Long-term survival and prognostic factors for locally advanced renal cell carcinoma with renal vein tumor thrombus

One biological characteristic of renal cell carcinoma (RCC) is venous system invasion. This is observed in 5–36% of RCC patients [1, 2]. There are two major types, (i) renal vein invasion and (ii) renal vein with inferior vena cava invasion. The former is the major subtype, accounting for 60–78% [3, 4]. Renal vein tumor thrombus (RVTT) is the primary manifestation for renal vein invasion.

The majority of previous studies have focused on RCC with venous tumor thrombus (VTT), which included inferior vena cava tumor thrombus (IVCTT) together with RVTT. Diagnosis is usually performed by post-surgical pathology [2, 3, 5‐12]. The reported post-surgical survival data for RCC with VTT varies significantly. The 5-year overall survival rate ranges from 34.0 to 71.0% [8‐12], while the survival information for RVTT patients could only be extracted from the above studies, which were 50.9 to 65.0% [10‐12]. Several studies have indicated that RCC patients with vein tumor thrombus have poor survival, with lymph node invasion, distant metastasis, and invasion of the IVC wall being independent prognostic factors [2, 3, 5]. Based on a retrospective study of 174 RCC patients with IVCTT or RVTT, Bertini et al. [7] proposed that friable thrombus was an independent predictor for poor survival for both IVCTT and RVTT. However, IVCTT and RVTT are staged differently based on the American Joint Committee on Cancer (AJCC). Hence it is more reasonable to discuss RVTT and IVCTT separately. In addition, the majority of previous studies have focused on IVCTT in European and American patients (Caucasians), with only a few with Chinese ethnicity [13]. Of the studies that had patients with Chinese descent, friable RVTT was not included in the prognostic analysis. Future studies on the prognostic and risk factors for RCC with RVTT are needed. There are two major concerns regarding the studies performed on RCC with RVTT. First, only a few studies have focused on post-surgical long-term survival of RCC patients with RVTT. Second, no common consensus on adjuvant treatment after radical surgery has been proposed.

This is one of a series of studies that focused on Chinese RCC patients with RVTT. In this study, we focused on long-term survival and prognostic factors after radical surgery in Chinese patients with RCC (locally advanced) with RVTT. We constructed a risk model for long-term survival in these patients with the hope that it may help select the best treatment strategy for future patients.

We enrolled RCC patients with RVTT from the National Cancer Center/Cancer Hospital, Chinese Academy of Medical Sciences (NCC/CHCAMS) from January 2000 to December 2015. This study was approved by the Ethics Committee of NCC/CHCAMS (ID Num: NCC2016YJC-08). Patient consent was not required. We evaluated long-term survival and developed a prognosis model for Chinese RCC patients with RVTT.

All patients enrolled in the study met the 5-key inclusion criteria: (i) histopathology-confirmation of RCC with RVTT (graded 0 tumor thrombus by Mayo classification), negative surgical margins and no evidence of residual disease; (ii) patients underwent both enhanced abdominal CT and kidney MRI (either at NCC/CHCAMS or another qualified hospital) for clinical staging that suggested clinical RVTT; (iii) chest CT and abdomen ultrasonography were performed to exclude metastasis before surgery. Bone imaging or brain MRI was performed if necessary; (iv) patients had no additional treatments before retroperitoneal radical nephrectomy plus embolectomy; (v) complete follow-up information.

Patient demographic information, medical history, symptoms and signs, imaging and laboratory results, and pathologic characteristics were obtained from the medical records. Paraneoplastic syndrome (PNS) was defined as a set of symptoms, that included laboratory abnormalities involving systemic effects from the tumor not related to distant spread, infection, nutritional deficiency or treatment, such as fever, anemia, hypercalcemia, hypertension, or emaciation. The four typical PNS were:moderate-severe anemia (Hb < 60 g/L), emaciation (loss of weight ≥ 5.0Kg in 3 months), hypercalcemia (Ca2+ > 2.75 mmol/L) and persistent fever [14].

Surgery was performed using standard methods for open or laparoscopic radical nephrectomy. Retroperitoneal lymphadenectomy was performed when regional lymph node enlargement was observed by imaging or during surgery. All histopathological slides were reviewed based on the 2016 WHO urinary system and male genital organs histological classification criterion [15]. For friable thrombus, three pathologists provided their individual reports. The Mayo classification was used to identify VTT stage [1]. Thrombus consistency was defined as solid when the thrombus appeared compact and cohesive on more than 90% of its surface, while friable thrombus were irregular with necrotic areas and fragmented [7]. Tumor staging for each patient was reviewed again based on the 2010 AJCC TNM staging criterion, and was blinded in the previous pathology report of each patient.

