A comparison of oncologic and functional outcomes in patients with pt3a renal cell carcinoma treated with partial and radical nephrectomy

Alvim, Ricardo; Tin, Amy; Nogueira, Lucas; Lebdai, Souhil; Wong, Nathan; Takeda, Toshikazu; Assel, Melissa; Hakimi, A. Ari; Touijer, Karim; Russo, Paul; Coleman, Jonathan

doi:10.1590/S1677-5538.IBJU.2020.0149

ABSTRACT

Hypothesis:

Partial Nephrectomy is oncological safe in patients with pT3a RCC.

Purpose:

To compare the oncological and functional outcomes of patients with pT3a RCC scheduled for PN and RN.

Materials and Methods:

We retrospectively reviewed patients with pT3a N0 M0 RCC who underwent partial or radical nephrectomy from 2005 to 2016. Perioperative characteristics, including estimated glomerular filtration rate, tumor size, pathological histology, and RENAL nephrometry score, were compared between patients scheduled for partial or radical nephrectomy. We used multivariable Cox proportional hazards regression models to compare overall survival, cancer-specific survival, and recurrence-free survival between planned procedure type.

Results:

Of the 589 patients, 369 (63%) and 220 (37%) were scheduled for radical and partial nephrectomy, respectively; 26 (12%) of the scheduled partial nephrectomy cases were intraoperatively converted to radical nephrectomy. After adjusting for tumor size and histology, there were no statistically significant differences in overall survival (hazard ratio 0.66; 95% CI, 0.38–1.13), cancer-specific survival (hazard ratio 0.53; 95% CI, 0.16–1.75), or recurrence-free survival (hazard ratio 0.66; 95% CI, 0.34–1.28) between patients scheduled for partial or radical nephrectomy. Fewer patients scheduled for partial nephrectomy had estimated glomerular filtration rate reductions 3 to 9 months after surgery than patients scheduled for radical nephrectomy.

Conclusion:

We found no evidence that patients scheduled to undergo partial nephrectomy had poorer oncologic outcomes than patients scheduled to undergo radical nephrectomy. In select patients with pT3a renal cell carcinoma in whom partial nephrectomy is deemed feasible by the surgeon, partial nephrectomy should not be discouraged.

Keywords:
Kidney Neoplasms; Carcinoma; Renal Cell; Nephrectomy

INTRODUCTION

According to European Association of Urology and American Urological Association guidelines, partial nephrectomy (PN) is the standard treatment for T1 renal cell carcinoma (RCC) (¹1. Ljungberg B, Bensalah K, Canfield S, Dabestani S, Hofmann F, Hora M, et al. EAU guidelines on renal cell carcinoma: 2014 update. Eur Urol. 2015; 67:913-24., ²2. 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; 198:520-9.). Compared with radical nephrectomy (RN), PN provides similar oncological control and better preserves renal function (³3. Huang WC, Levey AS, Serio AM, Snyder M, Vickers AJ, Raj GV, et al. Chronic kidney disease after nephrectomy in patients with renal cortical tumours: a retrospective cohort study. Lancet Oncol. 2006; 7:735-40.). PN also reduces cardiovascular morbidity and mortality and improves overall survival, especially in patients with preexisting kidney disease (⁴4. Huang WC, Elkin EB, Levey AS, Jang TL, Russo P. Partial nephrectomy versus radical nephrectomy in patients with small renal tumors--is there a difference in mortality and cardiovascular outcomes? J Urol. 2009; 181:55-61., ⁵5. Kates M, Badalato GM, Pitman M, McKiernan JM. Increased risk of overall and cardiovascular mortality after radical nephrectomy for renal cell carcinoma 2 cm or less. J Urol. 2011; 186:1247-53.). These advantages have led to the broader use of PN in patients with larger, more complex, and more aggressive tumors (⁶6. Maurice MJ, Zhu H, Kim SP, Abouassaly R. Increased use of partial nephrectomy to treat high-risk disease. BJU Int. 2016; 117(6B):E75-86.).

