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Journal of
eISSN: 2373-633X

Cancer Prevention & Current Research

Research Article Volume 4 Issue 1

Effect of ABO blood group on survival of resected lung cancer patients: a retrospective study

Effat Un Nesa,1 Cong Wang,1 Chowdhury Sumon Rahman,2 Han Zhang,1 Xiao Yue Liu,1 Ying Sun,1 Peng Xiang Chen,1 Li Jingyi,1 Misbahul Ferdous,3 Yufeng Cheng1

1Department of Radiation Oncology, Qilu Hospital of Shandong University, People's Republic of China
2Department of Endocrinology, Qilu Hospital of Shandong University, People's Republic of China
3Department of Cardiology, Shandong provincial Hospital of Shandong University, People's Republic of China

Correspondence: Yufeng Cheng, Department of Radiation Oncology, Qilu Hospital of Shandong University, Jinan, Shandong, 250012, People's Republic of China,, Tel 86-531-82169831, Fax 86-531-86927544

Received: January 01, 2016 | Published: January 8, 2016

Citation: Nesa EU, Wang C, Rahman CS, et al. Effect of ABO blood group on survival of resected lung cancer patients: a retrospective study. J Cancer Prev Curr Res. 2016;4(1):7-13. DOI: 10.15406/jcpcr.2016.04.00105

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Abstract

Introduction: A positive correlation between ABO blood group and survival has been suggested in several malignancies. The aim of this study is evaluate the effect of ABO blood group on survival of surgically resected lung cancer patients.

Materials and methods: A total of 139 patients with lung cancer who underwent curative surgery from January 2009 to November 2010 were enrolled in this retrospective study. Besides clinicopathological prognostic factors, we evaluated the prognostic value of ABO blood type on survival. Univariate analysis was performed by Kaplan-Meier survival analysis and multivariate analysis by Cox Regression Hazard model to measure 5-year Overall survival (OS), Progression free survival (PFS), Distant metastasis free survival (DMFS), Relapse free survival(RFS).

Results: The median follow-up period of 139 lung cancer patients was 37 months. The distribution of ABO blood type were 16 AB blood type patients (11.5%), 34 A blood group (24.5%), 42 blood group B (30.2%) and 47 blood group O (33.8%) respectively. Pearson Chi square test showed that ABO blood group was significantly associated with age (P=0.015), T stage (P=0.047) and histological grades (P=0.001), whereas there was no significant association (P>0.05) between ABO blood group and gender, smoking, alcohol, lymphnode status, tumor differentiation, tumor size and pathological type. In the Kaplan-Meier analysis ABO blood type was associated with OS, PFS, DMFS and RFS. The mean survival months were 67.9, 52.2, 54.2, 47.3 for blood type AB, A, B and O patients respectively(P=0.024).The mean survival months were 63.3, 51.3, 47.2, 42.2 for blood type AB, A, B and O patients respectively(0.025).The mean survival months of distant metastasis free survival were 62.5, 59.6, 53.1, 43.6 months for AB, A, B and O blood type patients respectively (P=0.029).The mean survival months of relapse free survival were 62.4, 50.6, 60.9, 47.4 months for AB, A, B and O blood type patients respectively (P=0.034).Multivariate analysis also revealed that ABO blood type was significantly associated with OS (HR=0.159 with 95%CI=0.046-0.543, P=0.003), PFS(HR=0.313 with 95%CI=0.122, P=0.015), DMFS (HR=0.301 with 95%CI=0.160-0.568, P<0.001) and RFS (HR=0.483 with 95%CI=0.274-0.852, P=0.012)

Conclusion: Blood type AB is a favorable prognostic factor for patients with lung cancer than non-AB blood type (blood type A, B or O).

Keywords: lung cancer, ABO blood group, prognosis, survival

Introduction

Lung cancer is the most deadly type of cancer that represents a major public health problem and it still remains the leading cause of cancer related death worldwide.1 Despite diverse treatment methods including chemotherapy, surgery, radiotherapy and targeted therapies are used, the outcome of all type of lung cancers are disappointing, with 5-year overall survival rates estimating to 17.1% for non-small cell lung cancer(NSCLC) and 6.1% for small cell lung cancer.2 Clinically it proves that lung cancer can metastasize to specific target organs, such as brain, liver, adrenal glands and bone. Recent findings have revealed that the prognosis of lung cancer patients is not only determined by the characteristics of tumors, but also the patients related factors. Identification of biomarkers that are readily available, inexpensive and reproducible could improve the prognosis of patients and help physicians in providing individualized therapies.

