50(1):34-42.
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. Gene expression profile and immunological evaluation of unique hypothetical unknown proteins of Mycobacterium leprae by using quantitative real-time PCR. Clinical and vaccine immunology : CVI. 2013;20(2):181-90.
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. Development and pre-clinical assessment of a 73 kD chimeric fusion protein as a defined sub-unit vaccine for leprosy. Vaccine. 2013;31(5):813-9.
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. The armadillo: a model for the neuropathy of leprosy and potentially other neurodegenerative diseases. Disease models & mechanisms [Internet]. 2013;6(1):19-24. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3529335/?report=classic
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. Leprosy and tuberculosis co-infection: clinical and immunological report of two cases and review of the literature. The American journal of tropical medicine and hygiene. 2013;88(2):236-40.
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. Severe leprosy reactions due to Mycobacterium lepromatosis. The American journal of the medical sciences. 2013;345(1):65-9.
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. Linkage disequilibrium pattern and age-at-diagnosis are critical for replicating genetic associations across ethnic groups in leprosy. Human genetics. 2013;132(1):107-16.
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. Plantar pressure and daily cumulative stress in persons affected by leprosy with current, previous and no previous foot ulceration. Gait & posture. 2013;37(3):326-30.