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Original Research

High C-reactive protein/albumin ratio predicts unfavorable distant metastasis-free survival in nasopharyngeal carcinoma: a propensity score-matched analysis

, , &
Pages 371-381 | Published online: 21 Feb 2018

Abstract

Background

Recent studies have indicated that the C-reactive protein/albumin (CRP/ALB) ratio (CAR) may represent a simple inflammation-based index for assessing the host inflammatory response. In this study, the prognostic value of the CAR for distant metastasis-free survival (DMFS) in nasopharyngeal carcinoma (NPC) was assessed.

Methods

A total of 1,168 non-metastatic NPC patients from Sun Yat-sen University Cancer Center were retrospectively included. The optimal cutoff value for CAR was defined by the Cutoff Finder online tool. Propensity case-matched analysis was performed to adjust for potential differences in baseline characteristics. Subsequently, the prognostic value of the CAR for DMFS was validated in a 756 validation cohort with NPC.

Results

The optimal CAR cutoff value was 0.081. Patients with high CAR values had significantly poorer DMFS than those with low CAR in univariate and multivariate analyses before propensity score matching. The CAR could also significantly stratify patients into different risks of developing distant metastasis in subgroup analysis. Propensity score analyses showed that CAR remained a prognostic factor for DMFS, thus excluding other interpretations and selection bias. Moreover, the prognostic value of the CAR was robustly confirmed in the external validation cohort.

Conclusion

CAR is an inexpensive and easy-to-measure inflammatory index that may aid clinicians in the development of individualized treatment and follow-up strategies for patients with non-metastatic NPC.

Introduction

Nasopharyngeal carcinoma (NPC) is a malignant head and neck cancer with a unique ethnic and geographical distribution; the annual incidence of NPC is as high as 30–80 cases per 10,000 in the southern part of China, Southeast Asia.Citation1 The NPC has many sole characteristics to distinguish itself from other head and neck carcinoma. The prominent histological type of NPC is the non-keratinizing carcinoma, which also has association with the Epstein–Barr virus (EBV). Definitive radiotherapy (RT) is recommended as the first-line treatment for non-metastatic NPC due to its higher sensitivity to RT.Citation2 The NPC has higher possibility of distant metastasis, and >20% of NPC patients ultimately develop distant metastasis even after definitive chemoradiotherapy.Citation3 Hence, distant metastasis remains a burning problem to be resolved and a leading cause of death among patients with NPC, especially advanced NPC.Citation4

The widely used prognostic instrument for stratification and therapeutic decision making in NPC is the tumor node metastasis (TNM) staging classification system.Citation5 Various studies tried to discover supplementary molecular biomarkers to the TNM staging to more precisely predict the behavior of NPC to better make a stratification of the NPC prognosis.Citation5,Citation6

In recent years, a renaissance of the inflammation–cancer connection has occurred, stemming from different lines of work carried out since the 19th century when it was first perceived that cancer is linked to inflammation.Citation7 There is increasing evidence to demonstrate that inflammation, both in the tumor microenvironment and systemic circulation, is a key determinant of disease progression and survival in patients with cancer. It has been suggested that cancer-related inflammation is linked to 15–20% of all cancer-related deaths worldwide, and inflammation has been proposed as the seventh hallmark of cancer.Citation8,Citation9 C-Reactive protein (CRP) is a non-specific, acute phase marker of inflammation that has been associated with poorer survival in numerous solid malignancies, such as hepatocellular, colorectal, inoperable non-small-cell lung and breast cancers.Citation10Citation12 CRPs are directly associated with circulating concentrations of vascular endothelial growth factor, contributing to the onset or progression of cancer.Citation13 Albumin (ALB) is also an important serum protein that reflects the patients’ nutritional status. Hypoalbuminemia, an index of malnutrition and cachexia, is an independent predictor of poor survival in several types of cancers, including NPC.Citation14,Citation15

Systemic inflammatory response assessment has been defined by a continuous variable based on CRP and ALB, the CRP/ALB ratio (CAR), which has prognostic value for mortality in patients with sepsis and is associated with survival outcomes in hepatocellular carcinoma, esophageal squamous cell carcinoma and non-small-cell lung cancer.Citation11,Citation12,Citation16 Mocellin et al also demonstrated that the CAR could be decreased by dietary supplementation with fish oil in patients with colorectal cancer, which was associated with the prevention of weight loss. However, the prognostic significance of the CAR in NPC has not been studied.

It was hypothesized that immune status, which can be assessed using the CAR, may be associated with distant metastasis-free survival (DMFS) in patients with NPC. Then, the propensity score-matched (PSM) analysis was designed to further validate the CAR prognosis value for DMFS in patients with initially diagnosed NPC.

