Impact of Glycemic Control After Reperfusion on Acute Kidney Injury in Living Donor Liver Transplantation

Overview

This retrospective cohort study of patients classified by the blood glucose level after reperfusion in liver transplantation repicient. Our object is to investigate whether controlling BG levels within the optimal range during neohepatic phase is associated with a reduction of AKI incidence. Furthermore, severe AKI, chronic kidney disease (CKD), major adverse cardiac event (MACE) and mortality were also investigated.

The detrimental impact of glucose instability including hyper- and hypoglycemia on postoperative outcomes has been well-established in various fields, particularly in cardiac surgery, and intensive care unit settings. Also, glucose instability occurs frequently in liver transplantation (LT) surgery, attributed to factors such as insulin resistance, surgical stress, and onset of gluconeogenesis after reperfusion of the newly transplanted graft. Previous reports have demonstrated that hyperglycemia is associated with increased mortality, a higher incidence of graft rejection, and surgical site infection in LT. Alongside hyperglycemia, it is also important to consider hypoglycemia, given its association with adverse outcomes. Acute kidney injury (AKI) stands as one of the most common and critical complications following LT, impacting extended duration of hospital stay, increased morbidity, and mortality. Although the etiology of AKI after LT is multifactorial, perioperative hyper- and hypoglycemia have also been suggested as potential risk factors for postoperative AKI. However, a recent study only has demonstrated that increased glucose variability, rather than hyper-and hypoglycemia alone, is associated with postoperative AKI after LT. The contradictory results observed to date may be attributed to differences in the definition of hyperglycemia, reflecting the challenges in determining the optimal blood glucose (BG) level in LT. In our study, the optimal BG level was determined according to the most recently updated and professional guidelines on glycemic control. Identifying the timing for glycemic control during LT is also as crucial as determining the optimal BG level. BG levels reach their peak in the neohepatic phase and begin to decrease 3 hours after reperfusion. This excessively elevated hyperglycemia is due to glucose influx from the grafted liver, in addition to peripheral insulin resistance, and gradually decreases after successful LT. Therefore, maintaining a well-controlled BG level within the optimal range, especially during the neohepatic phase, may be associated with better outcomes after transplantation. Our object is to investigate whether controlling BG levels within the optimal range during neohepatic phase is associated with a reduction of AKI incidence. Furthermore, severe AKI, chronic kidney disease (CKD), major adverse cardiac event (MACE), and mortality were also investigated.