Summary

METHODS
Patients identified with brain metastases during diagnosis or therapy and who subsequently underwent radiation therapy were included in the study. Patient characteristics, laboratory parameters, pathologic subtype, disease stage, treatment modalities, and outcome following treatment were recorded, and the patients" PFS and OS were calculated.

RESULTS
Univariate analysis revealed neutrophil, low-density lipoprotein (LDL), neutrophil-to-lymphocyte ratio (NLR), and C-reactive protein levels to be significantly different between groups according to brain metastases. In a subgroup analysis based on cancer subtypes, LDL and lymphocyte levels were found to be significantly different in squamous cancer, while LDL was different in the undifferentiated subtype. OS was different in the NLR low and high groups, favoring the NLR low group (p=0.015; OS: 12 vs. 9 months), and the monocyte/lymphocyte ratio was significant in terms of OS favoring the low group with a cutoff value of 0.56 (p=0.002; OS: 13 vs. 9 months).

CONCLUSION
Our study identified differences in the inflammatory and lipid profiles of LC patients in terms of brain metastases and survival. Other than the literature, LDL levels were different among groups and may be considered a valid subject for future study.

Introduction

Nearly, a quarter of all NSCLC patients are diagnosed at a locally advanced stage (stage III) and have a poor prognosis.[7] There are two treatment choices available for this condition: Induction chemotherapy followed by surgery, or concurrent chemoradiation therapy.[8,9] Even with advanced surgical techniques and post-operative consolidation chemotherapies, local recurrence rates are 20-40%.[10] Most of the remaining patients are diagnosed in the metastatic stage, resulting in palliative chemotherapy or radiation therapy.[7]

The previous studies have described inflammationinduced cancer progression leading to cancer cell proliferation and angiogenesis.[11] Accordingly, multiple blood inflammation markers are evaluated in different cancer types and stages that include neutrophils, lymphocytes, thrombocytes, and lipid and protein profiles, although the utility of these parameters is controversial. [12-15] Changing blood lipid levels have been identified as a risk factor for LC, and patients with LC tend to have low levels of low-density lipoprotein (LDL), HDL, and total cholesterol, while high triglyceride levels have been observed in blood samples.[15,16] Changes in blood lipid levels during therapy are considered to be an indicator of prognosis.[17,18]

The systemic inflammatory response in many solid tumors plays an essential role in development and progression.[19] A number of approaches to the measurement of systemic inflammation have been established, such as platelet-to-lymphocyte ratio (PLR), prognostic nutritional index (PNI), and neutrophil-to-lymphocyte ratio (NLR), and these parameters have been shown to be correlated with a poor prognosis in a variety of cancers, including NSCLC.[20-24]

Several hypotheses have been put forward to explain the relationship between prognosis and lymphocyte count. Lymphocytes are essential components of the immune system, being both controllers and effectors in response to tumor progression.[25] Low lymphocyte counts have been linked to decreased survival in cancer patients.[26-28] The systemic inflammatory response seen in many solid tumors plays an essential role in development and progression.[19] Several approaches to the measurement of systemic inflammation have been established, such as PLR, PNI, and NLR, and these parameters have been reported to be correlated with poor prognosis in a variety of cancers, including NSCLC.[20-24]

In the present study, we evaluate the effect of blood parameters on brain metastasis in LC.

Methods

Ethics
Approval for the study was granted by the Eskişehir Osmangazi University Faculty of Medicine Institutional Board (March 02, 2021, dated and 06 numbered), and the study was carried out in accordance with the principles set out in the Declaration of Helsinki and all applicable regulations.

Statistical Analysis
IBM SPSS Statistics (Version 22.0. Armonk, NY: IBM Corp.) was used for the statistical analysis in the study. A Kolmogorov?Smirnov test was used to determine whether the data conformed to a normal distribution. Descriptive data were presented as either mean or median for continuous variables, while frequencies and percentages were reported for categorical variables. A Pearson X² test was used to assess the associations between categorical variables; OS and PFS curves were estimated using the Kaplan-Meier product-limit method; and a ROC analysis was performed to determine the optimal value.