Patients and methods

Training cohort

A total of 1,168 eligible patients with NPC treated at Sun Yat-sen University Cancer Center between October 2007 and December 2009 were retrospectively enrolled. The pre-treatment evaluation included a complete patient history, physical examinations, hematology and biochemistry profiles, magnetic resonance imaging (MRI) of the nasopharynx and neck, chest X-ray, an abdominal sonogram, and a whole-body bone scan. The newly diagnosed, biopsy-proven NPC patients without previous anticancer treatment and pathologically proved NPC were included. The patients with distant metastasis or relapsed NPC at initial diagnosis and patients without complete follow-up data were excluded. The study protocol was conducted based on the guidelines outlined in the Declaration of Helsinki, and the study was approved by the ethics committee of Sun Yat-sen University Cancer Center. Written informed consent was obtained from all patients to review their records before the treatment.

All relevant data regarding this study were successfully collected before the treatment, including the personal information and the laboratory (routine blood index), staging (the American Joint Committee on Cancer/International Union for Cancer Control TNM staging system) and therapeutic data. Briefly, serum ALB levels were measured by the bromocresol green (BCG) assay (Sekisui Chemical, Osaka, Japan) according to the manufacturer’s instruction. CRP levels were measured by a latex particle-enhanced immunoturbidimetric assay (Sekisui Chemical) according to the manufacturer’s instruction.

Treatment

All patients were treated by definitive RT. The radiation dose ranges to the nasopharynx, lymph node-positive area and lymph node-negative area were 60–80, 60–70 and 50–60 Gy, respectively. In addition, the institutional guidelines recommended no chemotherapy for stage I and II patients and induction, concurrent and adjuvant chemotherapy or combination treatment for stage III and IV patients. Induction or adjuvant chemotherapy incorporates cisplatin with 5-fluorouracil, cisplatin with taxoids or triplet of cisplatin and 5-fluorouracil plus paclitaxel per 3 weeks for 2–3 cycles. Concurrent chemotherapy includes cisplatin given on weeks 1, 4 and 7 of RT or cisplatin given weekly.

Validation cohort

A validation cohort of 756 consecutive patients with NPC who received definitive RT at the Sun Yat-sen University between December 2009 and May 2011 was retrospectively enrolled. Only patients without distant metastasis at initial diagnosis were included; all patients had sufficient data available to assess the prognostic value of the CAR.

Follow-up

Patients were followed up every 3 months during the first 2 years and every 6 months thereafter until death. The routine assessment for the distant metastasis includes the nasopharyngoscopy, head and neck MRI, abdominal ultrasonography, chest X-rays and/or CT and bone scans per 3 months after the completion of the treatment during the first 3 years and annually thereafter. DMFS was the period from the treatment completion to the time of metastasis or the date of the last follow-up. The last follow-up was on March 30, 2016.

Statistical analysis

Comparisons between the high CAR and the low CAR were performed using the chi-square test or Fisher’s exact test for categorical variables. Continuous variables were converted into dichotomous variables at median value.

An optimal CAR cutoff level was selected using the web-based system Cutoff Finder, which was designed by Budczies et alCitation17 (http://molpath.charite.de/cutoff/). The R statistical language acts as an engine for all statistical computing and visualization.Citation18 The R file is loaded as a static source to the R server. For each cutoff analysis, the web application calls the wrapper R function get.cutoff() that serves as a controller. The controller calls specialized R functions for each kind of cutoff optimization and for each kind of plot. Results of the cutoff optimization and plots are returned to the web server. Using the R code, results and plots of the web page can be reproduced 100%. DMFS curves were created using the Kaplan–Meier method and compared using the log-rank test. The Cox regression analysis was conducted to assess the prognostic significance of CAR to DMFS; significant level of <0.2 in the univariate Cox regression analysis was included into the multivariate analysis. To further evaluate the CAR significance to DMFS, the subgroups were applied. The subgroups were divided based on the significant factors in univariate analysis.

To overcome biases introduced by potential varied confounders between the low and high CAR values, PSM was carried out using version 2.9.0R software (R software, Vienna, Austria) via one-to-one matching using MathIt package, which is becoming increasingly used in the medical and surgical literature.Citation19Citation21 The variables incorporated into the propensity matching were the variables correlated with the index of CAR and significant variables in the multivariate Cox regression of DMFS, in order to not miss the important prognostic factors.

