NEW BASELINE GLOMERULAR FILTRATION RATE ESTIMATION AS A GUIDANCE FOR NEPHRECTOMY STRATEGY IN LOCALIZED RENAL CELL CARCINOMA
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Abstract
Objective: This literature review aims to explain the role of nephrectomy in the treatment of localized RCC and its effects on postoperative renal function, as well as the role of the new baseline glomerular filtration rate (NBGFR) estimation method in the determination of the RCC method. Material & Methods: Articles were obtained through online searches using Pubmed, ScienceDirect, Web of Science, and Wiley Online Library using keywords NBGFR, renal function, nephrectomy, or localized renal cell carcinoma. Results: The development of several diagnostic factors as well as operative factors has made partial nephrectomy (PN) replace radical nephrectomy (RN) which for decades has been the main therapy in localized RCC. Postoperative determination of renal function is a crucial factor in the selection of therapies and several methods of determining NBGFR have been proposed in several previous studies. Conclusion: The NBGFR measurement method can be an accurate guide in the determination of nephrectomy methods in the treatment of localized RCC while use of computer software can help improve accuracy in the implementation of radical nephrectomy in RCC.
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kidney cancer, new baseline GFR, nephrectomy
Petejova N, Martinek A. Renal cell carcinoma: Review of etiology, pathophysiology and risk factors. Biomed Pap Med Fac Univ Palacky Olomouc Czechoslov. 2015; 160(2).
Padala SA, Barsouk A, Thandra KC, Saginala K, Mohammed A, Vakiti A, et al. Epidemiology of Renal Cell Carcinoma. World J Oncol. 2020; 11(3): 79-87.
Hsieh JJ, Purdue MP, Signoretti S, Swanton C, Albiges L, Schmidinger M, et al. Renal cell carcinoma. Nat Rev Dis Primer. 2017; 3: 17009.
Makino T, Kadomoto S, Izumi K, Mizokami A. Epidemiology and Prevention of Renal Cell Carcinoma. Cancers. 2022; 14(16): 4059.
Kabaria R, Klaassen Z, Terris MK. Renal cell carcinoma: links and risks. Int J Nephrol Renov Dis. 2016; 9: 45-52.
Gandaglia G, Ravi P, Abdollah F, Abd-El-Bar A, Becker A, Popa I, et al. Contemporary incidence and mortality rates of kidney cancer in the United States. Can Urol Assoc J. 2014; 8(7-8): 247-252.
Hori S, Tanaka N, Iida K, Nakai Y, Miyake M, Anai S, et al. Impact of Radical Nephrectomy and Partial Nephrectomy on Actual Estimated Overall Survival Compared to Life Expectancy in Patients with Renal Cell Carcinoma. Res Rep Urol. 2021; 13: 155-165.
Derweesh IH, Staehler M, Uzzo RG. A Return to the Days of Radical Nephrectomy as the “Gold Standard” for Localized Renal Cell Carcinoma? Not So Fast. Eur Urol. 2019; 75(4): 546-547.
Rathi N, Palacios DA, Abramczyk E, Tanaka H, Ye Y, Li J, et al. Predicting GFR after radical nephrectomy: the importance of split renal function. World J Urol. 2022; 40(4): 1011-1018.
Chapman D, Moore R, Klarenbach S, Braam B. Residual renal function after partial or radical nephrectomy for renal cell carcinoma. Can Urol Assoc J. 2010; 4(5): 337-343.
Ward RD, Tanaka H, Campbell SC, Remer EM. 2017 AUA Renal Mass and Localized Renal Cancer Guidelines: Imaging Implications. RadioGraphics. 2018; 38(7): 2021-2033.
Guo Y, Cui L, Ye P, Li J, Wu S, Luo Y. Change of Kidney Function Is Associated With All‐Cause Mortality and Cardiovascular Diseases: Results From the Kailuan Study. J Am Heart Assoc. 2018; 7(21): e010596.
Heldwein FL, Mccullough TC, Souto CAV, Galiano M, Barret E. Localized renal cell carcinoma management: an update. Int Braz J Urol. 2008; 34: 676-690.
Robson CJ. Radical nephrectomy for renal cell carcinoma. J Urol. 1963; 89: 37-42.
Paul R, Mordhorst J, Busch R, Leyh H, Hartung R. Adrenal Sparing Surgery During Radical Nephrectomy In Patients With Renal Cell Cancer: A New Algorithm. J Urol. 2001; 166(1): 59-62.
Lee HJ, Liss MA, Derweesh IH. Outcomes of partial nephrectomy for clinical T1b and T2 renal tumors. Curr Opin Urol. 2014; 24(5): 448-452.
Tomaszewski JJ, Cung B, Smaldone MC, Mehrazin R, Kutikov A, Viterbo R, et al. Renal pelvic anatomy is associated with incidence, grade, and need for intervention for urine leak following partial nephrectomy. Eur Urol. 2014; 66(5): 949-955.
Wu J, Suk-Ouichai C, Dong W, Antonio EC, Derweesh EH, Lane BR, et al. Analysis of survival for patients with chronic kidney disease primarily related to renal cancer surgery. BJU Int. 2018; 121(1): 93-100.
Uzzo RG, Novick AC. Nephron sparing surgery for renal tumors: indications, techniques and outcomes. J Urol. 2001; 166(1): 6-18.
Campbell S, Uzzo RG, Allaf ME, Bass EB, Cadeddu JA, Chang A, et al. Renal Mass and Localized Renal Cancer: AUA Guideline. J Urol. 2017; 198(3): 520-529.
Russo P, Jang TL, Pettus JA, Huang WC, Eggener SE, O'Brien MF, et al. Survival rates after resection for localized kidney cancer: 1989 to 2004. Cancer. 2008; 113(1): 84-96.
Polascik TJ, Pound CR, Meng MV, Partin AW, Marshall FF. Partial nephrectomy: technique, complications and pathological findings. J Urol. 1995; 154(4): 1312-1318.
Booth J, Matin SF, Ahrar K, Tamboli P, Wood CG. Contemporary strategies for treating nonhereditary synchronous bilateral renal tumors and the impact of minimally invasive, nephron-sparing techniques. Urol Oncol. 2008; 26(1): 37-42.
Nguyen CT, Campbell SC, Novick AC. Choice of Operation for Clinically Localized Renal Tumor. Urol Clin North Am. 2008; 35(4): 645-655.
Bensalah K, Pantuck AJ, Rioux-Leclercq N, Thuret R, Montorsi F, Karakiewicz PI, et al. Positive Surgical Margin Appears to Have Negligible Impact on Survival of Renal Cell Carcinomas Treated by Nephron-Sparing Surgery. Eur Urol. 2010; 57(3): 466-473.
Sundaram V, Figenshau RS, Roytman TM, Kibel AS, Grubb RL, Bullock A, et al. Positive margin during partial nephrectomy: does cancer remain in the renal remnant? Urology. 2011; 77(6): 1400-1403.
Marszalek M, Carini M, Chlosta P, Jeschke K, Kirkali Z, Knuchel R, et al. Positive surgical margins after nephron-sparing surgery. Eur Urol. 2012; 61(4): 757-763.
Fergany AF, Saad IR, Woo L, Novick AC. Open partial nephrectomy for tumor in a solitary kidney: experience with 400 cases. J Urol. 2006; 175(5): 1630-1633; discussion 1633.
Lane BR, Demirjian S, Derweesh IH, Takagi T, Zhang Z, Velet L, et al. Survival and Functional Stability in Chronic Kidney Disease Due to Surgical Removal of Nephrons: Importance of the New Baseline Glomerular Filtration Rate. Eur Urol. 2015; 68(6): 96-1003.
Mir MC, Ercole C, Takagi T, Zhang Z, Velet L, Remer EM, et al. Decline in Renal Function after Partial Nephrectomy: Etiology and Prevention. J Urol. 2015; 193(6): 1889-1898.
Lane BR, Russo P, Uzzo RG, Hernandez AV, Boorjian SA, Thompson RH, 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.
Mir MC, Takagi T, Campbell RA, Sharma N, Remer EM, Li J, et al. Poorly functioning kidneys recover from ischemia after partial nephrectomy as well as strongly functioning kidneys. J Urol. 2014; 192(3): 665-670.
Simmons MN, Hillyer SP, Lee BH, Fergany AF, Kaouk J, Campbell SC. Diameter-Axial-Polar Nephrometry: Integration and Optimization of R.E.N.A.L. and Centrality Index Scoring Systems. J Urol. 2012; 188(2): 384-390.
Spaliviero M, Poon BY, Aras O, Di Paolo PL, Guglielmetti GB, Coleman CZ, et al. Interobserver variability of R.E.N.A.L., PADUA, and centrality index nephrometry score systems. World J Urol. 2015; 33(6): 853-858.
Sorbellini M, Kattan MW, Snyder ME, Hakimi AA, Sarasohn DM, Russo P. Prognostic Nomogram for Renal Insufficiency After Radical or Partial Nephrectomy. J Urol. 2006; 176(2): 472-476.
Kim HL, Shah SK, Tan W, Shikanov SA, Zorn KC, Shalhav AL, et al. Estimation and Prediction of Renal Function in Patients With Renal Tumor. J Urol. 2009; 181(6): 2451-2461.
Yokoyama M, Fujii Y, Takeshita H, Kawamura N, Nakayama T, Iimura Y, et al. Renal function after radical nephrectomy: Development and validation of predictive models in Japanese patients: Functional prediction after nephrectomy. Int J Urol. 2014; 21(3): 238-242.
Liss MA, DeConde R, Caovan D, Hofler J, Gabe M, Palazzi KL, et al. Parenchymal Volumetric Assessment as a Predictive Tool to Determine Renal Function Benefit of Nephron-Sparing Surgery Compared with Radical Nephrectomy. J Endourol. 2016; 30(1): 114-121.
Bhindi B, Lohse CM, Schulte PJ, Mason RJ, Cheville JC, Boorjian SA, et al. Predicting Renal Function Outcomes After Partial and Radical Nephrectomy. Eur Urol. 2019; 75(5): 766-772.
McIntosh AG, Parker DC, Egleston BL, Uzzo RG, Haseebuddin M, Joshi SS, et al. Prediction of significant estimated glomerular filtration rate decline after renal unit removal to aid in the clinical choice between radical and partial nephrectomy in patients with a renal mass and normal renal function: Nomogram to predict post nephrectomy eGFR. BJU Int. 2019; 124(6): 999-1005.
Aguilar Palacios D, Wilson B, Ascha M, Campbell RA, Song S, DeWitt-Foy ME, et al. New Baseline Renal Function after Radical or Partial Nephrectomy: A Simple and Accurate Predictive Model. J Urol. 2021; 205(5): 1310-1320.
Rathi N, Yasuda Y, Palacios DA, Attawettayanon W, Li J, Bhindi B, et al. Split Renal Function Is Fundamentally Important for Predicting Functional Recovery After Radical Nephrectomy. Eur Urol Open Sci. 2022; 40: 112-116.