ЗНАЧЕНИЕ ГЕМАТОЛОГИЧЕСКИХ МАРКЕРОВ КРОВИ ПРИ БРУЦЕЛЛЁЗЕ (ОБЗОР ЛИТЕРАТУРЫ)

Аннотация

В обзоре обобщена информация по наиболее значимым гематологическим маркерам при бруцеллёзе (количество тромбоцитов, гранулоцитов, лимфоцитов, моноцитов). Изменения показателей периферической картины крови при бруцеллёзе, как правило, бывают умеренными и отражают развитие анемии, выраженность которой зависит от тяжести заболевания, лейкопении, нейтропении, лимфомоноцитоза (возможна лимфопения), тромбоцитопении. Рассмотрена возможность оценки тяжести течения болезни путем определения расчётных индексов лейкоцитов (NLR), тромбоцитов
(PLR), моноцитов (LMR). Подчеркнута актуальность изучения их роли как прогностических маркеров. Оценка значимости гематологических показателей при бруцеллёзной инфекции в динамике представляется перспективным направлением для определения особенностей течения бруцеллеза и прогноза исходов заболевания

Об авторах

Список литературы

1. Wyatt H.V. Lessons from the history of brucellosis. Rev. Sci. Tech.
2013; 32(1): 17-25. DOI: 10.20506/rst.32.1.2181.
2. Tsolia M., Drakonaki S., Messaritaki A., Farmakakis T., Kostaki
M., Tsapra H. et al. Clinical features, complications and treatment
outcome of childhood brucellosis in central Greece. J. Infect. 2002;
44(4): 257-62.
3. Togan T., Ciftci O., Gunday M., Narci H., Arslan H. Does brucellosis
cause arterial stiffness and ventricular remodelling through
inflammation? Acta Cardiol. 2015; 70 (2): 185-95. DOI: 10.1080/
ac.70.2.3073510.
4. Balın Ş.Ö., Tartar A.S., Akbulut A. The predictive role of
haematological parameters in the diagnosis of osteoarticular
brucellosis. Afr. Health Sci. 2018; 18(4): 988–94. DOI:10.4314/ahs.
v18i4.19.
5. Xie S., Zhou Y., Zheng R., Zuo W., Lu X., Wang Y., et al. Brucellainduced thrombocytopenia: a retrospective study of 16 patients. J. Int.
Med. Res. 2019; 47(7): 3008-13. DOI: 10.1177/0300060519847406.
6. Demirdal T., Sen P. Risk factors for focal involvement in brucellosis.
Diagn. Microbiol. Infec. Dis. 2020; 97(1): 115003. DOI:10.1016/j.
diagmicrobio.2020.115003.
7. Kerget F., Kerget B., Çelik N., Yilmaz S. İ. Specific Tests and
Inflammatory Biomarkers in the Evaluation of Brucellosis Disease.
Mikrobiol. Bul. 2021; 55(2): 113-24. DOI: 10.5578/mb.20219901.
8. Kurmanova G.M., Baratova G.M., Akeshova N.A. Mamutova A.E.,
Moldaliev I.S., Babaeva K.S. Clinical characteristics of chronic
brucellosis with severe polyfocal manifestations. Vestnik Kazanskogo
nauchnogo meditsinskogo universiteta. 2016; 3: 36-45. (in Russian)
9. Plieva Zh.G. Clinical manifestations and laboratory changes in
brucellosis. Fundamental`nye issledovaniya. 2005; 5: 84-5. (in
Russian)
10. Bozdemir Ş.E., Altıntop Y.A., Uytun S., Aslaner H., Torun
Y.A. Diagnostic role of mean platelet volume and neutrophil to
lymphocyte ratio in childhood brucellosis. The Korean J. Intern.
Med. 2017; 32(6): 1075-81. DOI: 10.3904/kjim.2016.092.
11. Akya A., Bozorgomid A., Ghadiri K., Ahmadi M., Elahi A., Mozafari
H. et al. Usefulness of blood parameters for preliminary diagnosis of
Brucellosis. J. Blood Med. 2020; 11: 107-13. DOI: 10.2147/JBM.
S245513.
