Abstract
Background: In cT1 renal cell carcinoma (RCC), very few studies have compared oncological outcomes and renal function preservation rates in nephron-sparing robot-assisted partial nephrectomy (RAPN) and percutaneous cryoablation (PCA). Patients and Methods: We retrospectively analysed 126 patients with cT1 RCC treated with RAPN (n=78) and computed tomography-guided PCA (n=48) between March 2016 and November 2019. Clinical data and outcomes were compared for the two groups. Results: There were no significant differences in the 3-year overall survival and relapse-free survival rates in the two groups (p=0.17 and p=0.093, respectively). The median percentage of estimated glomerular filtration rate preservation at 6 months after surgery was 91.8% and 91.4% in the RAPN and PCA groups, respectively (p=0.9). Conclusion: In patients with cT1a RCC, oncological outcomes and renal function appear similar following RAPN and PCA.
- Cryoablation
- renal cell carcinoma
- renal function
- robot-assisted partial nephrectomy
With the progress of cancer screening methods and aging of the population, the number of patients with renal cell carcinomas (RCCs) has increased in recent years. Ρartial nephrectomy (PN) has been recognised as the standard treatment for small RCCs (<7 cm, cT1 tumour) because it provides optimal oncological outcomes and maintains better renal function than radical nephrectomy (1-4). Recently, robot-assisted PN (RAPN) has become an increasingly prevalent surgery because of the stability of surgical technique in tumour excision and improved suturing renorrhaphy with 3D visualization (5, 6). On the other hand, percutaneous cryoablation (PCA) has been validated as an alternative nephron-sparing therapy (NST) in patients with poor general condition and has shown favourable clinical results for the treatment of small RCCs, especially cT1a (7, 8). However, there are only a few reports comparing the preservation rate of renal function in RAPN and PCA cases.
The aim of this study was to assess the clinical outcomes of RAPN and PCA at our Institution during the same period, as well as preserved renal function following minimally invasive NST.
Patients and Methods
Patients. We retrospectively reviewed the records of 126 consecutive patients who had undergone RAPN (n=78) or PCA (n=48) between March 2016 and November 2019 at Osaka University Hospital. All patients underwent plain- and contrast-enhanced abdominal computed tomographic (CT) scans for RCC diagnosis and clinical staging. Supplementary magnetic resonance imaging was provided as needed for thorough evaluation of the tumour. Patients with favourable general conditions underwent RAPN, whereas PCA was performed for patients who were considered at high surgical risk due to comorbidities. Perioperative complications were evaluated using the Clavien-Dindo classification (9, 10).
Robot-assisted partial nephrectomy. Before surgery, we constructed 3D-images using multi-detector computed tomography and SYNAPSE VINCENT software (Fujifilm Medical Co., Ltd., Tokyo, Japan) to obtain information about the location of the tumour and blood vessels. RAPN using the retroperitoneal approach was performed for tumours located on the posterior side of the renal hilum. RAPN was performed using the da Vinci Surgical System (Intuitive Surgical, Sunnyvale, CA, USA) under general anaesthesia. The tumours were excised under warm ischaemia using complete renal arterial clamping. When the urinary tract was opened, renal pelvic sutures were performed. All patients received parenchymal sutures.
We investigated trifecta (11) achievement (negative surgical margin, no postoperative complications and warm ischaemia time of ≤25 min) in the RAPN group as an indicator of surgical quality.
Percutaneous cryoablation. Before starting PCA, all patients were confirmed to have RCC by needle biopsy. CT-guided PCA was performed using the CRYO-HIT System (Galil Medical Ltd, Yokneam, Israel) under local anaesthesia. Multiple 17-gauge probes (typically three) were percutaneously inserted under CT fluoroscopic guidance, and ice ball formation was monitored by CT to ensure a >5 mm safety margin around the renal tumour. Two freezing and thawing cycles of PCA were routinely repeated to increase tumour cell injury. At 3 months after PCA, all patients underwent follow-up dynamic CT and needle biopsy to confirm the absence of residual tumours.
