Abstract
Background
This study aimed to determine the prognostic value of preoperative blood parameters in renal cell carcinoma (RCC) and tumour thrombus (TT) patients that were surgically treated.
Method
We retrospectively analysed clinicopathological data and blood parameters of 146 RCC and TT patients that were surgically treated. Univariate or multivariate Cox regression analyses were performed to determine the risk factors associated with progression-free survival (PFS) and overall survival (OS). Kaplan-Meier analysis and logistic regression were performed to study the risk factors. Receiver operating characteristic curves were applied to test improvements in the predictive accuracy of the established prognosis score.
Results
On univariate and multivariate analysis, anaemia (HR 2.873, P = 0.008) and lymph node metastasis (HR 4.811, P = 0.015) were independent prognostic factors linked to OS. Besides, thrombocytosis (HR 2.324, P = 0.011), histologic subtype (HR 2.835, P = 0.004), nuclear grade (HR 2.069, P = 0.033), and lymph node metastasis (HR 5.739, P = 0.001) were independent prognostic factors associated with PFS. Kaplan–Meier curves revealed that patients with anaemia exhibited worse OS than those without it (P = 0.0033). Likewise, patients with thrombocytosis showed worse PFS than those without it (P < 0.0001). Adding the anaemia and thrombocytosis to the SSIGN score improved its predictive accuracy related to OS and PFS. Preoperative anaemia was linked to more symptom at presentation (OR 3.348, P = 0.006), longer surgical time (OR 1.005, P = 0.001), more blood loss (OR 1.000, P = 0.018), more transfusion (OR 2.734, P = 0.004), higher thrombus level (OR 4.750, P = 0.004) and higher nuclear grade (OR 3.449, P = 0.001) while thrombocytosis was associated with more symptom at presentation (OR 7.784, P = 0.007).
Conclusions
Preoperative anaemia and thrombocytosis were adverse prognostic factors in non-metastatic RCC patients with TT. Also, both preoperative anaemia and thrombocytosis can be clinically used for risk stratification of non-metastatic RCC and TT patients.
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Background
Renal cell carcinoma (RCC) accounts for 3% of all malignant tumours worldwide [1]. With the advancement of surgical procedures and adjuvant therapy, the long-term prognostic outcome of RCC has become favourable with a 5-year survival rate of 80–90 % in most histological subtypes[2]. Based on pathological data, RCC subtype, tumour grade, sarcomatoid and rhabdoid features, and TNM stage are commonly used prognostic factors of RCC [3]. Combining these factors, several prognostic models have established to predict survival among the RCC patients and validated their usefulness externally[3].
Notably, preoperative blood parameters can be used to reflect the inflammatory status and health conditions of patients in an economic and convenient manner. The inflammation status has been well associated with genesis, progression, and metastasis of tumours [4]. Preoperative inflammation indicators such as neutrophils, lymphocytes, platelets, neutrophil-lymphocyte ratio (NLR), and the platelet lymphocyte ratio (PLR) have been reported for prognostic value in urologic malignancies such as prostate and bladder cancers [5, 6]. Previously, in RCC too, elevated neutrophils, platelets, NLR, PLR, and decreased lymphocytes were linked to poor survival rates [7,8,9]. Moreover, other preoperative blood parameters such as haemoglobin, AST/ALT, albumin have been suggested to hold prognostic values predicting survival in RCC [10]. Recently, a novel prognostic system incorporating preoperative blood parameters has also been designed to improve prognostic accuracy to predict metastatic RCC [11].
Intriguingly, 4–10 % of RCC patients exhibit thrombus either in the renal vein or inferior vena cava [12]. Due to the complexity of the inflammatory status and rarity of data, the prognostic significance of preoperative blood parameters has not been extensively studied yet. Therefore, this study was aimed to determine the prognostic value of preoperative blood parameters in RCC and TT patients that were surgically treated.
Methods
Patient population
After approval from the Peking University Third Hospital Medical Science Research Ethics Committee, we retrospectively analysed the clinicopathological data of 278 patients. These were diagnosed with renal neoplasms and tumour thrombus receiving nephrectomy and thrombectomy at our institute between Jan 2014 and Dec 2019. The excluding criteria were as follows: (1) non-renal cell carcinoma, (2) preoperative suspicious distant metastasis, (3) bilateral or recurrent tumour, (4) combined with hematological disease or gastrointestinal disease, (5) a past-history of splenectomy. The flow chart describing the inclusion criteria of patients is shown in Fig. 1. Finally, data belonging to 146 patients were used for further research. The corresponding clinicopathological data and blood parameters were obtained using the patients’ medical and pathological records.