Because patients with advanced tumors are often in poor health, PN may improve survival and quality of life over RN. Further, a recent retrospective study demonstrated that nephrectomy-induced chronic renal insufficiency is a risk factor for death by any cause in patients with cT1b renal masses (³3. Huang WC, Levey AS, Serio AM, Snyder M, Vickers AJ, Raj GV, et al. Chronic kidney disease after nephrectomy in patients with renal cortical tumours: a retrospective cohort study. Lancet Oncol. 2006; 7:735-40.). However, only one study has evaluated outcomes after PN in patients with high-risk RCC (more advanced than T1), but it did not stratify patients according to tumor stage (⁷7. Brookman-May SD, May M, Wolff I, Zigeuner R, Hutterer GC, Cindolo L, et al. Evaluation of the prognostic significance of perirenal fat invasion and tumor size in patients with pT1-pT3a localized renal cell carcinoma in a comprehensive multicenter study of the CORONA project. Can we improve prognostic discrimination for patients with stage pT3a tumors? Eur Urol. 2015; 67:943-51.). Thus, whether the benefits of renal function preservation outweigh the potential risk of local recurrence and progression in patients with higher stage tumors remains controversial. The aim of this study was to compare the oncological and functional outcomes of patients with pT3a RCC scheduled for PN and RN.

MATERIALS AND METHODS

After receiving institutional review board approval (16-747), we retrospectively reviewed records to identify patients with stage pT3a RCC who underwent PN or RN from 2005 to 2016 at Memorial Sloan Kettering Cancer Center. Patients were excluded from analysis if they had positive lymph nodes at diagnosis (n=2), metastasis at diagnosis (n=16), solitary kidney (n=2), hereditary cancer syndrome (n=1), benign lesions (n=19), histology other than conventional/clear cell, chromophobe, or papillary (n=49), or missing data (n=12).

Comparisons of patient and perioperative characteristics between groups were made using Wilcoxon rank-sum for continuous variables and Fisher's exact test for categorical variables. Outcomes included estimated blood loss, warm ischemia time, estimated glomerular filtration rate (eGFR) preoperatively and 6 months postoperatively, length of hospital stay, lymph node invasion (LNI), margin status, Fuhrman grade (clear cell or papillary histology only), tumor size, pathological histology, symptoms at presentation (symptomatic of RCC [flank pain, hematuria, flank mass, and weight loss] or incidental) and RENAL nephrometry score (⁸8. Kutikov A, Uzzo RG. The R.E.N.A.L. nephrometry score: a comprehensive standardized system for quantitating renal tumor size, location and depth. J Urol. 2009; 182:844-53.). RENAL scores were categorized as low (scores 4 to 6), moderate (scores 7 to 9), or high (score >9). We calculated eGFR using the Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) formula using serum creatinine levels prior to surgery and 6 months (within 3 to 9 months) after surgery.

We used multivariable Cox proportional hazards regression models, adjusting for LNI, symptoms at presentation (incidental vs. symptomatic), histology (clear cell vs. chromophobe vs. papillary), and tumor size, to assess whether planned surgery type is associated with differences in overall survival (OS), cancer-specific survival (CSS), or recurrence-free survival (RFS). As a sensitivity analysis, we excluded patients with tumor sizes larger than 7cm, for whom it could be argued that they would rarely be treated with PN. All statistical analyses were conducted using STATA 13.0 (StataCorp, College Station, TX).

RESULTS

We identified 589 patients treated surgically for stage T3a RCC between 2005 and 2016. Of these, 369 (63%) and 220 (37%) were scheduled for RN and PN, respectively. Twenty-six (12%; 95% confidence interval [CI], 8-17) patients who were originally scheduled for PN were converted to RN intraoperatively. Of the 589 patients, 107 patients died, 31 from RCC. The median follow-up time for survivors was 2.0 years after surgery; 71 patients developed a recurrence, and 77 patients were followed for five years without an event.

Table-1 compares the perioperative characteristics of patients scheduled to undergo PN and RN. The overall rate of major complications was similar between scheduled PN and RN (5.0% vs. 3.3%, difference 1.7%, 95% CI, −1.7-5.0; p=0.3); three of the complications were urinary leaks. There were no significant differences in blood loss or length of hospital stay. Based on tumor characteristics, patients scheduled to undergo PN were at lower risk of cancer progression than those scheduled to undergo RN. Patients in the scheduled PN group had smaller tumors by pathology than patients scheduled to undergo RN (4cm vs. 8cm; p <0.0001). A smaller proportion of patients scheduled to undergo PN had conventional clear cell histology on pathology than patients scheduled for RN (77% vs. 88%; p=0.002). Among patients with clear cell or papillary histology, a larger proportion of patients scheduled for PN had cancers with a Fuhrman grade of 1 or 2 on pathology than patients scheduled for RN (25% vs. 11.3%; p <0.0001). Patients in the scheduled PN group had fewer complex tumors based on RENAL score (18% vs. 2.7%; p <0.0001; Table-2).

Thumbnail

Table 1
Demographic, clinical, and perioperative characteristics of patients with pT3a RCC (n=589) categorized according to planned procedure. All values are median (interquartile range) or frequency (percentage).

Thumbnail

Table 2
RENAL nephrometry scores and pre- and postoperative renal function of patients with stage pT3a RCC (n=589) categorized according to planned procedure. Values are the median (interquartile range) estimated glomerular filtration rate in mL/min/1.73m² or the number of patients (percentage). Normal estimated glomerular filtration values are X-YmL/min/1.73m². eGFR, estimated glomerular filtration rate.

After adjusting for LNI, symptoms at presentation, tumor size, and histology, we did not observe a significant association between planned PN and OS (hazard ratio [HR] 0.66; 95% CI, 0.38-1.13; p=0.13), CSS (HR 0.53; 95% CI, 0.16-1.75; p=0.3), or RFS (HR 0.66; 95% CI, 0.34-1.28; p=0.2) on multivariable analysis. However, the hazard ratios are indicative of improved survival of patients scheduled for PN and suggest that surgeon bias in selecting PN for patients with lower risk tumors is not adequately accounted for in our confounder adjustment.

Although preoperative renal function was similar between the two groups of patients, PN was associated with better postoperative renal function (Table-2). A smaller proportion of patients scheduled to undergo PN had reduced postoperative eGFR levels relative to patients undergoing RN (63% vs. 76%; 13% difference, 95% CI, 6-21; p <0.0001). Results for all outcomes were similar in our sensitivity analyses that excluded 240 patients with tumors larger than 7cm.

DISCUSSION

Although PN has become increasingly used to treat higher stage RCC, especially in high-volume experienced centers (⁶6. Maurice MJ, Zhu H, Kim SP, Abouassaly R. Increased use of partial nephrectomy to treat high-risk disease. BJU Int. 2016; 117(6B):E75-86.), the safety and benefits of PN for pT3a tumors are underreported (⁹9. Touijer K, Jacqmin D, Kavoussi LR, Montorsi F, Patard JJ, Rogers CG, et al. The expanding role of partial nephrectomy: a critical analysis of indications, results, and complications. Eur Urol. 2010; 57:214-22., ¹⁰10. Weight CJ, Lythgoe C, Unnikrishnan R, Lane BR, Campbell SC, Fergany AF. Partial nephrectomy does not compromise survival in patients with pathologic upstaging to pT2/pT3 or high-grade renal tumors compared with radical nephrectomy. Urology. 2011; 77:1142-6.). We did not find a significant difference in complication rate, OS, CSS, or RFS between planned PN and RN for pT3a RCC. Thus, PN does not appear to put patients with pT3a tumors at higher risk of complications or inferior oncologic outcomes. Although the hazard ratios were suggestive of improved outcomes with PN, this effect is likely due to selection bias, with patients with less aggressive tumors preferentially selected for PN. Yet patients scheduled for PN still had non-marginal rates of adverse histologic characteristics: 77% had clear cell RCC, 73% had high-grade tumors, 22% had a RENAL score ≥9, and at least 25% had tumors >5cm. Although other groups have reported on outcomes of high-stage RCC (¹¹11. Kopp RP, Mehrazin R, Palazzi KL, Liss MA, Jabaji R, Mirheydar HS, et al. Survival outcomes after radical and partial nephrectomy for clinical T2 renal tumours categorised by R.E.N.A.L. nephrometry score. BJU Int. 2014; 114:708-18.

12. Jeong SH, Kim JK, Park J, Jeon HJ, Yoon MY, Jeong CW, et al. Pathological T3a Upstaging of Clinical T1 Renal Cell Carcinoma: Outcomes According to Surgical Technique and Predictors of Upstaging. PLoS One. 2016; 11:e0166183.-¹³13. Maurice MJ, Zhu H, Kim S, Abouassaly R. Survival after partial and radical nephrectomy for high-risk disease: A propensity-matched comparison. Can Urol Assoc J. 2016; 10:E282-E289.), our study is one of the largest that describes the management of higher stage tumors by PN.

In a recent National Cancer Database analysis, Maurice et al. reported higher positive surgical margins (PSM) after PN among patients with >1 adverse pathological feature, including pT3a tumors (⁶6. Maurice MJ, Zhu H, Kim SP, Abouassaly R. Increased use of partial nephrectomy to treat high-risk disease. BJU Int. 2016; 117(6B):E75-86.). In our study, the higher rate of PSM in the scheduled PN group was not associated with worse oncologic outcomes, including RFS or CSS. This is consistent with a previous study from our institution showing minimal effect of PSM on the CSS of patients with pT3a RCC (¹⁴14. Liu NW, Wren JD, Vertosick E, Lee JK, Power NE, Benfante NE, et al. The Prognostic Impact of a Positive Vascular Margin on pT3 Clear Cell Renal Cell Carcinoma. J Urol. 2016; 195:264-9.). Other studies of PN (that primarily included patients with lower stage RCC) similarly found no effect of PSM on CSS (¹⁵15. 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; 57:466-71., ¹⁶16. Badalato GM, Kates M, Wisnivesky JP, Choudhury AR, McKiernan JM. Survival after partial and radical nephrectomy for the treatment of stage T1bN0M0 renal cell carcinoma (RCC) in the USA: a propensity scoring approach. BJU Int. 2012; 109:1457-62.). This suggests that the increased risk of PSM due to the greater procedural complexity of PN does not appear to compromise oncological outcomes, which is consistent with data demonstrating that protection from recurrence is not ensured by negative surgical margins (¹⁷17. Antic T, Taxy JB. Partial nephrectomy for renal tumors: lack of correlation between margin status and local recurrence. Am J Clin Pathol. 2015; 143:645-51.).

One important and expected finding in our study was the improved functional outcomes of patients scheduled for PN, with fewer patients having decreased eGFR levels 6 months after surgery than those who underwent RN (62% vs. 76%; −14% difference, 95% CI, −21 to −6). This finding, particularly in the case of small and low-stage tumors, is corroborated by other studies (¹⁸18. Scosyrev E, Messing EM, Sylvester R, Campbell S, Van Poppel H. Renal function after nephron-sparing surgery versus radical nephrectomy: results from EORTC randomized trial 30904. Eur Urol. 2014; 65:372-7., ¹⁹19. Roos FC, Steffens S, Junker K, Janssen M, Becker F, Wegener G, et al. Survival advantage of partial over radical nephrectomy in patients presenting with localized renal cell carcinoma. BMC Cancer. 2014; 14:372.). The improved functional outcomes of patients scheduled for PN cannot be explained by baseline differences, as preoperative eGFR was similar between the two groups. Further, 80% of patients had stage 2 or 3 chronic kidney disease (baseline eGFR 30-89mL/min/1.73m2) prior to surgery, in agreement with the finding by Lowrance et al. that chronic kidney disease is associated with higher RCC risk (²⁰20. Lowrance WT, Ordoñez J, Udaltsova N, Russo P, Go AS. CKD and the risk of incident cancer. J Am Soc Nephrol. 2014; 25:2327-34.).