Follow-up. Follow-up was performed according to the institutional standard for local RCC, with clinical examination and laboratory testing at 1, 3, 6, and 12 months, and analysis by CT every 3 months. The postoperative rate of preservation of estimated glomerular filtration rate (eGFR) was defined as postoperative eGFR/preoperative eGFR. In addition, we compared the overall (OS) and relapse-free (RFS) survival rates for RAPN and PCA. OS was defined as the time from RAPN or PCA to documented death or last contact, whereas RFS was defined as the time from RAPN or PCA to any local recurrence.
Statistical analysis. Clinical data are presented as the median and interquartile range (IQR). Multiple logistic regression analysis was used to evaluate factors associated with trifecta achievement in the RAPN group and decline in renal function at 6 months postoperatively (12, 13) in all patients. The cut-off value was determined by plotting the receiver operating characteristic curve. The Kaplan-Meier method was used to calculate survival rates and Iog-rank tests were used to compare the two groups. A value of p<0.05 was considered statistically significant. All statistical analyses were conducted using JMP software (version 15.0; SAS Institute, Cary, NC, USA).
Results
Patient characteristics. The clinical and pathologic characteristics are shown in Table I. The median age of the RAPN group was significantly lower than that of the PCA group (p<0.001). The PCA group had significantly worse general conditions, as evaluated by the American Society of Anesthesiologists’ score, than the RAPN group (p<0.001). Median preoperative eGFR of the RAPN group was significantly better than that of the PCA group (73.2 ml/min/1.73 m2 versus 53.6 ml/min/1.73 m2, p<0.001). No significant differences were identified between the two groups for clinical T-stage, R.E.N.A.L nephrometry score (14) or RCC subtype.
Perioperative outcomes. The surgical outcomes are shown in Table II. Fifty-four patients underwent RAPN using the transperitoneal approach, whereas 24 patients underwent RAPN using the retroperitoneal approach. The median operative time was 224 min (IQR=199-263 min). The median console time was 138 min (IQR=98-176 min). The median estimated blood loss was 10 ml (IQR=0-100 ml). Trifecta was achieved in 41 patients (52.6%) in the RAPN group.
In the univariate analysis, preoperative eGFR (>70 ml/min/1.73 m2), maximum tumour diameter (<20 mm), and R.E.N.A.L nephrometry score (<8) were significantly associated with trifecta achievement (Table III). Multivariate analysis also demonstrated that a R.E.N.A.L nephrometry score (<8) was significantly associated with trifecta achievement [odds ratio (OR)=4.20, 95% confidence intervaI (CI)=1.38-12.54; p=0.011].
Renal function outcomes. Changes in renal function after treatment in both groups are shown in Figure 1. The median eGFR preservation rate of the RAPN group was not significantly different from that of the PCA group at any time point (3 months: p=0.18, 6 months: p=0.96, and 12 months: p=0.51). In the univariate analysis, maximum tumour diameter ≥20 mm and R.E.N.A.L. nephrometry score ≥8 were significantly associated with a decline in eGFR of >10% at 6 months after surgery (Table IV). Multivariate analysis also revealed that maximum tumour diameter ≥20 mm (OR=2.54, 95% CI=1.00-6.44; p=0.044) and R.E.N.A.L nephrometry score ≥8 (OR=2.94; 95% CI=1.22-7.08; p=0.015) were significantly associated with a decline in eGFR of >10% at 6 months after surgery.
Oncologic outcomes. The median follow-up was 18.5 months (IQR=12-30 months) for RAPN and 12 months (IQR=6-32 months) for PCA (p=0.039). No perioperative deaths occurred in either group. Two and three local recurrences were observed in the RAPN and PCA groups, respectively. No metastasis occurred in either group. For survival analysis, the PCA group had a similar 3-year RFS rate to the RAPN group (90.3% versus 93.5%, p=0.093; Figure 2A). The 3-year OS rate was 100% [95% CI=not reached] for RAPN and 97.4% for PCA (95% CI=not reached) (p=0.17; Figure 2B).
