Change of complete blood count parameters according to blood type and smoking

Habibe İnci

Research Article

Kan Grubu ve Sigara Kullanımına Göre Tam Kan Sayımı Parametrelerinin Değişimi

Year 2023, Volume: 40 Issue: 1, 37 - 41, 18.03.2023

Habibe İnci

Abstract

Amaç: Bu çalışmada, kan grubu ve sigara içme durumuna bağlı olarak tam kan sayımı parametrelerindeki değişimin araştırılması amaçlandı.
Gereç ve Yöntem: Bireyler kan grubu tipi ve sigara kullanım durumlarına göre gruplandırıldı, Nötrofil/Lenfosit oranı (NLR), Trombosit/Lenfosit oranı (PLR) ve Ortalama Trombosit Hacmi/Lenfosit oranı (MPVLR) düzeylerindeki istatistiksel farklılıklara göre değerlendirildi.
Bulgular: Çalışmaya 3119 kişi katıldı. Bunların %26,67'si sigara içiyordu. ABO kan grubu sistemine göre katılımcıların %44,47'si A tipi, %32,48'i O tipi, %16,09'u B tipi ve %6,96'sı AB tipi kan grubuna sahipti. Katılımcıların %88,81'i Rh(+) ve %11,19'u Rh(-) idi. Sigara içenlerin NLR, PLR ve MPVLR değerleri içmeyenlere göre daha yüksekti. Katılımcıların NLR, PLR ve MPVLR seviyeleri ABO ve Rh kan gruplarına bağlı olarak istatistiksel olarak anlamlı farklılıklar gösterdi. Bu farklılığın ARh(+) bireylerinden kaynaklandığı görüldü. NLR, PLR ve MPVLR seviyeleri ARh(+) bireylerde en yüksek, ABRh(-) bireylerde en düşüktü. NLR, PLR ve MPVLR değerleri ARh(+) içenlerde en yüksek, ABRh(-) içmeyenlerde en düşüktü.
Sonuç: Katılımcıların kan grubu parametrelerinde kan grubu ve sigara içme durumuna göre anlamlı farklılıklar olduğu bulundu. Bu, sigara içen ARh(+) bireylerin diğer kan gruplarına sahip olan ve sigara içmeyenlere göre daha yüksek parametrelere sahip olduğu anlamına gelebilir ve bu da kronik inflamasyona bağlı hastalık riskini öngörmede faydalı olabilir.