Clinical and pathologic evaluation
The clinicopathological variables included age, sex, body mass index (BMI), symptoms at presentation, American Society of Anesthesiologists (ASA) score, surgical data (approach, time, blood loss, segmental resection of vena cava, and transfusion), tumour thrombus level (TT), tumour size and side, and tumour pathology (histologic subtype, nuclear grade, lymph node status, necrosis, and invasion of venous wall). Tumour thrombus levels were defined according to the Mayo classification using the preoperative images [13]. Nuclear grade was defined according to Fuhrman grade before 2016 and WHO/IUSP classification after 2016 [14]. SSIGN score was used to stratify the study cohort in low-risk (score 2–4), intermediate-risk (score 5–7), and high-risk (score 8–11) groups [15]. Patients’ routine laboratory examinations were analysed for a period of one week before the surgery. The corresponding blood parameters including neutrophil count (NEU), platelet count (PLT), lymphocyte count (LYM), haemoglobin level (HGB), albumin level (ABL), serum creatine (SCR), plasma AST and ALT, serum calcium (SCa) and alkaline phosphatase (ALP) levels were obtained. NLR and PLR were calculated using the neutrophil and platelet counts. PLT ≥ 300 × 109/L was defined as thrombocytosis. HGB ≤ 120 g/L for males and HGB ≤ 115 g/L for females were defined as anaemia.
Follow up
After surgery, all patients were followed up and prognostic data were obtained through a clinic visit or by telephone until July 2020. Patients were recommended to a follow up for every 3 months in the first year, every 6 months in the next 2 years, and yearly thereafter. At each visit, laboratory examinations, X-ray, ultrasonic scan, or abdominal CT were performed. Patients who had recurrence or metastasis during follow-up were recommended to receive tyrosine kinase inhibitors (TKIs) as adjuvant therapy. Overall survival (OS) was calculated from the date of surgery to death and progression-free survival (PFS) was calculated from the date of surgery to tumour recurrence or metastasis.
Statistical analysis
The prognostic value (OS and PFS) of preoperative blood parameters and clinicopathologic data were assessed using the univariate and multivariate Cox proportional hazards regression model. Potential predictors with a significance of P < 0.10 in the univariable Cox regression analysis or with clinic value were included in the subsequent multivariable regression analysis (with forward stepwise likelihood ratio method). The OS and PFS were estimated using the Kaplan–Meier curves and survival differences were compared using the log-rank test. Association among risk factors and clinicopathological characteristics was analysed using the logistic regression model. Time-dependent receiver operating characteristic (ROC) curves were performed to analyse the improvement of the modified model compared to the conventional model [16]. All statistical analyses were performed with SPSS Statistics 22.0 (IBM Corp, Armonk, NY, USA) and R software (Version 4.0.3). All comparisons were subjected to Two-tailed tests, and P < 0.05 was considered statistically significant.
Results
The baseline clinical and pathological variables of 146 RCC and TT patients that were treated surgically are shown in Table 1. Among these, the majority (n = 113, 77.4 %) of patients were male. The patients’ median age was 60 year (IQR 54–66.25). Of these, the majority of patients had TT levels classified to Mayo 0–II (n = 118, 80.8 %) than Mayo III–IV (n = 28, 19.2 %). According to SSIGN score, patients in the low-risk (score2–4), intermediate-risk (score 5–7), and high-risk (score 8–11) groups were 49 (33.5 %), 76 (52.1 %), and 21 (13.4 %) respectively. At the last follow-up, 139 (95.2 %) patients were followed up for a median of 19 months (IQR 8–32). Twenty-eight (19.2 %) patients died with the mean OS of 46.82 months (median OS was not reached). The 1-year and 3-year cumulative OS rates were 90.3 % and 73.4 % respectively. Fifty-two (35.6 %) patients had disease progression with the median PFS of 37 months (IQR 22–60). The 1-year and 3-year cumulative PFS rates were 87.2 % and 50.7 % respectively.