Results

Table 1: The characteristics of the study population

Table 2: The comparison of the patient characteristics according to brain metastases

There was no optimal cutoff due to ROC analyses among groups. Median values were determined as cutoff, and groups were splitted due to these terms. The OS differed between the NLR low and high groups, favoring the NLR low group (p=0.015; OS: 12 vs. 9 months) (Fig. 1), while the monocyte/lymphocyte ratio was significant in terms of OS favoring the low group with a cutoff value of 0.56. (p=0.002; OS: 13 vs. 9 months) (Fig. 2). NLR has still had the prognostic effect in patients stratified according to brain metastases (p=004). The stage and performance status differed in terms of OS (p<0.001, p<0.001). In a multivariate analysis, no prognostic factor for OS was determined aside from performance status (p<0.001).

Fig. 1: Kaplan-Meier curves of patients according to neutrophil-to-lymphocyte ratio groups in general population.
NLR: Neutrophil-to-lymphocyte ratio.

Fig. 2: Kaplan-Meier curves of patients according to monocyte/lymphocyte ratio group in general population.

Lipid parameters were tested for correlation with inflammatory markers, revealing a significant inverse correlation between HDL and CRP (p<0.001, r: -0.28). A significant difference was noted in lymphocyte levels in the patients who had an initial brain metastasis at the time of diagnosis and late developers (p=0.02), and OS was also different for this group favoring late developers (p<0.001).

Discussion

The SCLC metastasis site was found to influence mortality, and liver, bone, and brain metastasis decreased the duration of survival in this group.[29] In addition, high NLR values were reported to be related to early recurrences and reduced survival.[30] NLR values higher than 2.5 were found to be associated with decreased PFS in cancer patients.[31] A large-scale study determined a link between NLR>5 and poor prognosis in SCLC patients.[32] In another study, NLR was found significantly higher in the metastatic group. [33] In our research, NLR played a role in predicting brain metastasis and survival, concurring with the previous studies in the literature.

In patients with NSCLC, brain metastasis is associated with a decreased quality of life and survival. Multiple factors facilitate brain metastasis, one such factor being local and systemic immunosuppression.[34] The alterations in PD-1 expression lymphocytes have been shown to be a factor in the development of brain metastasis.[35] In another study, immune cells were found to be correlated with PS, decreased brain, and distant metastasis in EGFR mutant NSCLC.[36] The mechanisms of anti-cancer response with lymphocytes and the re-modeling effect of monocytes facilitate cancer proliferation and invasion, as demonstrated in the previous studies.[37,38] Although our study showed no difference in the effect of the monocyte?lymphocyte ratio on brain metastasis, a prognostic effect of monocyte- lymphocyte ratio OS was identified.

A previous study reported that Vitamin E levels alter the lipid profiles of cancer patients and increase oxidative stress, leading to cancer growth,[39] and other experimental studies support this suggestion. Alfa-tocopherol has been shown to play a therapeutic role under such circumstances.[40,41] Hyperlipidemia has been shown to be an adverse prognostic factor in stomach and prostate cancers, while studies of LC in this regard are limited. [30,31,42,43] Although all cholesterol types are reported to be lower in LC patients than in healthy controls, only HDL has been shown to have a prognostic effect. Low HDL levels are thought to be related to increased inflammatory cytokines such as CRP,[15] and this is supported by the present study. In contrast to other literature, however, our study revealed a significant between-group difference in LDL in brain metastasis.

Limitations
The retrospective nature of this study decreased the data quality. Furthermore, some of the patients had brain metastases at the time of diagnosis, which was confusing for the mechanisms behind the metastatic process. Although most of the patients were treated for brain metastasis, five patients did not undergo RT.