12. Olt S., Ergenç H., Açıkgöz S. B. Predictive Contribution of Neutrophil/Lymphocyte Ratio in Diagnosis of Brucellosis. BioMed. Research International. 2015; 15: 1-4. DOI:10.1155/2015/210502.
13. Sen P., Demirdal T., Nemli S.A. Predictive Value of Inflammation
Markers in Brucellosis. Arch. Iran Med. 2019; 22(11): 640-5.
14. Küçükbayrak A., Taş T., Tosun M., Aktaş G., Alçelik A., Hakyemez
İ. N., Koçoğlu E., Akdeniz H. Could thrombocyte parameters be an
inflammatory marker in the brucellosis? Med. Glas. (Zenica). 2013;
10(1): 35-9.
15. Aktar F., Tekin R., Bektaş M.S., Güneş A., Köşker M., Ertuğrul S.,
Yılmaz K., Karaman K., Balık H., Yolbaş İ. Diagnostic role of inflammatory markers in pediatric Brucella arthritis. Ital. J. Pediatr.
2016; 42:3. DOI: 10.1186/s13052-016-0211-5.
16. Kaya H., Ertas F., Islamoglu Y., Kaya Z., Atılgan Z.A., Çil H. et
al. Association between neutrophil to lymphocyte ratio and severity of coronary artery disease. Clin. Appl. Thromb. Hemost. 2013;
20(1):50-4. DOI:10.1177/1076029612452116.
17. Zhang G.Y., Chen M., Yu Z.M., Wang X.D., Wang Z.Q. Relation between neutrophil-to-lymphocyte ratio and severity of coronary artery
stenosis. Genet. Mol. Res. 2014; 13(4):9382-9. DOI: 10.4238/2014.
18. Iliaz S., Iliaz R., Ortakoylu G., Bahadir A., Bagci B.A., Caglar E.
Value of neutrophil/lymphocyte ratio in the differential diagnosis
of sarcoidosis and tuberculosis. Ann. Thoraс. Med. 2014; 9(4):232-
5. DOI: 10.4103/1817-1737.140135.
19. Yoon N.-B., Son C., Um S.-J. Role of the neutrophil-lymphocyte
count ratio in the differential diagnosis between pulmonary tuberculosis and bacterial community-acquired pneumonia. Ann. Lab.
Med. 2013; 33(2):105-10. DOI: 10.3343/alm.2013.33.2.105.
20. Rifaioglu E.N., Şen B.B., Ekiz Ö., Dogramaci A.C. Neutrophil to
lymphocyte ratio in Behçet’s disease as a marker of disease activity.
Acta. Dermatovenerol. Alp. Pannonica Adriat. 2014; 23(4):65-7.
21. Hu Z.D., Sun Y., Guo J., Huang Y.L., Qin B.D., Gao Q. et al. Red
blood cell distribution width and neutrophil/lymphocyte ratio are
positively correlated with disease activity in primary Sjögren’s syndrome. Clin. Biochem. 2014; 47(18):287-90. DOI: 10.1016/j.clinbiochem.2014.08.022.
22. Young E.J., Tarry A., Genta R.M., Ayden N., Gotuzzo E. Thrombocytopenic Purpura Associated with Brucellosis: Report of 2 Cases
and Literature Review. Clin. Infect. Dis. 2000; 31(4): 904-9. DOI:
10.1086/318129.
23. Aon M., Al-Enezi T. Acute Brucellosis presenting with bleeding
tendency due to isolated severe thrombocytopenia. Case Rep. Infect.
Dis. 2018:7867435. DOI:10.1155/2018/7867435
. Abbaspour Rad Z., Sajedi B., Akbarieh S., Heydari A.H., Ali S. B.,
Mojdehi A.M . A case report of isolated thrombocytopenia induced
by brucellosis. Asian Pac. J. Trop. Dis. 2017; 7(3):181-2.
25. Tsirka A., Markesinis I., Getsi V., Chaloulou S. Severe thrombocytopenic purpura due to brucellosis. Scand. J. Infect. Dis. 2002;
34(7):535-6. DOI: 10.1080/003655402320208785.
26. Yilmaz M., Tiryaki O., Namiduru M., Okan V., Oguz A., Buyukhatipoglu H. et al. Brucellosis induced immune thrombocytopenia
mimicking ITP: a report of seven cases. Int. J. Lab. Hematol. 2007;
29(6):442-5. DOI: 10.1111/j.1365-2257.2006.00880.x.
