Contributions to nephrology
-
Sepsis is the most common cause of acute kidney injury (AKI). There has been a growing body of evidence demonstrating the association between worsening of kidney function during sepsis and the risk of short- and long-term mortality. AKI in sepsis is associated with poor outcome and independently predicts increased mortality. ⋯ The expanding population of patients with sepsis and AKI, and the associated excess mortality provide a strong basis for further research aimed at addressing more rigorously all potentially modifiable factors to reduce this burden to patients and health care systems. Better insights into bidirectional and synergistic pathways linking sepsis and AKI might open the window for new therapeutic approaches that interrupt this vicious circle. Here, we discuss the rationale for and the current understanding of the bidirectional relationship between AKI and sepsis.
-
Acute kidney injury (AKI) is associated with a heavy burden of morbidity and mortality, despite advances in intensive care and the management of high-risk patients. Numerous clinical trials have failed to ameliorate the outcomes of AKI. ⋯ Similarly, a multidisciplinary dialogue is making progress towards standardization of the clinical trial endpoints to prove efficacy and effectiveness in AKI research. Taken together with the increasing availability of timely, sensitive, and specific novel biomarkers of kidney damage, we are poised to use these tools to conduct successful clinical trials of agents for the prevention and treatment of this devastating clinical syndrome.
-
Endothelial cells play a key role in initiating and propagating the inflammatory response seen in ischemia, infections and sepsis. Situated in a key position between the epithelial cells and white blood cells (WBC), they interact and respond to signals from both cell types. ⋯ This last event is in large part responsible for a chronic reduction in regional perfusion, subsequent increased vulnerability to recurrent acute kidney injury, and acceleration of chronic kidney disease progression to end-stage renal disease. Glomerular endothelial dysfunction may lead to preglomerular shunting of blood flow allowing kidney blood flow to remain close to normal while resulting in a reduction in glomerular filtration rate.
-
Acute kidney injury (AKI) is a serious condition that affects many intensive care unit (ICU) patients. The most common causes of AKI in the ICU are severe sepsis and septic shock. The mortality of AKI in septic critically ill patients remains high despite our increasing ability to support vital organs. ⋯ It would seem logical, therefore, to focus on the glomerulus in trying to understand why such loss of GFR occurs. Recent experimental observations suggest that, at least in the initial phases of septic AKI, profound changes occur which involve glomerular hemodynamics and lead to loss of GFR. These observations imply that changes in the vasoconstrictor tone of both the afferent and efferent arterioles are an important component of the pathogenesis of septic AKI.
-
Acute kidney injury (AKI) remains a major clinical challenge, especially in combination with acute lung injury (ALI). Clinical as well as experimental studies have provided evidence for clinically relevant kidney-lung interactions, ultimately leading to a drastic reduction in survival. The crosstalk between AKI and ALI is a consequence of both direct loss of normal organ function and inflammatory dysregulation resulting from each organ failure. ⋯ Lung protective ventilation, including low tidal volume ventilation, is a cornerstone in the management of ALI. This approach has been shown to attenuate both the direct mechanical effects of ventilation and the inflammatory response arising from ALI and mechanical ventilation, ultimately reducing the incidence of extrapulmonary organ failure. The fact that multiorgan failure is not only the sum of organ functions lost, but also includes inflammatory dysregulation together with a lack of treatment options greatly emphasizes the need for future research in this area.