Microvascular dysfunction as a cause of organ dysfunction in severe sepsis

Jean-Louis Vincent, Daniel De Backer, Jean-Louis Vincent, Daniel De Backer

Abstract

Reduced microvascular perfusion has been implicated in organ dysfunction and multiple organ failure associated with severe sepsis. The precise mechanisms underlying microvascular dysfunction remain unclear, but there are considerable experimental data showing reduced microcirculatory flow, particularly of small vessels, and increased heterogeneity. With the development of newer imaging techniques, human studies have also been conducted and have given rise to similar findings. Importantly, the degree of microvascular disturbance and its persistence is associated with poorer outcomes. The ability to influence these changes may result in better outcomes and bedside systems, enabling direct visualization of the microcirculation, which will help in the assessment of ongoing microcirculatory dysfunction and its response to established and new therapeutic interventions.

Figures

Figure 1
Figure 1
Capillary perfusion in patients with severe sepsis. *P < 0.001 versus volunteers. Adapted with permission from [18].
Figure 2
Figure 2
Box plot demonstrating the time course of small vessel perfusion in survivors, patients dying in shock, and patients dying after resolution of shock due to persistent multiple organ failure (MOF). The numbers above the boxes show the numbers of patients at each time point. The evolution was significantly different between survivors and patients dying in shock or dying after the resolution of shock due to persistent MOF (*analysis of variance, P < 0.05). Small vessel perfusion increased only in survivors (P < 0.05). Reproduced with permission from [20].

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