Articles dans des revues avec comité de lecture (18)
  1. 1. Dreesman, A., Dirix, V., Smits, K., Corbiere, V., Van Praet, A., Debulpaep, S., De Schutter, I., Felderhof, M. K., Malfroot, A., Singh, M., Locht, C., Mouchet, F., & Mascart, F. (2019). Identification of mycobacterium tuberculosis infection in infants and children with partial discrimination between active disease and asymptomatic infection. Frontiers in Pediatrics, 7(JULY), 311. doi:10.3389/fped.2019.00311
  2. 2. Aerts, L., Selis, E., Corbiere, V., Smits, K., Van Praet, A., Dauby, N., Petit, E., Singh, M., Locht, C., Dirix, V., & Mascart, F. (2019). HBHA-Induced Polycytotoxic CD4+ T Lymphocytes Are Associated with the Control of Mycobacterium tuberculosis Infection in Humans. The Journal of immunology, 202(2), 421-427. doi:10.4049/jimmunol.1800840
  3. 3. Dreesman, A., Locht, C., Mascart, F., Corbiere, V., Dirix, V., Smits, K., Debulpaep, S., De Schutter, I., Libin, M., Singh, M., & Malfroot, A. (2017). Age-Stratified T cell responses in children infected with Mycobacterium tuberculosis. Frontiers in immunology, 8(SEP), 1059. doi:10.3389/fimmu.2017.01059
  4. 4. Smith, S. G., Smits, K., Joosten, S. A., van Meijgaarden, K. K., Satti, I., Fletcher, H. H., Caccamo, N., Dieli, F., Mascart, F., McShane, H., Dockrell, H. M., Ottenhoff, T. H. M., & TBVI TB Biomarker Working Group, (2015). Intracellular Cytokine Staining and Flow Cytometry: Considerations for Application in Clinical Trials of Novel Tuberculosis Vaccines. PloS one, 10(9), e0138042. doi:10.1371/journal.pone.0138042
  5. 5. Smits, K., Corbiere, V., Dirix, V., Mekkaoui, L., Wyndham-Thomas, C., Libin, M., Dreesman, A., Loyens, M., Payen, M.-C., Singh, M., Locht, C., & Mascart, F. (2015). Immunological Signatures Identifying Different Stages of Latent Mycobacterium tuberculosis Infection and Discriminating Latent from Active Tuberculosis in Humans. Journal of clinical & cellular immunology, 6. doi:10.4172/2155-9899.1000341
  6. 6. De Rond, L., Van Els, C. A. C. M. C., Smits, K., Buisman, A.-M., Schure, R. M., Öztürk, K., Berbers, G., Sanders, E. A. M., Twillert, I. V., Carollo, M., Mascart, F., & Ausiello, C. M. (2015). Identification of pertussis-specific effector memory T cells in preschool children. Clinical and Vaccine Immunology (Print), 22(5), 561-569. doi:10.1128/CVI.00695-14
  7. 7. Wyndham-Thomas, C., Corbiere, V., Dirix, V., Smits, K., Domont, F., Libin, M., Loyens, M., Locht, C., & Mascart, F. (2014). A short incubation Heparin-Binding Haemagglutinin interferon-gamma release assay for the detection of latent tuberculosis: the key role of effector memory CD4+ T lymphocytes. Clinical and vaccine immunology. doi:10.1128/CVI.00651-13
  8. 8. Van Els, C. A. C. M. C., Corbiere, V., Smits, K., van Gaans-van den Brink, J. A. M., Poelen, M. C. M., Mascart, F., Meiring, H. H., & Locht, C. (2014). Toward understanding the essence of post-translational modifications for the Mycobacterium tuberculosis immunoproteome. Frontiers in immunology, 5(AUG), Article 361, 1-10. doi:10.3389/fimmu.2014.00361
  9. 9. Smits, K., Pottier, G., Smet, J., Dirix, V., Vermeulen, F., De Schutter, I., Carollo, M., Locht, C., Ausiello, C. M., & Mascart, F. (2013). Different T cell memory in preadolescents after whole-cell or acellular pertussis vaccination. Vaccine, 32(1), 111-118. doi:10.1016/j.vaccine.2013.10.056
  10. 10. Carollo, M., Palazzo, R., Bianco, M., Smits, K., Mascart, F., & Ausiello, C. M. (2012). Antigen-specific responses assessment for the evaluation of Bordetella pertussis T cell immunity in humans. Vaccine, 30(9), 1667-1674. doi:10.1016/j.vaccine.2011.12.104
  11. 11. Smits, K., Iannucci, V., Stove, V., Van Hauwe, P., Naessens, E., Meuwissen, P. J., Ariën, K. K., Bentahir, M., Plum, J., & Verhasselt, B. (2010). Rho GTPase Cdc42 is essential for human T-cell development. Haematologica, 95(3), 367-375. doi:10.3324/haematol.2009.006890
  12. 12. Dewerchin, H. L., Cornelissen, E., Van Hamme, E., Smits, K., Verhasselt, B., & Nauwynck, H. J. (2008). Surface-expressed viral proteins in feline infectious peritonitis virus-infected monocytes are internalized through a clathrin- and caveolae-independent pathway. Journal of general virology, 89(Pt 11), 2731-2740. doi:10.1099/vir.0.2008/002212-0
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