Prognosis was obtained through telephone follow-ups and Electronic Medical Record System. Clinical and radiologic assessments during follow-up were based on the NCCN guidelines [16]. In brief, physical examination, blood sampling and imaging examinations were performed every 3 months for two years after surgery, and then every 6 months or annually afterwards. Telephone follow-ups included information on treatments after surgery, time of recurrence or metastasis, cause and time of death. All follow-ups were concluded on April 30th, 2016. The primary endpoint of the study was cancer-specific survival and was calculated from the time of surgery to the date of death related to RCC, or the last follow-up period.

We enrolled 4426 consecutive RCC patients from NCC/CHCAMS between January 2000 to December 2015, with 128 patients meeting our inclusion criteria. Clinical-pathological characteristics of the selected patients are summarized in Table 1. The median age was 61 years and 80.5% were males (M:F = 103:25). The major clinical symptoms were hematuria (41.4%) and asymptomatic renal mass diagnosed through physical examination (42.9%). Typical PNS was observed in 18 patients (14.1%).

89 (69.5%) patients were diagnosed with RVTT before surgery, while the remaining 39 (30.5%) patients were diagnosed with RVTT after the post-surgical pathology confirmation. Although no special pre-surgical treatments were performed for thrombus, none of them dislodged intraoperatively. During surgery, the distal end of the renal vein was clamped. This allowed for the complete removal of RVTT without tumor exposure, with negative incisal margins in the renal vein. This procedure differed from the intraoperative management for IVCTT.

The major pathological subtype was clear cell carcinoma (95.3%).

One hundred twenty-one patients were followed up successfully, with a median follow-up period of 47 months (7–186). Median survival time was 127 months (95%CI: 100.8~153.2). The 5-year cancer specific survival (5-year CSS) was 67.9% and 10-year CSS was 57.0% (Fig. 1). During the follow-up period, 59 (46.1%) patients had recurrence or distant metastasis with a median time of 40 months (2–108), of which, 20 (33.9%), 15 (25.4%), 9 (15.3%) and 15 (25.4%) received cytokine therapy, targeted therapy, surgery plus cytokine therapy and palliative therapy, respectively. 37 patients died, with 34 dying of tumor metastasis and 3 dying of cerebrovascular complications. Of the 84 patients alive during the follow-up period, 59 (70.2%) were cancer-free.

In this study we aimed to determine the long-term survival and independent prognostic factors for patients with locally advanced RCC with RVTT in China. We found that RCC patients with RVTT treated with radical surgery had a relatively good prognosis, with 5-year CSS of 67.9%. Friable thrombus, PNS, higher modified Fuhrman grade and perirenal fat invasion were independent prognostic factors.

In our study, 5% of the 4426 consecutive RCC patients identified had VTT (128 RVTT vs 93 IVCTT), and was similar to studies performed previously in western countries [1, 2]. This indicated that Chinese and Caucasians had a similar propensity for VTT. However RVTT accounted for only 57.9%(128/221)of patients with VTT, which was lower compared to patients from western countries [3, 4].

Our criterion for patient enrollment was pathologic RVTT. In addition, we collected imaging data. We found that 39 patients with RVTT would have been missed if they were only diagnosed through imaging. This study is the first to compare pathologic RVTT with pre-surgical imaging information for RVTT. We hypothesized that tumors located in the middle pole or tumors having collateral vessels maybe one of the reasons. This suggests that urologists should pay special attention to the distal end of the renal vein during their diagnosis.

Most studies that have analyzed IVCTT with RVTT had reported different 5-year CSS. Hirono et al. [11] enrolled 292 RCC patients with 152 RVTT patients with or without metastasis and determined their 5-year CSS was 50.9%. Sidana et al. [12] retrospectively analyzed 132 RCC patients with 64 of them having RVTT. Their 5-year CSS was 65.0%. In our study, the 5-year CSS was 67.9%, and the 10-year CSS was 57.0% which has rarely been reported before. This indicates that locally advanced RCC patients with RVTT had relatively good prognosis (Fig. 1). This relatively good survival supports the AJCC TNM staging for RVTT. Hence, we think it is necessary to analyze RVTT separately in RCC patients.