There are certain limitations of our study that need to be acknowledged. Longer follow-up may be needed to accurately compare the effects of PN and RN on renal function, as it may take more than 2 years for eGFR to return to baseline for almost 50 percent of patients (²¹21. Zabor EC, Furberg H, Mashni J, Lee B, Jaimes EA, Russo P. Factors Associated with Recovery of Renal Function following Radical Nephrectomy for Kidney Neoplasms. Clin J Am Soc Nephrol. 2016; 11:101-7.). Furthermore, this was a non-randomized and retrospective study, making it subject to selection bias; patients with more complex and higher risk tumors were more frequently in the planned RN group. This is most apparent in our survival analysis, in which there was improved survival among patients scheduled to undergo PN, suggesting that the bias of choosing PN for lower risk tumors was not fully accounted for in our model. Nearly all studies comparing PN and RN outcomes share this design (⁹9. Touijer K, Jacqmin D, Kavoussi LR, Montorsi F, Patard JJ, Rogers CG, et al. The expanding role of partial nephrectomy: a critical analysis of indications, results, and complications. Eur Urol. 2010; 57:214-22., ¹¹11. Kopp RP, Mehrazin R, Palazzi KL, Liss MA, Jabaji R, Mirheydar HS, et al. Survival outcomes after radical and partial nephrectomy for clinical T2 renal tumours categorised by R.E.N.A.L. nephrometry score. BJU Int. 2014; 114:708-18., ¹³13. Maurice MJ, Zhu H, Kim S, Abouassaly R. Survival after partial and radical nephrectomy for high-risk disease: A propensity-matched comparison. Can Urol Assoc J. 2016; 10:E282-E289.). A randomized prospective study with a longer follow-up is necessary to clarify the potential benefits of PN in high-stage RCC.

CONCLUSION

We found no evidence that patients with pT3a RCC scheduled to undergo PN had poorer oncologic outcomes than patients scheduled to undergo RN. Additionally, patients in the scheduled PN group had better postoperative renal function than patients scheduled for RN. These findings suggest that PN should not be discouraged in select patients with pT3a RCC in whom PN is deemed feasible by the surgeon.

FUNDING

This work was supported by funds from the National Institutes of Health/National Cancer Institute (NIH/NCI) to Memorial Sloan Kettering Cancer Center (P30 CA008748).

ABBREVIATIONS

Abbreviation	Expansion
CI	confidence interval
CKD-EPI	chronic kidney disease epidemiology collaboration
CSS	cancer-specific survival
eGFR	estimated glomerular filtration rate
FG	Fuhrman grade
HR	hazard ratio
LNI	lymph node invasion
OS	overall survival
PN	partial nephrectomy
PSM	positive surgical margins
RCC	renal cell carcinoma
RFS	recurrence-free survival
RN	radical nephrectomy