Finally, the prognostic value of CAR was verified in the external validation cohort. The SPSS 19.0 for Windows (IBM Corporation, Armonk, NY, USA) was used for the statistical analyses. Two-sided P values < 0.05 were considered significant. All data have been deposited at Sun Yat-sen University Cancer Center for future reference (number RDDA2017000365).

Results

Patients’ characteristics and DMFS

A total of 1,168 and 756 patients were included in the training and the validation cohort for these analyses. Median DMFS follow-up was 68.8 months in the training data set and 60.25 months in the validation data set. Five-year DMFS in the training data set and validation data set was 85.6% and 83.5%, respectively. The patient characteristics are summarized in .

Table 1 Clinical and laboratory characteristics of the patients in the training set and validation set

Prognostic value of CAR for DMFS in the 1,168 patients with NPC and the external cohort who underwent definitive RT

The median value of CAR in both the training database and external database was 0.032. The optimal cutoff value was found to be 0.081 using the Cutoff Finder, which produces the greatest distinction of the DMFS in Kaplan–Meier analysis (). CAR was prominently associated with gender, smoking status, white blood cell (WBC), neutrophils, alkaline phosphatase (ALP), lactate dehydrogenase (LDH), EBV-DNA, T and N classification in the training cohort by the chi-square test ().

Table 2 Associations between CAR and clinicopathological features before and after propensity score matching

Figure 1 Hazard ratios (HRs) for distant metastasis-free survival (DMFS) for various cutoff points of the C-reactive protein/albumin (CRP/ALB) ratio (CAR) in patients with nasopharyngeal carcinoma.

Notes: The value of X-axis represented all the possible values of CAR in our patient population. The Y-axis represents HRs. From the left to right of the X-axis, all the possible CAR values were tested as a cutoff for discrimination of DMFS and the corresponding HR and its 95% confidence interval (CI) were calculated and plotted (two dashed lines represent upper and lower limits of 95% CIs, respectively, and the solid line between the two dashed lines represents HR). The vertical line designates the optimal cutoff point with the most significant split (log-rank test). The plots were generated using Cutoff Finder.

Figure 1 Hazard ratios (HRs) for distant metastasis-free survival (DMFS) for various cutoff points of the C-reactive protein/albumin (CRP/ALB) ratio (CAR) in patients with nasopharyngeal carcinoma.Notes: The value of X-axis represented all the possible values of CAR in our patient population. The Y-axis represents HRs. From the left to right of the X-axis, all the possible CAR values were tested as a cutoff for discrimination of DMFS and the corresponding HR and its 95% confidence interval (CI) were calculated and plotted (two dashed lines represent upper and lower limits of 95% CIs, respectively, and the solid line between the two dashed lines represents HR). The vertical line designates the optimal cutoff point with the most significant split (log-rank test). The plots were generated using Cutoff Finder.

The CAR had the ability to distinguish between patients who developed distant metastasis in the training cohort (P < 0.001) and external cohort (P = 0.021; , respectively). In the multivariate analysis, the DMFS rates of patients with low and high CAR values remained significantly different (P < 0.001). In the training cohort, smoking status (P = 0.031), basal serum LDH level (P = 0.026), EBV-DNA copy number (P = 0.001), N category (P < 0.001), treatment method (P < 0.040) and RT technique (P = 0.004) were identified as significantly independent prognostic factors related to DMFS (). In addition, the prognostic value of CAR also exists in different subgroups ().

Table 3 Univariate and multivariate analyses of associations between CAR and DMFS before propensity score matching in the training cohort

Figure 2 Prognostic value of the C-reactive protein/albumin ratio (CAR) for distant metastasis-free survival (DMFS) in the training cohort before matching (A), the validation cohort (B) and training cohort after 1:1 ratio matching (C).

Figure 2 Prognostic value of the C-reactive protein/albumin ratio (CAR) for distant metastasis-free survival (DMFS) in the training cohort before matching (A), the validation cohort (B) and training cohort after 1:1 ratio matching (C).

Figure 3 Forest plot of subgroup analysis showing hazard ratios (HRs) and 95% CI (bars) for DMFS in 1,168 patients with nasopharyngeal carcinoma who underwent definitive radiotherapy.

Note: Subgroups were defined by factors showing significant associations with the C-reactive protein/albumin ratio (CAR) and DMFS.

Abbreviations: 3DCRT, three-dimensional conformal radiation therapy; ALB, albumin; ALP, alkaline phosphatase; ALT, alanine transaminase; AST, aspartate transaminase; CAR, CRP/ALB ratio; CI, confidence interval; CRP, C-reactive protein; CRT, conventional radiotherapy; chemo-radiotherapy, chemotherapy plus radiotherapy; DMFS, distant metastasis-free survival; EBV-DNA, Epstein–Barr virus DNA; GLB, globulin; HGB, hemoglobin; IMRT, intensity-modulated radiation therapy; LDH, lactate dehydrogenase; RT, radiotherapy; WBC, white blood cell.

