In their study, the number of respiratory LDK378 datasheet tract infections prior to immunoglobulin treatment was significantly higher in the selective IgG3 deficiency group than in the group with selective IgG1 deficiency, but comparable to the number of infections in IgG2-deficient patients. Moreover, patients with IgG3 deficiency responded to treatment just as
well as did patients with deficiency of IgG1, IgG2 or combinations of subclasses. The researchers found that subcutaneous immunoglobulin prophylaxis reduced the frequency of respiratory tract infections from 6·045 episodes per year to only 2·258 episodes per year in patients with selective IgG3 deficiency [7]. The mechanism by which IVIG reduces infections in IgG3-deficient patients is due probably to passive transfer of specific antibodies against multiple pathogens, rather than simple replacement of IgG3. Barlan et al.[5] reported clinical improvement after administration
of IVIG devoid of IgG3. This would suggest that the normalization of IgG3 should not be the aim of IVIG therapy or for modifying the dosage of IVIG in patients with selective IgG3 deficiency. The effectiveness of this website IVIG therapy should be judged by clinical response. Popa et al.[12] suggested that the clinical effects of IVIG were due to its anti-inflammatory properties. This possibility was based upon their observation that a subgroup of patients who had recurrent respiratory infections, interstitial lung disease and isolated or combined deficiencies of IgG1, IgG2, IgG3 or IgG4 demonstrated improvement in symptoms, spirometry, and in radiological and histological findings after
treatment with IVIG. However, the majority of anti-inflammatory effects of IVIG are observed generally with higher immunomodulatory Enzalutamide chemical structure doses of IVIG rather than with replacement dosage. In summary, our retrospective study of patients with selective IgG3 deficiency shows that selective IgG3 subclass deficiency should be considered in adults with recurrent upper respiratory tract infections with or without allergic rhinitis and asthma, and therefore IgG subclasses should be analysed even when total IgG levels are normal. Furthermore, this study suggests that a subset of patients with selective IgG3 deficiency have combined T and B cell defects. Patients with selective IgG3 deficiency respond clinically to IVIG treatment, and it should be incorporated as a standard of care therapy. A detailed study of cytokine and other components of the innate immune system is needed in a large cohort of patients with IgG3 subclass deficiency. We would like to thank our patients for their participation. The study was supported by the University of California, Irvine Division of Basic and Clinical Immunology. None.