Keywords

ABO kan grubu, sağlıklı bireyler, Rh faktörü, sigara

Supporting Institution

yok

Project Number

yok

Thanks

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References

1. Teshome Y, Mekonen W, Birhanu Y, Sisay T. The association between ABO blood group distribution and peptic ulcer disease: a cross-sectional study from Ethiopia. J Blood Med 2019;10:193.
2. Zhong G-C, Liu S, Wu Y-L, et al. ABO blood group and risk of newly diagnosed nonalcoholic fatty liver disease: A case-control study in Han Chinese population. PloS one 2019;14 (12).
3. Stakišaitis D, Juknevičienė M, Ulys A, et al. ABO blood group polymorphism has an impact on prostate, kidney and bladder cancer in association with longevity. Oncology letters 2018;16:1321-31.
4. Çildağ S, Kara Y, Şentürk T. ABO blood groups and rheumatic diseases. Eur J Rheumatol 2017;4:250.
5. Allouh MZ, Al Barbarawi MM, Hiasat MY, Al-Qaralleh MA, Ababneh EI. Glioblastoma and ABO blood groups: further evidence of an association between the distribution of blood group antigens and brain tumours. Blood Transfusion 2017;15:543.
6. Rummel SK, Ellsworth RE. The role of the histoblood ABO group in cancer. Future science OA 2016;2 (2).
7. Dağdeviren M, Ateş İ, Demir BF, Ergün E, Yıldız C, Altay M. Investigation of blood groups in benign thyroid diseases in Turkey. Endocrine J 2019;66:1001-9.
8. Araç E, Solmaz İ. Evaluation of blood groups in patients with anti TPO positive. Asian J Med Sci 2019;10:67-70.
9. Alkhattabi N, Tarbiah N, Al-zahrani M, et al. Comparison of Î±-1 Antitrypsin Levels and other Inflammatory Markers in Smokers and Non-smokers. Ann Med Health Sci Res 2020;10.
10. Yucel C, Keskin M, Cakmak O, et al. Predictive value of pre‐operative inflammation‐based prognostic scores (neutrophil‐to‐lymphocyte ratio, platelet‐to‐lymphocyte ratio, and monocyte‐to‐eosinophil ratio) in testicular sperm extraction: a pilot study. Andrology 2017;5:1100-4.
11. Çekici Y, Yılmaz M, Seçen Ö. New inflammatory indicators: association of high eosinophil-to-lymphocyte ratio and low lymphocyte-to-monocyte ratio with smoking. J Int Med Res 2019;47:4292-303.
12. Ivković M, Pantović-Stefanović M, Dunjić-Kostić B, et al. Neutrophil-to-lymphocyte ratio predicting suicide risk in euthymic patients with bipolar disorder: moderatory effect of family history. Compr Psychiatry 2016;66:87-95.
13. Akboga MK, Canpolat U, Yayla C, et al. Association of platelet to lymphocyte ratio with inflammation and severity of coronary atherosclerosis in patients with stable coronary artery disease. Angiology 2016;67:89-95.
14. Sahinli H, Turker S, Eren T, Cilbir E, Altinbas M. The Mean Platelet Volume to Lymphocyte Ratio: A New Prognostic Marker in Resected Gastric Cancer, Eur J Med Invest, 4(2), 155-160.
15. Zorlu C, Koseoglu C. Comparison of the relationship between inflammatory markers and contrast-induced nephropathy in patients with acute coronary syndrome after coronary angiography. Angiology 2020;71:249-55.
16. Kim DS, Shin D, Lee MS, et al. Assessments of neutrophil to lymphocyte ratio and platelet to lymphocyte ratio in Korean patients with psoriasis vulgaris and psoriatic arthritis. J Dermatol 2016;43:305-10.
17. Kose N, Akin F, Yildirim T, Ergun G, Altun I. The association between the lymphocyte-to-monocyte ratio and coronary artery disease severity in patients with stable coronary artery disease. Eur Rev Med Pharmacol Sci 2019;23:2570-5.
18. Doğan B, Akalın AA, İlhan B, Oğuz A. Kronik Hastaliği Olmadan Hastaneye Kontrol Amaçli Başvuranlarda Sigara Kullanim Oranlari. International Anatolia Academic Online Journal/J Health Sci 2017;2.
19. Beşler MS, Canpolat U. Cardiac metastasis mimicking acute ST-elevation myocardial infarction. Anatolian J Cardiol 2019;22:E1b.
20. Ben Q, Liu J, Wang W, et al. Association between ABO blood types and sporadic pancreatic neuroendocrine tumors in the Chinese Han population. Oncotarget 2017;8:54799.
21. Franchini M, Mengoli C, Capuzzo E, Terenziani I, Bonfanti C, Lippi G. ABO Kan Grubu ve Kan Bağışçılarında Konvansiyonel Hematolojik ve Metabolik Parametreler Arasındaki Korelasyon. Semin Tromb Hemost. 2016;42(1): 75-86.
22. Pourali F, Afshari M, Alizadeh-Navaei R, Javidnia J, Moosazadeh M, Hessami A. Relationship Between Blood Group and Risk of Infection and Death in COVID-19: a live Meta-Analysis. medRxiv New microbes and new infections, 2020, 37, 100743.
23. Beşler MS, Arslan H. Acute myocarditis associated with COVID-19 infection. The American J Emerg Med 2020, 38(11), 2489-e1.
24. Navabi J, Navabi SM, Hemmati N, Shaahmadi Z, Aghaei A. Higher Odds of Type 2 Diabetes for Some Blood Groups. Public Health Genomics 2020;23:36-40.
25. Alqudah M, Allouh M, Hamouri S, et al. Is Rh Positivity a Possible Risk Factor for Lung Cancer? Jordan J Biolog Sci 2018;11.
26. Tulgar YK, Çakar S, Tulgar S, Dalkılıç Ö, Çakıroğlu B, Uyanik BS. Sigaranın nötrofil/lenfosit ve trombosit/lenfosit oranı ve trombosit indeksleri üzerine etkisi: retrospektif bir çalışma. Eur Rev Med Pharmacol Sci. 2016;20(14): 3112-8.