The chromosome 9q34 consists of the ABO gene which encodes glycosyl Transferase that catalyse the transfer of nucleotide donor carbohydrates to the H antigen and forms the ABO blood group system.3 ABO blood type antigens are expressed on the surface of red blood cells and other tissue types including cells from the gastrointestinal tract. The correlation between ABO blood group system and cancer has been a subject of interest since the mid 1900s. Laboratory investigations have provided several plausible mechanisms to explain the observed association between ABO blood group system and cancer. These proposed mechanisms involve inflammation, immune surveillance for malignant cells, intercellular adhesion and membrane signaling.4–6 Recently, the positive association between ABO blood type and survival has been evaluated in several malignancies, including colon cancer, pancreatic cancer, nasopharyngeal carcinoma, esophageal cancer, breast cancer, skin cancer, renal cell carcinoma and gastric cancer.7–14 Although the study by Lee et al. established the survival of NSCLC patients who received curative surgery within the context of ABO blood group, the aim of their study was to investigate the prognostic role of expression of blood group antigen A in tumor cells.15 However, to date, the controversy still remains over the clinical value of ABO blood group to predict the prognosis of NSCLC.16 Therefore, the aim of this retrospective study was to clarify the correlation between ABO blood group system and survival analysis among all type of lung cancer patients who underwent curative surgery as their primary treatment.

Methods and materials

Patients selection and data collection

This retrospective clinical study included 440 consecutive all type of lung cancer patients who underwent curative surgery (lobectomy, pneumonectomy) at Qilu Hospital of Shandong University from January 2009 to November 2010. Patients were eligible for the study if they met the following criteria:(1)Resected lung cancer with lobectomy or pneumonectomy and lymphnode dissection, (2)negative surgical margin (R0) and (3)No preoperative radiotherapy or chemotherapy. The main exclusion criteria were perioperative death and previous malignancies. The patients criteria which was not favorable with inclusion criteria that excluded from study group. Furthermore, patients without available data, death date and follow up were excluded. Hence after the rigorous exclusion process, a total of 139 patients were enrolled in our study. The protocol of the study was approved by the Institutional Ethics Committee of the Qilu Hospital of Shandong University. The extent of the disease was determined by TNM staging according to the new IASLC staging system.17 Informed consent was obtained from all individual participants in the study. Data were collected from medical records in hospital database. Clinicopathological factors were used to assess the risk of death. Factors examined included age, gender, smoking habit, alcohol intake, tumor size, pT stage, lymphnode status, tumor differentiation, pathological type and ABO blood group.

Treatment and follow up

All patients underwent curative surgery, Lobectomy or pneumonectomy was performed according to the location or size of the lung neoplasm. Patients who had undergone exploratory thoracotomy without resection were excluded from our study. Systematic mediastinum lymph node dissection was performed in all patients. All patients received standardized follow-up at a 3-month interval for the first 2 years after operation, a 6-month interval in the third year and yearly thereafter. Evaluation comprised a physical examination, complete blood count, chest computed tomography, brain magnetic resonance imaging and abdominal ultrasound.

The following endpoints were estimated: Relapse-free survival (RFS), was defined as the duration from the date of surgery to the date when any relapse was diagnosed. Distant metastasis-free survival (DMFS) covered the date of definitive surgery to the confirmation date of diagnosis of distant metastasis. Relapse-free survival (RFS) was defined as the time from surgery to any recurrence. Overall survival (OS) was calculated as the time from the date of surgery to death or date of last follow up.

Statistical analysis

The chi-square test was performed to evaluate the association between the clinicopathological variables and ABO blood group. All endpoints were estimated by the Kaplan-Meier survival analysis and compared by using Log-rank test. Multivariate analyses were carried out by using Cox Proportional Hazards model to identify important prognostic factors for OS, PFS, DMFS, RFS). P-values were two sided and statistical significance was accepted for P-values of <0.05. All statistical analyses were carried out using SPSS for Windows, Version 22 (SPSS Inc., Chicago, IL, United States).

