Abstract
Sepsis represents a dysregulated host response to infection, the extent of which determines the severity of organ dysfunction and subsequent outcome. All trialled immunomodulatory strategies to date have resulted in either outright failure or inconsistent degrees of success. Intravenous immunoglobulin (IVIg) therapy falls into the latter category with opinion still divided as to its utility. This article provides a narrative review of the biological rationale for using IVIg in sepsis. A literature search was conducted using the PubMed database (1966 to February 2011). The strategy included the following text terms and combinations of these: IVIg, intravenous immune globulin, intravenous immunoglobulin, immunoglobulin, immunoglobulin therapy, pentaglobin, sepsis, inflammation, immune modulation, apoptosis. Preclinical and extrapolated clinical data of IVIg therapy in sepsis suggests improved bacterial clearance, inhibitory effects upon upstream mediators of the host response (for example, the nuclear factor kappa B (NF-κB) transcription factor), scavenging of downstream inflammatory mediators (for example, cytokines), direct anti-inflammatory effects mediated via Fcγ receptors, and a potential ability to attenuate lymphocyte apoptosis and thus sepsis-related immunosuppression. Characterizing the trajectory of change in immunoglobulin levels during sepsis, understanding mechanisms contributing to these changes, and undertaking IVIg dose-finding studies should be performed prior to further large-scale interventional trials to enhance the likelihood of a successful outcome.
Highlights
Sepsis is an inflammatory condition arising from a dysregulated host response to infection [1]
As these represent downstream mediators scavenged by Intravenous immunoglobulin (IVIg), IVIg therapy could restore neutrophil function and improve bacterial clearance
If IVIg can attenuate immune and non-immune cell apoptosis by inhibition of extrinsic pathway activity through its ability to target upstream and downstream mediators, this may prevent immune anergy and maintain the significant role lymphocytes play in bacterial clearance
Summary
Sepsis is an inflammatory condition arising from a dysregulated host response to infection [1]. Immune cell effects Non-apoptotic Dysregulation in the nitric oxide pathway, glucose metabolism and inflammatory networks contribute to impaired neutrophil function in severe sepsis [110] As these represent downstream mediators scavenged by IVIg, IVIg therapy could restore neutrophil function and improve bacterial clearance. If IVIg can attenuate immune and non-immune cell apoptosis by inhibition of extrinsic pathway activity through its ability to target upstream and downstream mediators (for example, via NF-κB and C5a inhibition), this may prevent immune anergy and maintain the significant role lymphocytes play in bacterial clearance It may moderate the organ dysfunction, including immune anergy [120,128,129]. This explanatory trial should ideally precede any large, multicentre, interventional trial testing the efficacy of IVIg in a welldefined critically ill population with sepsis
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