Among the four independent factors in our study, the prognostic significance of modified Fuhrman grade and perirenal fat invasion were consistent with Western studies for IVCTT [5, 20]. However, the significance of thrombus consistency is controversial. Rene et al. [6] enrolled 413 RCC patients with IVCTT in their study that included patients with 225 solid and 188 friable thrombus. There was no statistical difference between the 5-year CSS for patients with friable versus solid tumor thrombus (p = 0.8). In a retrospective study cohort of 174 patients, friable thrombus was an independent predictor for survival and was associated with a significantly poorer CSS (p<0.001) [7]. However, there have been no RVTT studies that have focused on friable thrombus, although it is considered as a prognostic factor for IVCTT. Our study confirmed that friable RVTT was an independent prognostic factor for RCC patients with RVTT (p = 0.006). This suggests that friable thrombus may be associated with a higher risk of tumor haematogenous spread, and in clinically non-metastatic patients could be a higher risk for systemic progression. If our findings are confirmed in prospective studies, the friable description should be introduced into routine pathologic reports to provide additional information to guide adjuvant therapy.

It is estimated that the prevalence of PNS in patients diagnosed with RCC varies from 10 to 40% [14]. Moreira et al. [14] retrospectively analyzed 2865 RCC patients with PNS associated with poor CSS (p = 0.007), but PNS was not an independent factor. In our present study, patients were in the locally advanced stage, hence PNS was not sufficiently remarkable. We analyzed several typical symptoms (fever, emaciation) and laboratory abnormities (anemia, hypercalcemia). PNS was found to be an independent prognostic factor (p = 0.004). In addition, there were 52 patients with hypertension and 12 with abnormal liver function that were mainly caused by fatty liver diseases and could be resolved by hepatoprotective therapies pre-surgically. Hence these symptoms did not fit PNS clinically, and not considered in our analysis.

In a multiple-center study, Abel et al. [18] retrospectively analyzed 432 RCC with VTT, and divided them into low, middle and high risk groups on the basis of independent risk factors. The 5-year recurrence free survival rates of the three groups were statistically different (p < 0.001). Our study was a rare stratified analysis of VTT. We divided our patients into three risk-groups based on the independent prognostic factors for RCC with RVTT. The 5-year CSS of the high-risk group was significantly lower compared to the low-risk group (0% vs 100%). This indicated that the more prognostic factors patients had, the worse were their survival rates, and hence would need post-surgical treatment to improve their survivals. This is the first study to put forward risk stratification for RCC patients with RVTT. The prognostic factors were fewer compared to Abel’s. Hence our risk stratification had a better clinical operability. It provides patients who are classified as high-risk the opportunities to seek appropriate post-surgical adjuvant therapies.

At present, the standard of care for patients who had received nephrectomy for localized RCC is active surveillance [16]. In our study, of the 121 patients who were successfully followed up, 65 patients were on active surveillance, 38 patients accepted cytokine therapy including interleukin or interferon, and 18 patients accepted targeted therapy including Sorafenib or Sunitinib. The CSS of the three groups had no statistical difference (p = 0.673, χ² = 0.793, Additional file 1: Figure S1). Hence accepting adjuvant therapy postoperatively had no significance in improving the survival of RCC patients with RVTT (Additional file 2: Figure S2). With phase III clinical trials of S-TRAC and PROTECT showing promising results [21‐24], there has been great interest to investigate these agents in an adjuvant setting. Our study provides urologists with additional information to select high-risk patients for adjuvant therapies, while low risk patients should be on active surveillance.

There were several limitations to our study. We selected RCC patients with RVTT from NCC/CHCHAS to represent the whole Chinese population. Selection bias may exist during RCC patient enrollment in the selected hospital. However, the selection of this tertiary hospital was based on its ability for standardized diagnosis and treatment. Another limitation to the study was the inadequate follow-up period. The median recurrence time of 40 months suggested that the median follow-up period of 47 months was not sufficient. However, our follow-up period was longer compared to the 27 months follow-up period conducted in previous VTT analysis of Chinese patients [5]. We are continuing targeted patient follow-ups to supplement our data. In addition, the variables selected were based on the results from patients in Western countries and may not be ideal for the Chinese patient population. Our stratified model was only based on clinical data. Additional factors should be included to make our model more precise. Future multicenter studies to determine the benefit of our risk model should be performed. This will help investigate the appropriate post-surgical treatment strategies for patients classified as middle- and high-risk.

After radical surgery, locally advanced RCC patients with RVTT had a relatively good prognosis except for those patients with friable thrombus, PNS, higher modified Fuhrman grade and perirenal fat invasion. Middle- and high-risk patients had the worse prognosis. We suggest that these patients be treated with adjuvant therapies to increase their chances of survival. As for low-risk patients, we propose to maintain active surveillance.