The scientist’s investigation covers issues in Immunology, Cell biology, Immune system, Antigen and Antibody. His research on Immunology frequently connects to adjacent areas such as Cell division. His Cell biology research is multidisciplinary, incorporating elements of Cellular differentiation, Cell adhesion and Cytokine.
Robin E. Callard interconnects Allergic sensitization and Lipopolysaccharide in the investigation of issues within Immune system. His Antigen research incorporates elements of B cell, Lymphocyte and CD40. His study brings together the fields of Molecular biology and Antibody.
His primary areas of study are Immunology, Antigen, Immune system, T cell and Antibody. His study in Immunology is interdisciplinary in nature, drawing from both Cell, Cellular differentiation and CD40. Robin E. Callard has researched Antigen in several fields, including Peripheral blood mononuclear cell, Lymphocyte, Monoclonal antibody and B cell.
His studies in Immune system integrate themes in fields like Lipopolysaccharide, Antiretroviral therapy, Allergic sensitization and Spleen. His T cell research incorporates themes from Cytotoxic T cell, T lymphocyte, Cell division and Cell biology. His work is dedicated to discovering how Antibody, Molecular biology are connected with CD19, Naive B cell, Blocking antibody, Interleukin-4 receptor and CD8 and other disciplines.
Robin E. Callard mainly investigates Immunology, Immune system, Antiretroviral therapy, T-cell receptor and Hiv infected. The concepts of his Immunology study are interwoven with issues in Cell, Homeostasis and Cell growth. Robin E. Callard has included themes like Molecular biology and Adenosine in his Cell study.
He works mostly in the field of Immune system, limiting it down to concerns involving Transplantation and, occasionally, Predictive value of tests. His work deals with themes such as Computational biology and Sequence analysis, which intersect with T-cell receptor. Robin E. Callard combines subjects such as Cellular differentiation and Cell division with his study of T cell.
Robin E. Callard mainly focuses on Immunology, T cell, T-cell receptor, Pediatrics and Antiretroviral therapy. The Immunology study combines topics in areas such as Streptococcus pneumoniae and Microbiology. His T cell research integrates issues from Cellular differentiation and Cell division.
His Cellular differentiation study combines topics in areas such as Artificial antigen presenting cells, Antigen-presenting cell, Immunophenotyping, Antigen and Interleukin 2. His T-cell receptor research includes themes of breakpoint cluster region, B-cell receptor, Computational biology and Polymerase chain reaction. His study in Antiretroviral therapy is interdisciplinary in nature, drawing from both Immunoassay, Antibody and Retrospective cohort study.
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Functional subsets of human helper-inducer cells defined by a new monoclonal antibody, UCHL1.
S. H. Smith;M. H. Brown;D. Rowe;R. E. Callard.
CD40 Is Constitutively Expressed on Platelets and Provides a Novel Mechanism for Platelet Activation
David P. Inwald;Alison McDowall;Mark J. Peters;Robin E. Callard.
Circulation Research (2003)
CD40 ligand and its role in X-linked hyper-IgM syndrome.
Robin E. Callard;Richard J. Armitage;William C. Fanslow;Melanie K. Spriggs.
Immunology Today (1993)
IL-4 and IL-13 receptors: Are they one and the same?
Robin E. Callard;David J. Matthews;Linda Hibbert.
Immunology Today (1996)
Epicutaneous exposure to peanut protein prevents oral tolerance and enhances allergic sensitization.
Jessica Strid;J. Hourihane;I. Kimber;R. Callard.
Clinical & Experimental Allergy (2005)
Disruption of the stratum corneum allows potent epicutaneous immunization with protein antigens resulting in a dominant systemic Th2 response
Jessica Strid;Jonathan Hourihane;Ian Kimber;Robin Callard.
European Journal of Immunology (2004)
Cytokines, Chaos, and Complexity
Robin Callard;Andrew J.T. George;Jaroslav Stark.
Immune function in aged mice. II. B-cell function.
Robin E. Callard;Antony Basten;Llewyn K. Waters.
Cellular Immunology (1977)
Ranked prediction of p53 targets using hidden variable dynamic modeling
Martino Barenco;Daniela Tomescu;Daniel Brewer;Robin Callard.
Genome Biology (2006)
Early postoperative monocyte deactivation predicts systemic inflammation and prolonged stay in pediatric cardiac intensive care
Meredith L Allen;Mark J Peters;Allan Goldman;Martin Elliott.
Critical Care Medicine (2002)
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