Conclusion

Peer-review: Externally peer-reviewed.

Conflict of Interest: All authors declared no conflict of interest.

Ethics Committee Approval: The study was approved by the Eskişehir Osmangazi University Non-Interventional Clinical Research Ethics Committee (no: 06, date: 02/03/2021).

Financial Support: None declared.

Authorship contributions: Concept - F.T., İ.B., A.U.; Design - A.U.; Supervision - F.T., İ.B.; Funding - F.T., İ.B.; Materials - İ.B.; Data collection and/or processing - F.T., İ.B., A.U.; Data analysis and/or interpretation - F.T., İ.B.; Literature search - F.T.; Writing - F.T., İ.B.; Critical review - F.T., İ.B., A.U.

References

1) Siegel RL, Miller KD, Jemal A. Cancer statistics, 2015. CA Cancer J Clin 2015;65:5-29.

2) Chen P, Wang C, Cheng B, Nesa EU, Liu Y, Jia Y, et al. Plasma fibrinogen and serum albumin levels (FA score) act as a promising prognostic indicator in non-small cell lung cancer. Onco Targets Ther 2017;10:3107?18.

3) Zeng Q, Xue N, Dai D, Xing S, He X, Li S, et al. A Nomogram based on inflammatory factors c-reactive protein and fibrinogen to predict the prognostic value in patients with resected non-small cell lung cancer. J Cancer 2017;8:744-53.

4) Candido J, Hagemann T. Cancer-related inflammation. J Clin Immunol 2013;33:79-84.

5) Sapienza C, Issa JP. Diet, nutrition, and cancer epigenetics. Annu Rev Nutr 2016;36:665-81.

6) Sozel H, Beypinar I SG. Prognostic impact of prognostic nutritional index and neutrophil/lymphocyte ratio in patients with small-cell lung cancer. Eurasian J Medicial Investig 2021;5:207-12.

7) Stinchcombe TE, Zhang Y, Vokes EE, Schiller JH, Bradley JD, Kelly K, et al. Pooled analysis of individual patient data on concurrent chemoradiotherapy for stage III non-small-cell lung cancer in elderly patients compared with younger patients who participated in US national cancer institute cooperative group studies. J Clin Oncol 2017;35:2885-92.

8) Antoni D, Mornex F. Chemoradiotherapy of locally advanced nonsmall cell lung cancer: State of the art and perspectives. Curr Opin Oncol 2016;28(2):104-9.

9) Pless M, Stupp R, Ris HB, Stahel RA, Weder W, Thierstein S, et al. Induction chemoradiation in stage IIIA/ N2 non-small-cell lung cancer: A phase 3 randomised trial. Lancet England 2015;386:1049?56.

10) Feng W, Fu XL, Cai XW, Yang HJ, Wu KL, Fan M, et al. Patterns of local-regional failure in completely resected stage IIIA(N2) non-small cell lung cancer cases: Implications for postoperative radiation therapy clinical target volume design. Int J Radiat Oncol Biol Phys 2014;88:1100?7.

11) Mantovani A, Allavena P, Sica A, Balkwill F. Cancerrelated inflammation. Nature 2008;454(7203):436-44.

12) Walsh SR, Cook EJ, Goulder F, Justin TA, Keeling NJ. Neutrophil-lymphocyte ratio as a prognostic factor in colorectal cancer. J Surg Oncol 2005;91:181?4.

13) Ceylan C, Camtosun A, Doluoglu OG, Tasdemir S, Keles I, Aglamis E, et al. Emphasis of neutrophil-tolymphocyte ratio in non-metastatic renal cell carcinoma. Urologia 2014;81(1):51-6.

14) Unal D, Eroglu C, Kurtul N, Oguz A, Tasdemir A. Are neutrophil/lymphocyte and platelet/lymphocyte rates in patients with non-small cell lung cancer associated with treatment response and prognosis? Asian Pacific J Cancer Prev 2013;14:5237-42.