Results

Patient characteristics

A total of 139 lung cancer patients were enrolled in our study. The baseline characteristics of the study population are listed in Table 1.The median age of the 139 patients enrolled into the study was 60 years (age range:36-85 years).The distribution of ABO blood type was 16 AB blood type patients (11.5%), 34 A blood group (24.5%), 42 blood group B (30.2%), 47 blood group O (33.8%) respectively. According to the IASLC classification criteria for lung tumors, 52 (37.4%) of the tumors were squamous cell carcinoma, 56 (40.3%) adenocarcinoma, 9 (6.5%) small cell carcinoma, 9 (6.5%) bronchoalveolar carcinoma and 13(9.4%) consisted of other types. There were 17 (12.2%) well differentiated, 73 (52.5%) moderately differentiated and 47 (33.8%) poorly differentiated. A total of 67 patients (48.2%) had experience of smoking and 51 (36.7%) of ingesting alcohol. According to the new IASLC staging system, 43 of the cases (30.9%) were stage T1, 51 (36.7%) stage T2, 42 (30.2%) stage T3, 3 (2.2%) stage T4.Pearson Chi square test showed that ABO blood group was significantly associated with age(P=0.015), T stage(P=0.047) and histological grade(P=0.001), whereas there was no significant association (P>0.05) between ABO blood group and gender, smoking, alcohol, lymhnode status, tumor differentiation, tumor size and pathological type.

Characteristics

All patients

Patients ABO blood type

P

n=139

AB (%)

A (%)

B (%)

0(%)

n=16(11.5%)

n=34(24.5%)

n=42(30.2%)

n=47(33.8%)

Age

≤60 Years

69

8(11.6%)

9(13.0%)

26(37.7%)

26(37.7%)

0.015*

>60 Years

70

8(11.4%)

25(35.7%)

16(22.9%)

21(30.0%)

Gender

Male

95

13(13.7%)

25(26.3%)

27(28.4%)

30(31.6%)

0.491

Female

44

3(6.8%)

9(20.5%)

15(34.1%)

17(38.6%)

Smoking

No

72

8(11.1%)

15(20.8%)

22(30.6%)

27(37.7%)

0.698

Yes

67

8(11.9%)

19(28.4%)

20(29.9%)

20(29.9%)

Alcohol

No

88

9(10.2%)

23(26.1%)

27(30.7%)

29(33.0%)

0.876

Yes

51

7(13.7%)

11(21.6%)

15(29.4%)

18(35.3%)

Tumor Size

≤3cm

50

8(16.0%)

11(22.0%)

16(32.0%)

15(30.0%)

0.577

>3cm

89

8(9.0%)

23(25.8%)

26(29.2%)

32(30.0%)

pT stage

T1

43

8(18.6%)

11(25.6%)

15(34.9%)

9(20.9%)

0.047*

T2

51

7(13.7%)

9(17.6%)

17(33.3%)

18(35.3%)

T3

42

1(2.4%)

14(33.3%)

10(23.8%)

17(40.5%)

T4

3

0(0.0%)

0(0.0%)

0(0.0%)

3(100%)

Lymphnode Status

Negative

81

10(12.3%)

22(27.2%)

25(30.9%)

24(29.6%)

0.631

Positive

58

6(10.3%)

12(20.7%)

17(29.3%)

23(39.7%)

Histological Grade

Grade 1

63

5(7.9%)

17(27.0%)

9(14.3%)

32(50.8%)

0.001*

Grade 2

54

8(14.8%)

8(14.8%)

25(46.3%)

13(24.1%)

Grade 3

18

3(16.7%)

7(38.9%)

6(33.3%)

2(11.1%)

Grade 4

4

0(0.0%)

2(50.0%)

2(50.0%)

0(0.0%)

Differentiation

Poorly

49

7(14.3%)

15(30.6%)

14(28.6%)

13(26.5%)

0.673

Moderately

73

7(9.6%)

16(21.9%)

24(32.9%)

26(35.6%)

Well

17

2(11.8%)

3(17.6%)

4(23.5%)

8(47.1%)

Pathological Type

Squamous Cell ca

52

8(15.4%

13(25.0%)

13(25.0%)

18(34.6%)

0.128

Adenocarcinoma

56

6(10.7%)

11(19.6%)

18(32.1%)

21(37.5%)

Small Cell Carcinoma

9

2(22.2%)

2(22.2%)

5(55.6%)

0(0.0%)

Bronchoalveolar Ca

9

0(0.0%)

1(11.1%)

3(33.3%)

5(55.6%)

Other

13

0(0.0%)

7(53.8%)