The baseline preoperative blood parameters of the study cohort are shown in Table 2. Univariate analysis revealed that anaemia, SSIGN score, and lymph node metastasis were substantial predictors of OS. Besides, thrombocytosis, anaemia, histologic subtype, nuclear grade, lymph node metastasis, SSIGN score were significant predictors of PFS (Table 3). Stepwise multivariable analysis revealed that anemia (HR 2.873, P = 0.008) and lymph node metastasis (HR 4.811, P = 0.015) were independent prognostic factors associated with OS. Besides, thrombocytosis (HR 2.324, P = 0.011), histologic subtype (HR 2.835, P = 0.004), nuclear grade (HR 2.069, P = 0.033), lymph node metastasis (HR 5.739, P = 0.001) were independent predictors of PFS. Furthermore, anaemia and thrombocytosis were significant prognostic factors independent of the SSIGN scores to predict OS and PFS respectively (Table 4). Using the Kaplan–Meier survival analysis we found that patients with preoperative anaemia exhibited a significantly increased mortality risk than those without it. Besides, preoperative thrombocytosis was also significantly associated with an increased risk of earlier recurrence or metastasis than those without it (Fig. 2).
To investigate the improvement in predictive ability by adding anaemia and thrombocytosis to SSIGN score, we performed time-dependent ROC curves and compared the AUCs of the modified SSIGN model to the conventional SSIGN model. Figure 3 illustrates the modified SSIGN score exhibited better predictive accuracy than the conventional SSIGN in predicting 2-year (AUCs: 702 vs. 0.657), 3-year (AUCs: 721 vs. 0.627), and 4-year (AUCs: 0.750 vs. 0.716) OS. Likewise, the modified SSIGN score exhibited better predictive accuracy than the conventional SSIGN in predicting 2-year (AUCs: 0.711 vs. 0.640), 3-year (AUCs: 0.691 vs. 0.594), and 4-year (AUCs: 0.723 vs. 0.688) PFS.
Furthermore, the association between preoperative anaemia and thrombocytosis with clinicopathological characteristics is shown in Table 5. Preoperative anaemia was related to more symptom at presentation (OR 3.348, P = 0.006), longer surgical time (OR 1.005, P = 0.001), more blood loss (OR 1.000, P = 0.018), more transfusion (OR:2.734, P = 0.004), higher thrombus level (OR 4.750, P = 0.001) and higher nuclear grade (OR 3.449, P = 0.001). Moreover, patients with thrombocytosis were associated with more symptoms at presentation (OR 7.784, P = 0.007).
Discussion
In this study, from a high-volume centre, we examined the data related to 146 RCC and TT patients who underwent surgical treatment. We found that patients with preoperative anaemia had significantly adverse OS than those without it. Likewise, thrombocytosis was linked to poor PFS. In multivariable analysis, we found that preoperative anaemia and thrombocytosis were the independent worse prognostic factors even after adjusting for the other known pathologic prognostic factors and SSIGN scores. Furthermore, adding anaemia and thrombocytosis to the SSIGN score improved its predictive accuracy related to OS and PFS. To the best of our knowledge, this is the first study analysing preoperative blood parameters that specifically focused on the RCC population with TT.
Previously, anaemia has been suggested as a prognostic factor in RCC. Kim et al. retrospectively analysed data of 4260 patients that had non-metastatic RCC and found anaemia was highly associated with worse recurrence-free survival (RFS), cancer-specific survival (CSS), and overall survival (OS) [17]. Jiwei Huang et al. analysed the data of 352 papillary RCC patients and found that patients with preoperative anaemia had significantly worse RFS, CSS, and OS than those without it (P < 0.001). Multivariable analysis revealed that anaemia was an independent prognostic factor in terms of RFS, CSS, and OS (P < 0.001) [18]. Xia et al. conducted a meta-analysis and found preoperative anaemia was associated with increased all-cause mortality, cancer-specific mortality, and disease recurrence [19]. Our study found that preoperative anaemia was a predictor of worse OS and PFS. However, after controlling for pathologic features, preoperative anaemia was only independently associated with OS but not with PFS. To our knowledge, preoperative anaemia represented worse nutrition status of patients either due to long term poor consumption or blood loss, thus it could independently affect OS. In our study, anaemia exhibited a higher level of TT, higher nuclear grade, and more symptoms at presentation. We speculate that it is advanced tumour biology rather than anaemia that had a more significant impact on PFS, although this hypothesis needs to be verified externally.
Interestingly, thrombocytosis had been established as a worse prognostic predictor in various cancers, including nasopharyngeal carcinoma [20], gynecologic malignancies [21], melanoma [22], and colorectal cancer [23]. In RCC too, thrombocytosis could be regarded as a potential prognostic indicator. Several studies have shown that patients with preoperative thrombocytosis had worse survival than those without it [24,25,26]. Although none of the studies linked thrombocytosis to worse prognosis in RCC population with TT, a study found that bland thrombus in RCC with TT is linked to adverse survival [27]. Data from our study suggest that patients with thrombocytosis had an increased risk of recurrence or metastasis than those without it. Also, we found that thrombocytosis is an independent prognostic factor of PFS. Notably, the previous notion that platelets were mainly involved in limiting blood loss and promoting wound healing has been changed with recent preclinical and clinical findings. Studies now show that platelets can also promote tumorigenesis and metastasis through a crosstalk with cancer cells[28]. This rationalize preoperative thrombocytosis link to post-surgery higher risk of recurrence or metastasis. Therefore, we suggest that in cases of preoperative thrombocytosis, a follow-up plan should be closely monitored in populations with RCC and TT.