REFERENCES

¹
Ljungberg B, Bensalah K, Canfield S, Dabestani S, Hofmann F, Hora M, et al. EAU guidelines on renal cell carcinoma: 2014 update. Eur Urol. 2015; 67:913-24.
²
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; 198:520-9.
³
Huang WC, Levey AS, Serio AM, Snyder M, Vickers AJ, Raj GV, et al. Chronic kidney disease after nephrectomy in patients with renal cortical tumours: a retrospective cohort study. Lancet Oncol. 2006; 7:735-40.
⁴
Huang WC, Elkin EB, Levey AS, Jang TL, Russo P. Partial nephrectomy versus radical nephrectomy in patients with small renal tumors--is there a difference in mortality and cardiovascular outcomes? J Urol. 2009; 181:55-61.
⁵
Kates M, Badalato GM, Pitman M, McKiernan JM. Increased risk of overall and cardiovascular mortality after radical nephrectomy for renal cell carcinoma 2 cm or less. J Urol. 2011; 186:1247-53.
⁶
Maurice MJ, Zhu H, Kim SP, Abouassaly R. Increased use of partial nephrectomy to treat high-risk disease. BJU Int. 2016; 117(6B):E75-86.
⁷
Brookman-May SD, May M, Wolff I, Zigeuner R, Hutterer GC, Cindolo L, et al. Evaluation of the prognostic significance of perirenal fat invasion and tumor size in patients with pT1-pT3a localized renal cell carcinoma in a comprehensive multicenter study of the CORONA project. Can we improve prognostic discrimination for patients with stage pT3a tumors? Eur Urol. 2015; 67:943-51.
⁸
Kutikov A, Uzzo RG. The R.E.N.A.L. nephrometry score: a comprehensive standardized system for quantitating renal tumor size, location and depth. J Urol. 2009; 182:844-53.
⁹
Touijer K, Jacqmin D, Kavoussi LR, Montorsi F, Patard JJ, Rogers CG, et al. The expanding role of partial nephrectomy: a critical analysis of indications, results, and complications. Eur Urol. 2010; 57:214-22.
¹⁰
Weight CJ, Lythgoe C, Unnikrishnan R, Lane BR, Campbell SC, Fergany AF. Partial nephrectomy does not compromise survival in patients with pathologic upstaging to pT2/pT3 or high-grade renal tumors compared with radical nephrectomy. Urology. 2011; 77:1142-6.
¹¹
Kopp RP, Mehrazin R, Palazzi KL, Liss MA, Jabaji R, Mirheydar HS, et al. Survival outcomes after radical and partial nephrectomy for clinical T2 renal tumours categorised by R.E.N.A.L. nephrometry score. BJU Int. 2014; 114:708-18.
¹²
Jeong SH, Kim JK, Park J, Jeon HJ, Yoon MY, Jeong CW, et al. Pathological T3a Upstaging of Clinical T1 Renal Cell Carcinoma: Outcomes According to Surgical Technique and Predictors of Upstaging. PLoS One. 2016; 11:e0166183.
¹³
Maurice MJ, Zhu H, Kim S, Abouassaly R. Survival after partial and radical nephrectomy for high-risk disease: A propensity-matched comparison. Can Urol Assoc J. 2016; 10:E282-E289.
¹⁴
Liu NW, Wren JD, Vertosick E, Lee JK, Power NE, Benfante NE, et al. The Prognostic Impact of a Positive Vascular Margin on pT3 Clear Cell Renal Cell Carcinoma. J Urol. 2016; 195:264-9.
¹⁵
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; 57:466-71.
¹⁶
Badalato GM, Kates M, Wisnivesky JP, Choudhury AR, McKiernan JM. Survival after partial and radical nephrectomy for the treatment of stage T1bN0M0 renal cell carcinoma (RCC) in the USA: a propensity scoring approach. BJU Int. 2012; 109:1457-62.
¹⁷
Antic T, Taxy JB. Partial nephrectomy for renal tumors: lack of correlation between margin status and local recurrence. Am J Clin Pathol. 2015; 143:645-51.
¹⁸
Scosyrev E, Messing EM, Sylvester R, Campbell S, Van Poppel H. Renal function after nephron-sparing surgery versus radical nephrectomy: results from EORTC randomized trial 30904. Eur Urol. 2014; 65:372-7.
¹⁹
Roos FC, Steffens S, Junker K, Janssen M, Becker F, Wegener G, et al. Survival advantage of partial over radical nephrectomy in patients presenting with localized renal cell carcinoma. BMC Cancer. 2014; 14:372.
²⁰
Lowrance WT, Ordoñez J, Udaltsova N, Russo P, Go AS. CKD and the risk of incident cancer. J Am Soc Nephrol. 2014; 25:2327-34.
²¹
Zabor EC, Furberg H, Mashni J, Lee B, Jaimes EA, Russo P. Factors Associated with Recovery of Renal Function following Radical Nephrectomy for Kidney Neoplasms. Clin J Am Soc Nephrol. 2016; 11:101-7.