Figure 3 Forest plot of subgroup analysis showing hazard ratios (HRs) and 95% CI (bars) for DMFS in 1,168 patients with nasopharyngeal carcinoma who underwent definitive radiotherapy.Note: Subgroups were defined by factors showing significant associations with the C-reactive protein/albumin ratio (CAR) and DMFS.Abbreviations: 3DCRT, three-dimensional conformal radiation therapy; ALB, albumin; ALP, alkaline phosphatase; ALT, alanine transaminase; AST, aspartate transaminase; CAR, CRP/ALB ratio; CI, confidence interval; CRP, C-reactive protein; CRT, conventional radiotherapy; chemo-radiotherapy, chemotherapy plus radiotherapy; DMFS, distant metastasis-free survival; EBV-DNA, Epstein–Barr virus DNA; GLB, globulin; HGB, hemoglobin; IMRT, intensity-modulated radiation therapy; LDH, lactate dehydrogenase; RT, radiotherapy; WBC, white blood cell.

PSM analysis

PSM yielded a total of 286 matched pairs of patients from the training cohort. The matched covariables include gender, smoking status, WBC, ALP, LDH, T staging, N category, EBV-DNA copy number, RT technique and treatment methods. After propensity matching, the distribution of confounding variables was remarkably balanced between the high and low CAR groups, with no significant difference in any clinicopathological factors (), indicating improved overall balance after matching.

CAR also had the ability to distinguish patients who developed distant metastasis after propensity matching by the log-rank test (P < 0.001, ). Univariate analysis showed that the risk of distant metastasis was greater for the high CAR group than the low CAR group (P < 0.001). Gender (P = 0.030), LDH level (P = 0.047), EBV-DNA copy number (P = 0.007) and N category (P < 0.001) were also significantly associated with DMFS in univariate analysis ().

Table 4 Univariate and multivariate analyses of associations between CAR and DMFS after 1:1 ratio propensity score matching in the training cohort

Multivariate analysis revealed that the CAR remained an independent prognostic factor for DMFS after the propensity score matching within the training cohort (P = 0.001). Compared to the low CAR group (<0.081), the high CAR group (≥0.081) had a 1.896-times higher risk of distant metastasis (hazard ratio [HR], 1.896; 95% confidence interval [CI], 1.302–2.763; P < 0.001). N category (P < 0.001) and gender (P = 0.014) were also independent prognostic factors for DMFS after the propensity score matching ().

Discussion

As far as we are aware, this is the first assessment of the prognostic value of the CAR with respect to DMFS in patients initially diagnosed with NPC by the PSM method. The CAR was a significant prognostic factor for DMFS, even in subgroup analysis and after PSM analysis, thus the CAR may be a potential novel biomarker for tailored therapy in NPC.

Accumulating evidence indicates that inflammation can facilitate the growth, invasion, metastasis and angiogenesis of cancer cells through inflammatory factors, including acute phase proteins such as CRP, chemokines, cytokines such as interleukin 6 (IL-6), transcription factors such as NF-κB and circulating and infiltrating immune cells derived from the systemic immune reaction to tumor cells or their secretions.Citation10,Citation22Citation25 Among various markers of inflammation, CRP is a non-specific acute-phase reactant regulated by pro-inflammatory cytokines, in particular IL-6 and has also been proved to be associated with inferior survival of numerous malignancies.Citation23,Citation26 An elevated CRP concentration has recently been shown to be inversely associated with T-lymphocyte subset infiltration and an impaired T-lymphocytic response, subverting the host immune response, promoting resistance to cytotoxic drugs and then contributing to a poor survival outcome.Citation27 Malnutrition may promote tumor growth and metastasis by damaging the immune system and alter tumor cell biology in the tumor microenvironment.Citation15,Citation28 ALB is an important serum protein that reflects the patients’ nutritional status and was recently recommended as an objective prognostic factor for poorer survival in various types of cancers including NPC, and ALB is the most clinically used index to value the nutritional status of the patients.Citation29 It has been been speculated that higher ALB level could strengthen the human defense mechanism including the cellar immunity, humoral immunity, and cell phagocytic function and be the mechanism of malnutrition prognosis.Citation30Citation32 The enhanced immunology could also boost susceptibility to infection and further reduce the adverse reaction to treatment.Citation30 There are also studies that suggest that the higher ALB could weaken the cell growth rate and DNA replication and stabilize the routine biochemical index changes, such as calcium level.Citation41,Citation42 Moreover, the stable sex hormone level contributes to defense against sex hormone-related cancers. The antioxidant effect is another attribute against carcinogens, including nitrosamine and aflatoxin.Citation30,Citation32