15) Chi PD, Liu W, Chen H, Zhang JP, Lin Y, Zheng X, et al. High-density lipoprotein cholesterol is a favorable prognostic factor and negatively correlated with C-reactive protein level in non-small cell lung carcinoma. PLoS One 2014;9(3):e91080.

16) Lin X, Lu L, Liu L, Wei S, He Y, Chang J, et al. Blood lipids profile and lung cancer risk in a meta-analysis of prospective cohort studies. J Clin Lipidol 2017;11:1073-81.

17) Karabacak M, Varol E, Kahraman F, Ozaydin M, Türkdogan AK, Ersoy IH. Low high-density lipoprotein cholesterol is characterized by elevated oxidative stress. Angiology 2014;65:927-31.

18) Zhou T, Zhan J, Fang W, Zhao Y, Yang Y, Hou X, et al. Serum low-density lipoprotein and low-density lipoprotein expression level at diagnosis are favorable prognostic factors in patients with small-cell lung cancer (SCLC). BMC Cancer 2017;17(1):269.

19) Proctor MJ, Morrison DS, Talwar D, Balmer SM, O'Reilly DSJ, Foulis AK, et al. An inflammation-based prognostic score (mGPS) predicts cancer survival independent of tumour site: A Glasgow Inflammation Outcome Study. Br J Cancer 2011;104:726-34.

20) Proctor MJ, Morrison DS, Talwar D, Balmer SM, Fletcher CD, O'reilly DSJ, et al. A comparison of inflammation-based prognostic scores in patients with cancer. A Glasgow Inflammation Outcome Study. Eur J Cancer 2011;47:2633-41.

21) Cannon NA, Meyer J, Iyengar P, Ahn C, Westover KD, Choy H, et al. Neutrophil-lymphocyte and plateletlymphocyte ratios as prognostic factors after stereotactic radiation therapy for early-stage non-small-cell lung cancer. J Thorac Oncol 2015;10:280-5.

22) Shimizu K, Okita R, Saisho S, Yukawa T, Maeda A, Nojima Y, et al. Prognostic nutritional index before adjuvant chemotherapy predicts chemotherapy compliance and survival among patients with non-small-cell lung cancer. Ther Clin Risk Manag 2015;11:1555?61.

23) Kinoshita A, Onoda H, Imai N, Iwaku A, Oishi M, Fushiya N, et al. Comparison of the prognostic value of inflammation-based prognostic scores in patients with hepatocellular carcinoma. Br J Cancer 2012;107:988-93.

24) Sheng J, Yang YP, Ma YX, Qin T, Hu ZH, Hong SD, et al. Low prognostic nutritional index correlates with worse survival in patients with advanced NSCLC following EGFR-TKIs. PLoS One. 2016;11(1):e0147226.

25) Rosenberg SA. Progress in human tumour immunology and immunotherapy. Nature 2001;411(6835):380-4.

26) d'Engremont C, Vernerey D, Pointet AL, Simone G, Fein F, Heyd B, et al. Additive value of pre-operative and one-month post-operative lymphocyte count for death-risk stratification in patients with resectable pancreatic cancer: A multicentric study. BMC Cancer. 2016;16(1):823.

27) Kobayashi N, Usui S, Kikuchi S, Goto Y, Sakai M, Onizuka M, et al. Preoperative lymphocyte count is an independent prognostic factor in node-negative nonsmall cell lung cancer. Lung Cancer. 2012;75:223-7.

28) Saito H, Kono Y, Murakami Y, Shishido Y, Kuroda H, Yamamoto M, et al. Prognostic significance of pre- and postoperative lymphocyte counts in patients with gastric cancer. Dig Surg Switzerland 2019;36:137-43.

