Crush syndrome-related acute kidney injury in earthquake victims

Abstract

ABSTRACT Natural disasters are unpredictable and thousands of people are affected yearly. Currently, this risk persists, given the large population living in risk areas prone to suffering another seismic event. Generally, on-site mortality is high and occurs immediately from massive trauma or asphyxia. After surviving the first event, extricated patients are at risk of developing crush syndrome caused by direct physical trauma and compression of the human body with lesions in different tissues. This could lead to several systemic complications, including acute kidney injury (AKI), sepsis, acute respiratory distress syndrome, bleeding, hypovolemic shock, arrhythmias, electrolyte disturbances and disseminated intravascular coagulation. Hence, AKI in this scenario can occur due to many causes, such as rhabdomyolysis, direct renal trauma, hypovolemia and hemodynamic alterations. The most important measure to reduce crush syndrome mortality and prevent the development of crush syndrome-related AKI in disaster situations is the immediate start of treatment. Nevertheless, despite optimal therapy delivery, these previous efforts might not suffice the development and progression of AKI, consequently, the indication of extracorporeal blood purification techniques. This narrative review provides a focused overview of crush syndrome-related AKI, including etiology, mechanisms, diagnosis, current treatment, removal of myoglobin and their limitations.