Nowadays many established prognostic models have been established to predict prognosis in patients with RCC [3]. Several clinicopathological features such as symptom at presentation, TNM stage, Fuhrman grade, and necrosis were regarded as prognostic factors in the current model [15]. To our knowledge, anaemia and thrombocytosis have already been added to the IMDC model to predict prognosis in patients with metastatic RCC [29]. Concerning nonmetastatic RCC, none of the models have included blood parameters. Since our study found that preoperative anaemia and thrombocytosis could serve as potential biomarkers predicting prognosis in patients with RCC and TT, we added these two factors to the SSIGN score and improved its predictive accuracy related to 2-year, 3-year, and 4-year OS and PFS. Thus, we propose that both anaemia and thrombocytosis should not be ignored as prognostic factors of worse survival in these patients.
Several factors such as NLR, PLR, AST/ALT, and ALB have shown their prognostic value in local and metastatic RCC [8,9,10, 30]. However, these blood parameters were not associated with prognosis in our study cohort. Previous studies demonstrated that these parameters reflected personal inflammatory conditions. To our knowledge, in patients with RCC and TT, the tumour thrombus was directly in contact with circulating blood. Thus, we speculated that the inflammatory condition was more complex in these unique populations and could not thoroughly be revealed by these inflammatory indices. Notably, Peyton et al. [9] also found that in patients with metastatic RCC and TT, NLR > 4 was associated with worse survival. We think that an insufficient number of patients included in our study could be another reason to not find any statistical differences in these factors.
Nevertheless, this retrospective study had several limitations. Firstly, as mentioned above, the insufficient number of patients, short follow-up time, and insufficient outcome events could have limited the study of several blood parameters. Therefore, future studies are needed to externally validate the proposed risk factors in a large prospective cohort. Secondly, we did not have access to data related to concomitant drugs, which could have influenced blood counts (e.g., steroids). Thirdly, our research is a single-institutional retrospective review, which inherently had missing data and confounding bias that were beyond our control. Despite these limitations, these findings are significant as this is the only study to date that specifically focused on the impact of preoperative blood parameters in RCC patients with TT.
Conclusions
Both preoperative anaemia and thrombocytosis are the important independent prognostic factors in RCC patients with TT. We found that anaemia is associated with an increased risk of mortality while thrombocytosis is linked to a higher risk of earlier recurrence or metastasis. Furthermore, both preoperative anaemia and thrombocytosis could be clinically useful for risk stratifying patients undergoing surgery for non-metastatic RCC with TT.
Availability of data and materials
The datasets used and/or analysed during the current study are available.
Abbreviations
- RCC:
-
Renal cell carcinoma
- TT:
-
Tumour thrombus
- SCR:
-
Serum creatinine
- ALB:
-
Albumin
- HGB:
-
Haemoglobin
- NLR:
-
Neutrophil-lymphocyte ratio
- PLR:
-
Platelet lymphocyte ratio
- NEU:
-
Neutrophil count
- PLT:
-
Platelet count
- LYM:
-
Lymphocyte count
- SCa:
-
Serum calcium
- ALP:
-
Alkaline phosphatase
- BMI:
-
Body mass index
- ASA:
-
American Society of Anesthesiologists score
- OS:
-
Overall survival
- PFS:
-
Progression-free survival
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RX collected and analysed the data and wrote the manuscript. CX, WH, LL, HZ made substantial contributions planning this work. LM and CL substantially revised the work and manuscript. All authors have read and approved the manuscript.
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The study was approved by the Peking University Third Hospital Medical Science Research Ethics Committee. All the procedures were performed as per the Declaration of Helsinki and relevant policies in China. Due to the retrospective nature of the study, patient consent was waived.
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Xiao, R., Xu, C., He, W. et al. Preoperative anaemia and thrombocytosis predict adverse prognosis in non‐metastatic renal cell carcinoma with tumour thrombus. BMC Urol 21, 31 (2021). https://doi.org/10.1186/s12894-021-00796-6
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DOI: https://doi.org/10.1186/s12894-021-00796-6