29) Nakazawa K, Kurishima K, Tamura T, Kagohashi K, Ishikawa H, Hiroaki S, et al. Specific organ metastases and survival in small cell lung cancer. Oncol Lett 2012;4(4):617-20.

30) Bass AJ, Thorsson V, Shmulevich I, Reynolds SM, Miller M, Bernard B, et al. Comprehensive molecular characterization of gastric adenocarcinoma. Nature 2014;513:202-9.

31) Shao N, Cai Q. High pretreatment neutrophil?lymphocyte ratio predicts recurrence and poor prognosis for combined small cell lung cancer. Clin Transl Oncol 2015;17(10):772-8.

32) Hong X, Cui B, Wang M, Yang Z, Wang L, Xu Q. Systemic immune-inflammation index, based on platelet counts and neutrophil-lymphocyte ratio, is useful for predicting prognosis in small cell lung cancer. Tohoku J Exp Med 2015;236:297-304.

33) Xia X, Li K, Wu R, Lv Q, Deng X, Fei Z, et al. Predictive value of neuron-specific enolase, neutrophil-tolymphocyte- ratio and lymph node metastasis for distant metastasis in small cell lung cancer. Clin Respir J 2020;14:1060-6.

34) Almand B, Resser JR, Lindman B, Nadaf S, Clark JI, Kwon ED, et al. Clinical significance of defective dendritic cell differentiation in cancer. Clin Cancer Res 2000;6(5):1755-66.

35) Li YD, Lamano JB, Lamano JB, Quaggin-Smith J, Veliceasa D, Kaur G, et al. Tumor-induced peripheral immunosuppression promotes brain metastasis in patients with non-small cell lung cancer. Cancer Immunol Immunother 2019;68(9):1501-13.

36) Chen YM, Lai CH, Chang HC, Chao TY, Tseng CC, Fang WF, et al. Baseline and trend of lymphocyteto- monocyte ratio as prognostic factors in epidermal growth factor receptor mutant non-small cell lung cancer patients treated with first-line epidermal growth factor receptor tyrosine kinase inhibitors. PLoS One. 2015;10(8):e0136252.

37) Yang J, Liao D, Chen C, Liu Y, Chuang TH, Xiang R, et al. Tumor-associated macrophages regulate murine breast cancer stem cells through a novel paracrine egfr/stat3/sox-2 signaling pathway. Stem Cells. 2013;31(2):248-58.

38) Aerts JG, Hegmans JP. Tumor-specific cytotoxic t cells are crucial for efficacy of immunomodulatory antibodies in patients with lung cancer. Cancer Res 2013;73(8):2381-8.

39) Zab?ocka-S?owi?ska K, P?aczkowska S, Skórska K, Prescha A, Pawe?czyk K, Por?bska I, et al. Oxidative stress in lung cancer patients is associated with altered serum markers of lipid metabolism. PLoS One. 2019;14(4):e0215246.

40) Barzegar-Amini M, Ghazizadeh H, Seyedi SM reza, Sadeghnia HR, Mohammadi A, Hassanzade-Daloee M, et al. Serum vitamin E as a significant prognostic factor in patients with dyslipidemia disorders. Diabetes Metab Syndr Clin Res Rev 2019;13(1):666-71.

41) Vieira Da Costa VA, Vianna LM. Effect of ?-tocopherol supplementation on blood pressure and lipidic profile in streptozotocin-induced diabetes mellitus in spontaneously hypertensive rats. Clin Chim Acta 2005;351(1):101-4.

42) Kotani K, Sekine Y, Ishikawa S, Ikpot IZ, Suzuki K, Remaley AT. High-density lipoprotein and prostate cancer: An overview. J Epidemiol. 2013;23(5):313-9.

43) Guo E, Chen L, Xie Q, Chen J, Tang Z, Wu Y. Serum HDL-C as a potential biomarker for nodal stages in gastric cancer. Ann Surg Oncol 2007;14(9):2528-34.