3(23.1%)

3(23.1%)

Table 1 Baseline characteristics of 139 lung cancer patients according to ABO blood type.
T: tumor

Effect of ABO blood group on survival

The median follow-up period of 139 lung cancer patients was 37 months with consequently 43 patients being alive and 96 succumbing to cancer related death until the last follow-up. In the Kaplan-Meier analysis ABO blood type were associated with OS, PFS, DMFS, RFS(table 2).The 5-year overall survival rate were 81.3%, 32.4%, 23.8%, 19.1% and mean survival months were 67.9, 52.2, 54.2, 47.3 for blood type AB, A, B and O patients respectively(P=0.024, figure 1A).The 5-year progression free survival rate were 62.5%, 52.9%, 38.1%, 19.1% and mean survival months were 63.3, 51.3, 47.2, 42.2 for blood type AB, A, B, O patients respectively(P=0.025, figure 1B).The mean survival months of distant metastasis free survival were 62.5, 59.6, 53.1, 43.6 months for AB, A, B, O blood type patients respectively(P=0.029, figure 1C).The mean survival months of relapse free survival were 62.4, 50.6, 60.9, 47.4 months for AB, A, B, O blood type patients respectively(P=0.034, figure 1D). Lymphnode status was also significantly associated with OS, PFS, DMFS and RFS and P value was <0.001 in all kind of survival analysis(figure 2).But tumor size was only significantly associated with OS (P=0.031).To determine whether ABO blood type could serve as an independent prognostic parameter, we examined OS, PFS, DMFS, RFS using the Cox proportional hazards model(table 3).All the parameters found to be significant in the univariate analysis were further analysed by multivariate analysis and the results revealed that ABO blood type was significantly associated with OS(HR=0.159 with 95%CI=0.046-0.543, P=0.003), PFS(HR=0.313 with 95%CI=0.122, P=0.015), DMFS(HR=0.301 with 95%CI=0.160-0.568, P<0.001) and RFS(HR=0.483 with 95%CI=0.274-0.852, P=0.012).We also observed that tumor size was only significantly associated with OS (HR=0.626 with 95%CI=0.404-0.970, P=0.036) whereas the lymphnode status was also significantly associated with OS(HR=0.395 with 95%CI=0.252-0.617, P<0.001), PFS(HR=0.388 with 95%CI=0.244-0.617, P<0.001), DMFS(HR=0.464 with 95%CI=0.303-0.711, P<0.001) and RFS(HR=0.377 with 95%CI=0.242-0.586, P<0.001).

Figure 1A Overall survival of lung cancer patients according to ABO blood type.

Figure 1B Progression free survival of lung cancer patients according to ABO blood type.

Figure 1C Distant metastasis free survival of lung cancer patients according to ABO blood type.

Figure 1D Relapse free survival of lung cancer patients according to ABO blood type.

Figure 2A Overall survival of lung cancer patients with lymph nodes status.

Figure 2B Progression free survival of lung cancer patients according to lymph nodes status.

Figure 2C Distant metastasis free survival of lung cancer patients according to lymph nodes status.

Figure 2D Relapse free survival of lung cancer patients according to lymph nodes status.

Variables

Overall survival(OS)

Progression free survival

Distant metastasis free survival(dmfs)    

Relapse free survival(RFS)

5-Year

Mean Survival

P

5 - Year PFS

Mean Survival

P

5-Year DMFS

Mean Survival

P

5-year RFS

Mean Survival

P

(OS)(%)

(months)

(%)

(months)

(%)

(months)

(%)

(months)

Age(years)