Discussion
For surgical treatment of cT1 RCC, NST including PN has been the standard treatment because it is not only effective in cancer treatment but also reduces the incidence of cardiovascular events and mortality more effectively than radical nephrectomy does by preserving renal function and preventing chronic kidney disease (3, 15, 16). Recently, RAPN has been widely used for NST and has shown promising clinical outcomes by shortening the warm ischaemia time and reducing perioperative complications (5, 6). On the other hand, according to the American Urological Association guidelines, thermal ablation such as PCA or radiofrequency ablation is an appropriate alternative treatment to PN in patients who are poor surgical candidates but need active treatment (17). To date, there are only a few comparative studies on treatment outcomes, especially on the preservation of renal function, between RAPN and PCA. Hence, in this study, we performed a data analysis of patients with cT1a RCC treated with RAPN or PCA and provided some evidence on oncological outcomes and renal function.
Firstly, in the results of our analysis of the RAPN group, the trifecta achievement rate was 52.6%, which was similar to that in previous reports (5, 18, 19). Sharma et al. reported that the R.E.N.A.L nephrometry score is a useful tool for determining renal tumour complexity (20). In the present study, we also found that the R.E.N.A.L nephrometry score was the decisive factor influencing trifecta achievement (21). Regarding perioperative complications, we observed no serious complications (Clavien-Dindo grade 4 or more) in either group. Our results are in line with data published by Rai et al. who reported no significant differences in the overall and Clavien-Dindo grade 3 or more complication rates between RAPN and cryoablation (22).
Secondly, although preoperative eGFR was significantly higher in the RAPN group than in the PCA group, there were no significant differences in the percentage of eGFR preservation between the two groups throughout the year. Our study is in concordance with Zargar et al., who reported that PN and CA had similar results in terms of preservation of renal function (23). These findings support the theory that RAPN and PCA have equivalent outcomes for medium-term renal function preservation in patients with cT1a RCC.
Thirdly, we found that there was no significant difference in RFS and OS rates between the RAPN and PCA groups during the medium term of 3 years. Caputo et al. reported contradictory outcomes in that RFS following RAPN was superior to that following CA (PCA and laparoscopic CA). We speculate that this difference may be due to the clinical stage of RCC (cT1b) (24). Our findings partially align with those reported by Tanagho and colleagues, who reported RAPN was superior to CA in disease-free survival but equivalent in OS and cancer-specific survival rates (25). Given these findings, RAPN and PCA are believed to be equivalent in terms of oncological outcomes during the medium-term in patients with cT1a RCC, although further investigations are needed to validate these results in the longer term.
This study had some limitations. Firstly, we performed a retrospective study with a limited number of patients. Secondly, split renal function should be further measured using a renogram in future trials. Thirdly, the present study did not assess long-term oncological outcomes.
Conclusion
In cT1a RCC, oncological outcomes and renal function after surgery appear to be similar in patients who undergo RAPN and those who undergo PCA, at least in the medium term. These findings indicate that PCA is an effective, minimally invasive treatment option for patients with cT1a RCC.
Footnotes
Authors’ Contributions
TU conceived the study, collected and analysed the patient data, and contributed to writing the manuscript. TK was responsible for the study conception and design and conducted the study, data collection and analysis, and drafting of the article. AN, AK, KH and TU performed the data analysis and provided scientific advice. YO, HH and NT performed cryoablation and completed the study. KF, SF, HK, RI, NN and MU performed robot-assisted partial nephrectomy and completed the study. All Authors read and approved the final article.
This article is freely accessible online.
Conflicts of Interest
The Authors declare no competing financial interests.
- Received January 14, 2021.
- Revision received February 10, 2021.
- Accepted February 11, 2021.
- Copyright© 2021, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved