1Department of Urology, Clinical Center of University Heidelberg, Heidelberg 999035, Germany; 2Department of Urology, General Hospital of PLA, China; 3Department of Epidemiology and Biostatistics, School of Public Health Beijing University, China; 4Kidney Center, Clinical Center of University Heidelberg, Germany
Abstract:Objective:The effects of warm ischemia time on long-term renal function after partial nephrectomy remain controversial. Our aim was to evaluate the effect of warm ischemia time on long-term renal function after partial nephrectomy. Methods:A retrospective study was performed on 75 patients undergoing 83 procedures of partial nephrectomy in Department of Urology of Clinical Center of University Heidelberg from 08/1984 to 07/2011. The effects of warm ischemia time, preoperative renal function and resected normal parenchyma volume on long-term renal function in patients with a solitary kidney were evaluated. Results:Mean preoperative eGFR was 57.41 mL/(min per 1.73 m2. Mean ischemia time was 18.04 min. Mean volume of resected normal parenchyma was 18.79 cm3. Mean follow-up time was 69.39 months. On multivariable analysis, adjusting for age and comorbidities factors, preoperative renal function baseline was significantly associated with renal function at 12th month postoperation (P=0.01). Perioperative ARF event significantly affected postoperative renal function at 12th month on (P=0.001) and 60th month (P=0.03) postoperation. Warm ischemia time and resected normal parenchyma volume were not risk factors of long-term postoperative renal function. The perioperative ARF event was significantly associated with renal function change at 12th month postoperation (P<0.01). Only resected volume of normal parenchyma was significantly associated with renal function change during whole follow-up period (P=0.03 at 12th month, and P<0.01 at 36th and 60th month). Conclusions:The quality and quantity of kidney were most important risk factors of long-term renal function after partial nephrectomy. The quality of preoperative kidney primarily determines long-term postoperative renal function. Additionally, the quantity of preserved functional parenchyma volume was the main determinant for long-term kidney recovery. Moreover, the acute renal failure was an independent risk factor influencing both recovery capacity and renal function level in long-term postoperative duration. Furthermore, WIT was indirectly associated with postoperative renal function leading to a higher rate of perioperative acute renal failure.
[1]D'Armiento M, Damiano R, Feleppa B, et al. Elective conservative surgery for renal carcinoma versus radical nephrectomy: a prospective study. Br J Urol, 1997,79(1):15-19. [2]Zini L, Perrotte P, Capitanio U,et al. Radical versus partial nephrectomy: effect on overall and noncancer mortality. Cancer, 2009,115(7):1465-1471. [3]Weight CJ, Larson BT, Fergany AF, et al. Nephrectomy induced chronic renal insufficiency is associated with increased risk of cardiovascular death and death from any cause in patients with localized cT1b renal masses. J Urol, 2010,183(4):1317-1323. [4]Crépel M, Jeldres C, Perrotte P, et al. Nephron-sparing surgery is equally effective to radical nephrectomy for T1BN0M0 renal cell carcinoma: a population-based assessment. Urology, 2010,75(2):271-275. [5]Patil MB, Lee DJ, Gill IS. Eliminating global renal ischemia during partial nephrectomy: an anatomical approach. Curr Opin Urol, 2012,22(2):83-87. [6]Lane BR, Russo P, Uzzo RG, et al. Comparison of cold and warm ischemia during partial nephrectomy in 660 solitary kidneys reveals predominant role of nonmodifiable factors in determining ultimate renal function. J Urol, 2011,185(2):421-427. [7]Thompson RH, Lane BR, Lohse CM, et al. Renal function after partial nephrectomy: effect of warm ischemia relative to quantity and quality of preserved kidney. Urology, 2012,79(2):356-360. [8]Stevens LA, Schmid CH, Greene T, et al. Comparative performance of the CKD Epidemiology Collaboration (CKD-EPI) and the Modification of Diet in Renal Disease (MDRD) Study equations for estimating GFR levels above 60 mL/min/1.73 m2. Am J Kidney Dis, 2010,56(3):486-495. [9]Derweesh IH, Novick AC. Mechanisms of renal ischaemic injury and their clinical impact. BJU Int, 2005,95(7):948-950. [10]Simmons MN, Schreiber MJ, Gill IS. Surgical renal ischemia: a contemporary overview. J Urol, 2008,180(1):19-30. [11]Parekh DJ, Weinberg JM, Ercole B, et al. Tolerance of the human kidney to isolated controlled ischemia. J Am Soc Nephrol, 2013,24(3):506-517. [12]Wszolek MF, Kenney PA, Lee Y, et al. Comparison of hilar clamping and non-hilar clamping partial nephrectomy for tumours involving a solitary kidney. BJU Int, 2011,107(12):1886-1892.