≤60

31.9

54.9

0.578

42

48.7

0.479

11.6

51.3

0.555

30.4

57.6

0.142

>60

30.00%

50.5

34.3

47

27.1

53.3

18.6

50.2

Gender

Male

31.6

51

0.591

35.8

45.4

0.205

18.9

49.6

0.303

27.4

52.3

0.743

Female

29.5

56.3

43.2

53.5

20.5

57.9

18.2

57

Smoking

No

26.4

50.2

0.116

36.1

45

0.295

25

52.1

0.767

23.6

49.9

0.13

Yes

35.8

55.2

40.3

50.9

13.4

52.4

25.4

58

Alcohol

No

29.5

50.2

0.371

38.6

46.2

0.646

25

51.3

0.658

27.3

51.8

0.589

Yes

33.3

56.9

37.3

51

9.8

54

19.6

57.1

Tumor size

≤3cm

40

59.6

0.031*

40

51.8

0.403

12

54.6

0.493

24

58.6

0.079

>3cm

25.8

48.7

37.1

45.9

23.6

50.9

24.7

51

pT stage

T1

30.2

51.4

0.366

30.2

44

0.11

25.6

53.9

0.613

32.6

51.7

0.664

T2

33.3

57.9

47.1

56.2

13.7

57

21.6

58.8

T3

26.2

46.7

33.3

40.2

19

44.3

21.4

49.6

T4

66.7

57

66.7

54.7

33.3

54.7

0

52.6

Lymphnode status

Negative

39.5

62.2

<0.001*

51.9

58

<0.001*

17.3

59.2

<0.001*

27.2

62.7

<0.001*

Positive

19

39.2

19

33.7

22.4

41.1

20.7

40.7

Histological grade

Grade1

30.2

50.2

0.946

31.7

44.1

0.417

22.2

50.3

0.946

19

50.6

0.827

Grade2

29.6

54.9

40.7

51.4

16.7

54.2

29.6

56.3

Grade3

33.3

52.1

44.4

46.2

22.2

51.2

33.3

55.7

Grade4

50

60.8

75

61.5

0

60.2

0

60.2

Differentiation

Poorly

28.6

46.9

0.385

38.8

43.1

0.737

30.6

50.1

0.981

20.4

48.4

0.323

Moderately

30.1

54.7

37

48.7

15.1

52.7

28.8

56.2

Well

41.2

60.2

41.2

56.2

5.9

55.4

17.6

59.3

Pathological type

Squamous Cell Ca

28.8

53

0.982

42.3

49.5

0.781

21.2

54.5

0.738

26.9

54.9

0.417

Adenocarcinoma

32.1

52.2

32.1

45.4

16.1

49.2

25

53.2

Small Cell Carcinoma

44.4

53.3

55.6

50.3

33.3

62.6

33.3

54.2

Bronchoalveolar Ca

11.1

61.8

33.3

54.3

11.1

58.6

22.2

62.4

Other

38.5

46

38.5

43.1

23.1

45.1

7.7

45.1

ABO blood type

AB

81.3

67.9

0.024*

62.5

62.3

0.025*

18.8

62.5

0.029*

37.5

62.4

0.034*

A

32.4

52.2

52.9

51.3

35.3

59.6

11.8

50.6

B

23.8

54.2

38.1

47.2

16.7

53.1

50

60.9

O

19.1

47.3

19.1

41.2

10.6

43.6

6.4

47.4

Table 2 Univariate analysis of association between prognosis and ABO blood type and other clinicopathological factors in patients with lung cancer.
*And bold numbers are statistically significant
T: Tumor; Ca: Carcinoma

Variables

Overall survival(OS)

Progression free survival(PFS)     

Distant metastasis free survival(DMFS)     

Relapse free survival(RFS)

HR

95%CI

P

HR

95% CI

P

HR

95% CI

P

HR

95% CI

P

Tumor size

0.626

0.404-0.970

0.036*

0.828

0.530-1.294

0.408

0.878

0.598-1.290

0.507

0.71

0.475-1.056

0.09

(≤3cm Vs >3cm

Histological grade

1.477

0.323-6.752

0.615

2.819

0.358-22.175

0.325

0.748

0.242-2.312

0.614

1.13

0.356-3.579

0.836

Grade1 and 2 Vs Grade 3 and 4

Differentiation

1.886

0.772-4.603

0.164

1.92

0.790-4.668

0.15

1.224

0.548-2.736

0.623

1.14

0.601-2.969

0.477

Poorly Vs Well and Moderately

pT stage

3.358

0.431-26.138

0.247

4.408

0.563-34.519

0.158

2.086

0.456-9.536

0.343

1.53

0.412-1.663

0.526

T1T2 Vs T3T4

Lymphnode status

0.395

0.252-0.617

<0.001*

0.388

0.244-0.617

<0.001*

0.464

0.303-0.711

<0.001*

0.38

0.242-0.586

<0.001*

Negative Vs positive

ABO blood type

0.159

0.046-0.543

0.003*

0.313

0.122-0.801

0.015*

0.301

0.160-0.568

<0.001*

0.48

0.274-0.852

0.012*

Table 3 Multivariate analysis for OS, PFS, DMFS, RFS of lung cancer patients.
*and bold numbers means statistically significant
HR: Hazard Ratio; CI: Confidence Interval; T: Tumor