Publication Dates

Publication in this collection
30 July 2021
Date of issue
Jul-Aug 2021

History

Received
26 Feb 2020
Accepted
24 July 2020
Published
28 Feb 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] FUNDING

This work was supported by funds from the National Institutes of Health/National Cancer Institute (NIH/NCI) to Memorial Sloan Kettering Cancer Center (P30 CA008748).

		Radical nephrectomy n=369 (63%)	Partial nephrectomy ¹ 1 Includes 26 patients who were converted to radical nephrectomy intraoperatively. n=220 (37%)	p-value
Age at surgery (years)		62 (53-69)	63 (55-71)	0.3
Male		259 (70%)	157 (71%)	0.8
Race				0.3
	White	315 (85%)	187 (85%)
	Black	5 (1.4%)	7 (3.2%)
	Asian	24 (6.5%)	10 (4.5%)
	Other	5 (1.4%)	2 (0.9%)
	Unknown	20 (5.4%)	14 (6.4%)
Incidental symptoms at presentation		208 (56%)	186 (85%)	<0.0001
Pathological histology				0.002
	Clear cell	323 (88%)	170 (77%)
	Papillary	13 (3.5%)	21 (10%)
	Chromophobe	33 (8.9%)	29 (13%)
Fuhrman grade (FG) ² 2 Excludes patients with chromophobe histology.				<0.0001
	FG 1	1 (0.3%)	0 (0%)
	FG 2	35 (10%)	47 (25%)
	FG 3	172 (51%)	104 (54%)
	FG 4	115 (34%)	23 (12%)
	Not reported	13 (3.9%)	17 (8.9%)
High pathologic grade (3/4; N=497)		287 (89%)	127 (73%)	<0.0001
Tumor size (cm)		8 (6-11)	4 (3-5)	<0.0001
Lymph node dissection		286 (78%)	44 (20%)	<0.0001
Lymph node invasion		34 (12%)	0 (0%)	0.013
Positive surgical margin		12 (3.3%)	19 (8.6%)	0.007
Length of hospital stay (days; N=553)		2 (2-3)	3 (2-4)	0.3
Estimated blood loss (mL)		300 (150-500)	300 (150-500)	>0.9

		Radical nephrectomy n=369 (63%)	Partial nephrectomy¹ 1 Includes 26 patients who were converted to radical nephrectomy intraoperatively. n=220 (37%)	p-value
Complexity based on RENAL score				<0.0001
	Low	10 (2.7%)	39 (18%)
	Moderate	87 (24%)	109 (50%)
	High	216 (59%)	49 (22%)
	Unknown	56 (15%)	23 (10%)
	Preoperative eGFR	70.4 (58.1-85.8)	71.1 (57.1-84.7)	0.7
	Preoperative eGFR >60	269 (73%)	158 (72%)	0.8
	6-month postoperative eGFR (N=472)	51.7 (43.8-63.8)	64.2 (47.4-79.1)	<0.0001
6-month postoperative eGFR >60		92 (25%)	106 (48%)	<0.0001
	Unknown	76 (21%)	41 (19%)
6-month postoperative eGFR lower than baseline		281 (76%)	138 (63%)	<0.0001
	Unknown	76 (21%)	41 (19%)

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