27. Faraji F., Didgar F., Talaie-Zanjani A., Mohammadbeigi A. Uncontrolled seizures resulting from cerebral venous sinus thrombosis complicating neurobrucellosis. J. Neurosci. Rural. Pract. 2013;
4(3):313-6. DOI: 10.4103/0976-3147.118780.
28. Koubaa M., Frigui M., Cherif Y., Jallouli M., Kaddour N., Jemaa
M.B., Bahloul Z. Deep vein thrombosis associated with acute brucellosis: a case report and review of the literature. Korean J. Intern.
Med. 2013; 28(5):628-30. DOI: 10.3904/kjim.2013.28.5.628.
29. Davoudi A.R., Tayebi A., Najafi N., Kasiri E. Deep vein thrombosis
as a rare complication of brucellosis. Caspian J. Intern. Med. 2014;
5(2):127-9.
30. Kahn F., Hurley S., Shannon O. Platelets promote bacterial dissemination in a mouse model of streptococcal sepsis. Microbes. Infect.
2013; 15(10-11):669-76. DOI: 10.1016/j.micinf.2013.05.003.
31. Herter J.M., Rossaint J., Zarbock A. Platelets in inflammation and immunity. J. Thromb. Haemost. 2014; 12(11):1764-75. DOI: 10.1111/
jth.12730.
32. Engelmann B, Massberg S. Thrombosis as an intravascular effector of innate immunity. Nat. Rev. Immunol. 2013; 13(1):34–45. DOI:
10.1038/nri3345.
33. Marshall J.C. Why have clinical trials in sepsis failed? Trends. Mol.
Med. 2014; 20(4):195–203. DOI: 10.1016/j.molmed.2014.01.007.
34. Gregor L., Martin J., McGregor J.L. Platelet-leukocyte aggregates and derived microparticles in inflammation, vascular remodelling and thrombosis. Front Biosci. 2006; 11:830–7.
DOI:10.2741/1840.
35. Baldi P.C., Giambartolomei G.H. Immunopathology of Brucella infection / Recent Pat. Antiinfect. Drug. Discov. 2013; (1):18-26. DOI:
10.2174/1574891×11308010005.
36. Kraemer B.F., Campbell R.A., Schwertz H., Cody M.J., Franks Z.,
Tolley N.D. et al. Novel anti-bacterial activities of beta-defensin
1 in human platelets: suppression of pathogen growth and signaling of neutrophil extracellular trap formation. PLoS Pathog. 2011;
7(11):e1002355. DOI: 10.1371/journal.ppat.1002355.
37. МсDonald B., Urrutia R., Yipp B.G., Jenne C.N, Kubes P. Intravascular neutrophil extracellular traps capture bacteria from the
bloodstream during sepsis. Cell Host. Microbe. 2012; 12(3):324–33.
DOI:10.1016/j.chom.2012.06.011.
38. Gudbrandsdottir S., Hasselbalch H.C., Nielsen C.H. Activated platelets enhance IL-10 secretion and reduce TNF-alpha secretion by
monocytes. J. Immunol. 2013; 191(8):4059–67. DOI:10.4049/jimmunol.1201103.
39. Gerdes N., Zhu L., Ersoy M., Hermansson A., Hjemdahl P., Hu H.,
Hansson G.K., Li N. Platelets regulate CD4(+) T-cell differentiation via multiple chemokines in humans. Thromb. Haemost. 2011;
106(2):353–62. DOI:10.1160/TH11-01-0020.
40. Wuescher L.M., Takashima A., Worth R.G. A novel conditional
platelet depletion mouse model reveals the importance of platelets
in protection against Staphylococcus aureus bacteremia. J. Thromb.
Haemost. 2015; 13(2):303–13. DOI:10.1111/jth.12795.
41. Trotta A., Velásquez L.N., Milillo M.A., Delpino M.V., Rodríguez
A.M., Landoni V.I. et al. Platelets promote Brucella abortus monocyte invasion by establishing complexes with monocytes. Front. Immunol. 2018; 9:1000. DOI: 10.3389/fimmu.2018.01000.

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