Publication Field-friendly test for monitoring multiple immune response markers during onset and treatment of exacerbated immunity in leprosy. Corstjens P, Hooij A, Kon Fat ET, et al. Clinical and vaccine immunology : CVI. 2016; Download PDF
Publication Gene expression profile and immunological evaluation of unique hypothetical unknown proteins of Mycobacterium leprae by using quantitative real-time PCR. Kim H, Prithiviraj K, Groathouse N, et al. Clinical and vaccine immunology : CVI. 2013; 20 (2) : 181-90.
Publication Lsr2 of Mycobacterium leprae and its synthetic peptides elicit restitution of T cell responses in erythema nodosum leprosum and reversal reactions in patients with lepromatous leprosy. Saini C, Prasad H K, Rani R, et al. Clinical and vaccine immunology : CVI. 2013; 20 (5) : 673-82.
Publication Haplotypes of the IL10 gene as potential protection factors in leprosy patients. Garcia P, Alencar D, Pinto P, et al. Clinical and vaccine immunology : CVI. 2013; 20 (10) : 1599-603. Download PDF
Publication Gene expression profile and immunological evaluation of unique hypothetical unknown proteins of Mycobacterium leprae by using quantitative real time-PCR. Kim H J, Prithiviraj K, Groathouse N, et al. Clinical and vaccine immunology : CVI. 2012; 20 (2) : 181-90.
Publication Enoyl-CoA Hydratase and Ag85B of Mycobacterium habana are specifically recognized by antibodies in sera from leprosy patients. Serafín-López J, Talavera-Paulin M, Amador-Molina J C, et al. Clinical and vaccine immunology : CVI. 2011;
Publication Enoyl-coenzyme A hydratase and antigen 85B of Mycobacterium habana are specifically recognized by antibodies in sera from leprosy patients. Serafín-López J, Talavera-Paulin M, Amador-Molina J C, et al. American Society for Microbiology. Clinical and vaccine immunology : CVI. 2011; 18 (7) : 1097-103. Download PDF
Publication Insight toward early diagnosis of leprosy through analysis of the developing antibody responses of Mycobacterium leprae-infected armadillos. Duthie M, Truman RW, Goto W, et al. Clinical and vaccine immunology : CVI. 2011; 18 (2) : 254-9. Download PDF
Publication Analysis of antibody responses to Mycobacterium leprae phenolic glycolipid I, lipoarabinomannan, and recombinant proteins to define disease subtype-specific antigenic profiles in leprosy. Spencer JS, Kim H, Wheat W, et al. Clinical and vaccine immunology : CVI. 2011; 18 (2) : 260-7. Download PDF
Publication Increased CXCL10 Levels and Gene Expression in Type 1 Leprosy Reactions. Scollard D, Chaduvula M, Martinez AN, et al. Clinical and vaccine immunology : CVI. 2011;
Publication Increased CXC ligand 10 levels and gene expression in type 1 leprosy reactions. Scollard D, Chaduvula M, Martinez AN, et al. American Society for Microbiology. Clinical and vaccine immunology : CVI. 2011; 18 (6) : 947-53. Download PDF
Publication Rational design and evaluation of a multiepitope chimeric fusion protein with the potential for leprosy diagnosis. Duthie M, Hay MN, Morales C, et al. Clinical and vaccine immunology : CVI. 2010; 17 (2) : 298-303. Download PDF
Publication Enhancing sensitivity of detection of immune responses to Mycobacterium leprae peptides in whole-blood assays. Geluk A, Ploeg-van Schip JJ, Meijgaarden K, et al. Clinical and vaccine immunology : CVI. 2010; 17 (6) : 993-1004. Download PDF
Publication From genome-based in silico predictions to ex vivo verification of leprosy diagnosis. Geluk A, Spencer JS, Bobosha K, et al. Clinical and vaccine immunology : CVI. 2009; 16 (3) : 352-9. Download PDF
Publication Inhibition of the multiplication of Mycobacterium leprae by vaccination with a recombinant M. bovis BCG strain that secretes major membrane protein II in mice. Maeda Y, Tamura T, Matsuoka M, et al. Clinical and vaccine immunology : CVI. 2009; 16 (10) : 1399-404. Download PDF
Publication Selection of antigens and development of prototype tests for point-of-care leprosy diagnosis. Duthie M, Ireton G, Kanaujia GV, et al. Clinical and vaccine immunology : CVI. 2008; 15 (10) : 1590-7. Download PDF
Publication Rational combination of peptides derived from different Mycobacterium leprae proteins improves sensitivity for immunodiagnosis of M. leprae infection. Geluk A, Ploeg J, Teles R, et al. Clinical and vaccine immunology : CVI. 2008; 15 (3) : 522-33. Download PDF
Publication Antigen-specific T-cell responses of leprosy patients. Duthie M, Goto W, Ireton G, et al. Clinical and vaccine immunology : CVI. 2008; 15 (11) : 1659-65. Download PDF
Publication Serological diagnosis of leprosy in patients in vietnam by enzyme-linked immunosorbent assay with Mycobacterium leprae-derived major membrane protein II. Kai M, Nguyen Phuc NH, Hoang Thi TH, et al. Clinical and vaccine immunology : CVI. 2008; 15 (12) : 1755-9. Download PDF
Publication Risk and protective factors for leprosy development determined by epidemiological surveillance of household contacts. Goulart I, Bernardes Souza DO, Marques CR, et al. Clinical and vaccine immunology : CVI. 2008; 15 (1) : 101-5. Download PDF