Change of complete blood count parameters according to blood type and smoking

Year 2023, Volume: 40 Issue: 1, 37 - 41, 18.03.2023

Habibe İnci

Abstract

In this study, it was aimed to investigate the change in the parameters of complete blood count depending on blood type and smoking status. The individuals were grouped according to their blood group type and status of cigarette use, and the statistical differences in their levels of Neutrophil/Lymphocyte ratio (NLR), Platelet/Lymphocyte ratio (PLR), and Mean Platelet Volume/Lymphocyte ratio (MPVLR) were evaluated.3119 individuals participated in the study. 26.67% of them were smokers. According to the ABO blood group system, 44.47% of the participants had type A, 32.48% had type O, 16.09% had type B, and 6.96% had type AB. 88.81% of the participants were Rh(+) and 11.19% of them were Rh(-). The NLR, PLR, and MPVLR of the smokers were higher than those of the non-smokers. The participants’ NLR, PLR, and MPVLR levels showed statistically significant differences depending on ABO and Rh blood groups. This difference was seen to arise from ARh (+) individuals. The NLR, PLR, and MPVLR levels were the highest in ARh (+) individuals and the lowest in the ABRh (-) individuals. The NLR, PLR, and MPVLR values were the highest in the ARh (+) smokers and the lowest in ABRh (-) non-smokers. It was found that there were significant differences in the participants’ blood count parameters depending on blood type and smoking status. This may imply that ARh (+) individuals who smoke have higher parameters than those who have other blood groups and do not smoke, which may be beneficial in predicting the risk of chronic inflammation-related diseases.

Keywords

ABO blood group, healthy individuals, Rh factor, smoking

Project Number

yok

References

1. Teshome Y, Mekonen W, Birhanu Y, Sisay T. The association between ABO blood group distribution and peptic ulcer disease: a cross-sectional study from Ethiopia. J Blood Med 2019;10:193.
2. Zhong G-C, Liu S, Wu Y-L, et al. ABO blood group and risk of newly diagnosed nonalcoholic fatty liver disease: A case-control study in Han Chinese population. PloS one 2019;14 (12).
3. Stakišaitis D, Juknevičienė M, Ulys A, et al. ABO blood group polymorphism has an impact on prostate, kidney and bladder cancer in association with longevity. Oncology letters 2018;16:1321-31.
4. Çildağ S, Kara Y, Şentürk T. ABO blood groups and rheumatic diseases. Eur J Rheumatol 2017;4:250.
5. Allouh MZ, Al Barbarawi MM, Hiasat MY, Al-Qaralleh MA, Ababneh EI. Glioblastoma and ABO blood groups: further evidence of an association between the distribution of blood group antigens and brain tumours. Blood Transfusion 2017;15:543.
6. Rummel SK, Ellsworth RE. The role of the histoblood ABO group in cancer. Future science OA 2016;2 (2).
7. Dağdeviren M, Ateş İ, Demir BF, Ergün E, Yıldız C, Altay M. Investigation of blood groups in benign thyroid diseases in Turkey. Endocrine J 2019;66:1001-9.
8. Araç E, Solmaz İ. Evaluation of blood groups in patients with anti TPO positive. Asian J Med Sci 2019;10:67-70.
9. Alkhattabi N, Tarbiah N, Al-zahrani M, et al. Comparison of Î±-1 Antitrypsin Levels and other Inflammatory Markers in Smokers and Non-smokers. Ann Med Health Sci Res 2020;10.
10. Yucel C, Keskin M, Cakmak O, et al. Predictive value of pre‐operative inflammation‐based prognostic scores (neutrophil‐to‐lymphocyte ratio, platelet‐to‐lymphocyte ratio, and monocyte‐to‐eosinophil ratio) in testicular sperm extraction: a pilot study. Andrology 2017;5:1100-4.
11. Çekici Y, Yılmaz M, Seçen Ö. New inflammatory indicators: association of high eosinophil-to-lymphocyte ratio and low lymphocyte-to-monocyte ratio with smoking. J Int Med Res 2019;47:4292-303.
12. Ivković M, Pantović-Stefanović M, Dunjić-Kostić B, et al. Neutrophil-to-lymphocyte ratio predicting suicide risk in euthymic patients with bipolar disorder: moderatory effect of family history. Compr Psychiatry 2016;66:87-95.
13. Akboga MK, Canpolat U, Yayla C, et al. Association of platelet to lymphocyte ratio with inflammation and severity of coronary atherosclerosis in patients with stable coronary artery disease. Angiology 2016;67:89-95.
14. Sahinli H, Turker S, Eren T, Cilbir E, Altinbas M. The Mean Platelet Volume to Lymphocyte Ratio: A New Prognostic Marker in Resected Gastric Cancer, Eur J Med Invest, 4(2), 155-160.
15. Zorlu C, Koseoglu C. Comparison of the relationship between inflammatory markers and contrast-induced nephropathy in patients with acute coronary syndrome after coronary angiography. Angiology 2020;71:249-55.
16. Kim DS, Shin D, Lee MS, et al. Assessments of neutrophil to lymphocyte ratio and platelet to lymphocyte ratio in Korean patients with psoriasis vulgaris and psoriatic arthritis. J Dermatol 2016;43:305-10.
17. Kose N, Akin F, Yildirim T, Ergun G, Altun I. The association between the lymphocyte-to-monocyte ratio and coronary artery disease severity in patients with stable coronary artery disease. Eur Rev Med Pharmacol Sci 2019;23:2570-5.
18. Doğan B, Akalın AA, İlhan B, Oğuz A. Kronik Hastaliği Olmadan Hastaneye Kontrol Amaçli Başvuranlarda Sigara Kullanim Oranlari. International Anatolia Academic Online Journal/J Health Sci 2017;2.
19. Beşler MS, Canpolat U. Cardiac metastasis mimicking acute ST-elevation myocardial infarction. Anatolian J Cardiol 2019;22:E1b.
20. Ben Q, Liu J, Wang W, et al. Association between ABO blood types and sporadic pancreatic neuroendocrine tumors in the Chinese Han population. Oncotarget 2017;8:54799.
21. Franchini M, Mengoli C, Capuzzo E, Terenziani I, Bonfanti C, Lippi G. ABO Kan Grubu ve Kan Bağışçılarında Konvansiyonel Hematolojik ve Metabolik Parametreler Arasındaki Korelasyon. Semin Tromb Hemost. 2016;42(1): 75-86.
22. Pourali F, Afshari M, Alizadeh-Navaei R, Javidnia J, Moosazadeh M, Hessami A. Relationship Between Blood Group and Risk of Infection and Death in COVID-19: a live Meta-Analysis. medRxiv New microbes and new infections, 2020, 37, 100743.
23. Beşler MS, Arslan H. Acute myocarditis associated with COVID-19 infection. The American J Emerg Med 2020, 38(11), 2489-e1.
24. Navabi J, Navabi SM, Hemmati N, Shaahmadi Z, Aghaei A. Higher Odds of Type 2 Diabetes for Some Blood Groups. Public Health Genomics 2020;23:36-40.
25. Alqudah M, Allouh M, Hamouri S, et al. Is Rh Positivity a Possible Risk Factor for Lung Cancer? Jordan J Biolog Sci 2018;11.
26. Tulgar YK, Çakar S, Tulgar S, Dalkılıç Ö, Çakıroğlu B, Uyanik BS. Sigaranın nötrofil/lenfosit ve trombosit/lenfosit oranı ve trombosit indeksleri üzerine etkisi: retrospektif bir çalışma. Eur Rev Med Pharmacol Sci. 2016;20(14): 3112-8.

