Risk Balancing of Cold Ischemic Time against Night Shift Surgery Possibly Reduces Rates of Reoperation and Perioperative Graft Loss.
Nikos EmmanouilidisJulius BoecklerBastian P RingeAlexander KaltenbornFrank LehnerHans Friedrich KochJürgen L KlempnauerHarald SchremPublished in: Journal of transplantation (2017)
Background. This retrospective cohort study evaluates the advantages of risk balancing between prolonged cold ischemic time (CIT) and late night surgery. Methods. 1262 deceased donor kidney transplantations were analyzed. Multivariable regression was used to determine odds ratios (ORs) for reoperation, graft loss, delayed graft function (DGF), and discharge on dialysis. CIT was categorized according to a forward stepwise pattern ≤1h/>1h, ≤2h/>2h, ≤3h/>3h,…, ≤nh/>nh. ORs for DGF were plotted against CIT and a nonlinear regression function with best R2 was identified. First and second derivative were then implemented into the curvature formula k(x) = f''(x)/(1 + f'(x)2)3/2 to determine the point of highest CIT-mediated risk acceleration. Results. Surgery between 3 AM and 6 AM is an independent risk factor for reoperation and graft loss, whereas prolonged CIT is only relevant for DGF. CIT-mediated risk for DGF follows an exponential pattern f(x) = A · (1 + k · e(I · x)) with a cut-off for the highest risk increment at 23.5 hours. Conclusions. The risk of surgery at 3 AM-6 AM outweighs prolonged CIT when confined within 23.5 hours as determined by a new mathematical approach to calculate turning points of nonlinear time related risks. CIT is only relevant for the endpoint of DGF but had no impact on discharge on dialysis, reoperation, or graft loss.
Keyphrases
- minimally invasive
- coronary artery bypass
- chronic kidney disease
- patients undergoing
- cardiac surgery
- acute coronary syndrome
- acute kidney injury
- preterm infants
- coronary artery disease
- percutaneous coronary intervention
- brain injury
- blood brain barrier
- depressive symptoms
- sleep quality
- atrial fibrillation
- subarachnoid hemorrhage
- drug induced
- water soluble