Moreover, the presence of a systemic inflammatory response, as indicated by an elevated CRP level and hypoalbuminemia, accompanies progressive loss of weight and lean tissue, resulting in poor performance status and higher rate of mortality in patients with cancer.Citation12,Citation33 As a single factor alone may not accurately predict prognosis, inflammatory indexes that combine CRP and serum ALB, such as the CAR, may have more significant prognostic value. Ranzani et alCitation34 first proposed the concept of CAR and demonstrated its value for mortality of septic patients. Moreover, CRP and ALB are sensitive and reliable immunonutritional markers that can be conveniently assessed in clinical laboratories using standardized parameters.

Glasgow prognostic score or modified Glasgow prognostic score indexes which combine serum CRP and ALB levels have also been viewed as prognostic factors of NPC.Citation32 However, the modified Glasgow prognostic score is a qualitative index, and the majority of initially diagnosed NPC patients have good performance and nutritional status. Therefore, the diagnosis of hypoalbuminemia before treatment restricts the application of this index. By contrast, the CAR is a continuous variable, which could reduce the potential for systemic inflammation and nutritional status overestimation or underestimation and more precisely stratify patient’s survival.

In this study, univariate analysis showed that an elevated CAR (≥0.081) was associated with poorer DMFS in stages I–III NPC. Additionally, the binary valuable CAR was prominently related to other inflammatory factors such as WBC, ALP and LDH, indicating that the CAR may also carry their prognostic value, thus bringing in the potential prognostic interference. Then, PSM analysis is used, a tool used to adjust a group effect for measured confounders in non-randomized studies and to avoid confounding bias. The CAR was independently associated with DMFS in multivariate analysis. Moreover, subgroup analysis confirmed the CAR prognostic guidance value for DMFS in non-metastasis NPC. Therefore, these results demonstrate that high CAR, a chronic systemic index reflecting malnutrition and inflammatory state, is a poorer survival index in NPC. Therefore, our results indicate that the CAR may emphasize the CAR significance for DMFS in NPC.

Intriguingly, non-steroidal anti-inflammatory agents have been reported to reduce mortality in several tumor types.Citation35 Regulation of the immune system is a novel target that has been proposed as a method of improving the treatment of cancer, and the CAR may represent a useful indicator of the immune response and enhance the effectiveness of such strategies. It is possible that nutritional therapy, such as the administration of branched-chain amino acid-enriched nutrient support, may improve the CAR and therefore potentially affect the rate of DMFS in patients with NPC.Citation36

The suitable cutoff value of the CRP/ALB is different in different studies, even in the same tumor type. In the two studies of NPC, the cutoff values were different. In the study by Sun et al,Citation37 the cutoff was set to be 0.189, which was slightly higher than that in the study by Tao et alCitation38 (0.141), owing to the different methods and/or different patients enrolled in the study. In our study, a more novel and reliable method was used and a cutoff value was determined to be 0.089, which is similar to that of the study by Zhang et al.Citation39 The prognostic significance was also validated in an external cohort of 756 patients.

The limitations of this study should be acknowledged. This was a retrospective study and a selection bias may exist. However, we enrolled a relatively large training cohort (1,168 patients) to evaluate the value of CAR for DMFS. Additionally, the PSM was also conducted to reduce the potential confounders, and the prognostic value of the CAR was also validated in the validation cohort (756 patients). However, additional assessment of patients from other centers and prospective data sets is necessary. CRP is a sensitive cancer marker but lacks specificity and other non-cancerous influences were not excluded (infections, surgery, and connective tissue disease). However, the limitation were overcome, since the routine blood index was collected before treatment.

Conclusion

This study indicates that the CAR represents a potential prognostic factor to more accurately predict patient outcomes in NPC. Quantification of the CAR before treatment could complement current staging methods to improve disease staging and treatment allocation.

Availability of data and material

Raw data was deposited in the Research Data Deposit system, RDDA2017000365 (http://www.researchdata.org.cn) of Sun Yat-sen University Cancer and can be obtained from the corresponding authors on reasonable request.

Author contributions

WY, XLP, and CY designed the overall project. WY analyzed the data and wrote the manuscript. YL collected and analyzed the data. XLP and CY performed the research. All authors contributed toward data analysis, drafting and critically revising the paper, and agree to be accountable for all aspects of the work.

Disclosure

The authors report no conflicts of interest in this work.

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