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Details

Primary Language	English
Subjects	Health Care Administration
Journal Section	Research Article
Authors	Habibe İnci 0000-0003-2883-259X
Project Number	yok
Early Pub Date	March 18, 2023
Publication Date	March 18, 2023
Submission Date	September 12, 2022
Acceptance Date	October 12, 2022
Published in Issue	Year 2023 Volume: 40 Issue: 1

Cite

APA	İnci, H. (2023). Change of complete blood count parameters according to blood type and smoking. Journal of Experimental and Clinical Medicine, 40(1), 37-41.
AMA	İnci H. Change of complete blood count parameters according to blood type and smoking. J. Exp. Clin. Med. March 2023;40(1):37-41.
Chicago	İnci, Habibe. “Change of Complete Blood Count Parameters According to Blood Type and Smoking”. Journal of Experimental and Clinical Medicine 40, no. 1 (March 2023): 37-41.
EndNote	İnci H (March 1, 2023) Change of complete blood count parameters according to blood type and smoking. Journal of Experimental and Clinical Medicine 40 1 37–41.
IEEE	H. İnci, “Change of complete blood count parameters according to blood type and smoking”, J. Exp. Clin. Med., vol. 40, no. 1, pp. 37–41, 2023.
ISNAD	İnci, Habibe. “Change of Complete Blood Count Parameters According to Blood Type and Smoking”. Journal of Experimental and Clinical Medicine 40/1 (March 2023), 37-41.
JAMA	İnci H. Change of complete blood count parameters according to blood type and smoking. J. Exp. Clin. Med. 2023;40:37–41.
MLA	İnci, Habibe. “Change of Complete Blood Count Parameters According to Blood Type and Smoking”. Journal of Experimental and Clinical Medicine, vol. 40, no. 1, 2023, pp. 37-41.
Vancouver	İnci H. Change of complete blood count parameters according to blood type and smoking. J. Exp. Clin. Med. 2023;40(1):37-41.

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