Discussion

In recent years, several studies have suggested that importance of ABO blood group system in the development of hemostasis and neoplastic disease, because of ABO antigens are highly expressed on the surface of a variety of human cells and tissues.18 However, to date, association between ABO blood type and lung cancer survival have not been well developed. Based on its unique aetiology, patients characteristics, ABO blood typing and long follow-up time, the current study is first to evaluate the effect of survival of ABO blood type among patients with resected lung cancer. Among the 139 lung cancer cases examined in this retrospective study from Qilu hospital of Shandong university, we observed significantly better survival for participants with blood group AB than non-AB blood group patients(blood groups A, B and O).The worst survival was observed for participants with blood type O and intermediate survival was observed for those with blood types A and B using multivariate analysis, significant associations with lung cancer survival were found for tumor size, positive regional lymphnodes and ABO blood group. Although some earlier studies have reported associations between malignancies and ABO blood group system, the results have been inconsistent. Constantini et al. & Holdsworth et al.19,20 have reported poor survival among breast cancer participants with blood type AB or B or any non-O blood type. In contrast, Gates et al.21 indicated that ABO blood group was not associated with survival of breast cancer patients.21 According to Nozoe et at.22 a growing body of plausible mechanisms, including inflammation, immune-surveillance for malignant cells, intracellular adhesion and membrane signalling have been proposed to explain the relationships between ABO blood group and tumor metastasis and prognosis.22

The ABO blood type is defined by the carbohydrate moieties displayed on the surface of red blood cells and attached to membrane proteins and lipids. Three variant alleles (A, B and O) of a single gene on chromosomes 9q34, the ABO gene determine a person’s blood type by encoding three glycosyl transferases with different substrate specificities. Apart from their expression on the surface of red blood cells, the ABO blood antigens are highly expressed on the surface of many epithelial cells, including gastrointestinal, bronchopulmonary, urogenital and skin cells.23,24 Alterations of ABO antigen expression on the surface of cancerous cells, compared with normal epithelium, has been demonstrated for a variety of tumor types.23,25 Glycosyltransferase specificity has broad implications, beyond explaining ABO blood type.Glycoconjugates are important mediators of intercellular adhesion and membrane signalling, two processes that are integral to malignant progression and spread of cancers.23 These surface molecules are also recognized by host immune response and may have a role in facilitating immune-surveillance for malignant cells.26

Alteration of host inflammatory state due to ABO blood group antigens may provide a further mechanism to explain the association between ABO blood group system and lung cancer progression.In recent decades, several studies have demonstrated a link between chronic inflammation and malignant initiation. A study has revealed that an inflammatory cytokine known to modulate cell apoptosis and inhibit tumourigenesis which haa two single-nucleotide polymorphisms at the ABO locus was associated with serum levels of tumor necrosis factor-alpha.27,28 Pare et al.29,30 established that there is a statistically significant relationship between single-nucleotide polymorphisms at the ABO locus and plasma levels of intercellular adhesion molecule 1, a molecule which has classically been associated with functioning inflammatory response.29,30 Barbalic et al. & Qi et al.31,32 have studied this finding for other serum markers of inflammation, such as E-selectin and P-selectin.31,32 These results reveals the possibility that chronic inflammation is significantly linked with tumor initiation and metastasis and also suggest an additional potential mechanism by which ABO blood group may influence lung cancer patients survival. This retrospective study has several limitations that should be noted. Firstly, our study population was limited, secondly it was an open-level study and East Asians constitute most of our study population, which somewhat limits the generalizability of our results. Accordingly, the results of further investigations including more diverse populations from other institutes are needed to confirm our findings. Future well designed studies that include diverse ethnic populations are warranted to further analysize the prognostic role of ABO blood group system in Lung cancer patients. Additionally, other potential clinicopathological factors should be considered.

Conclusion

Our results suggested that the ABO blood types were significantly associated with lung cancer patients survival. In contrast to patients of AB blood type with non-AB (blood type A, B, O), patients with blood type AB were more likely to have a better OS, PFS, DMFS and RFS. The impact of ABO blood type on malignant potential and prognosis in patients with lung cancer remains an interesting area of research, which warrents additional investigations.

Acknowledgments

None.

Conflicts of interest

The authors declare that there is no conflicts of interest.

References

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