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Indirect lung injury predictive model in experimental trauma

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dc.contributor.author Arnaut, Oleg
dc.contributor.author Grabovschi, Ion
dc.contributor.author Sandru, Serghei
dc.contributor.author Rojnoveanu, Gheorghe
dc.contributor.author Baltaga, Ruslan
dc.date.accessioned 2021-05-08T14:43:36Z
dc.date.available 2021-05-08T14:43:36Z
dc.date.issued 2021
dc.identifier.citation ARNAUT, Oleg, GRABOVSCHI, Ion, SANDRU, Serghei, ROJNOVEANU, Gheorghe, BALTAGA, Ruslan. Indirect lung injury predictive model in experimental trauma. In: The Moldovan Medical Journal. 2021, vol. 64, no 2, pp. 21-25. ISSN 2537-6381. DOI: https://doi.org/10.52418/moldovan-med-j.64-2.21.04
dc.identifier.issn 2537-6381
dc.identifier.issn 2537-6373
dc.identifier.uri http://moldmedjournal.md/wp-content/uploads/2021/05/64-2-Spaltul-2-vers-3-din-05-05.pdf
dc.identifier.uri https://doi.org/10.52418/moldovan-med-j.64-2.21.04
dc.identifier.uri http://repository.usmf.md/handle/20.500.12710/16744
dc.description Department of Human Physiology and Biophysics, Valeriu Ghereg Department of Anesthesiology and Intensive Care, Nicolae Anestiadi Department of Surgery, Nicolae Testemitanu State University of Medicine and Pharmacy, Chisinau, the Republic of Moldova en_US
dc.description.abstract Abstract Background: Trauma remains a medical-social problem, still having high lethality rate. Indirect lung injury (ILI) occurs in trauma due to systemic neutrophils activation and proteases release into primarily intact tissues. There are no data in the literature regarding ILI predictive models in trauma. Material and methods: In the experimental study (19 traumatized male rabbits), the proteases, antiproteases and the pulmonary morphological changes, assessed according to the SAMCRS score (Semiquantitative Reflected Qualitative Changes Assessment Scale) were followed. There were used two statistical instruments – correlational analysis and multivariate linear regression. Results: Initially, a correlational analysis between the values of the SAMCRS score and the proteases/ anti proteases was performed. The null hypothesis was rejected (F = 7.017, p = .002). The correlation coefficient of the predicted results and the real values of SAMCRSlungs was .854, the determination coefficient being .626. The final model included the following parameters: constant (B = 9.427; 95% CI 7.341, 11.513; p <.001); α2-macroglobulin0 (B = -4.053; 95% Cl -6.350, -1.757; p = .002); AEAMP0 (B = .002; 95% CI .000, .004; p = .075); AEAMP24 (B = -. 006; 95% CI -.010, -.002; p = .003); AECG2 (B = .081; 95% CI .040, .122; p = .001); AEE0 (B = -. 026; 95% CI -.040, -.011; p = .002). Conclusions: In this research, a predictive model for indirect lung injury in experimental trauma was developed, the predictors being some elements of the proteases/antiproteases system. This, in turn, allows the hypotheses emission regarding the pathophysiology, prophylaxis and treatment of ILI. en_US
dc.language.iso en en_US
dc.publisher The Scientific Medical Association of the Republic of Moldova en_US
dc.relation.ispartof The Moldovan Medical Journal en_US
dc.subject trauma en_US
dc.subject indirect lung injury en_US
dc.subject predictive model en_US
dc.subject.ddc UDC: 616.24-001-092.9 en_US
dc.title Indirect lung injury predictive model in experimental trauma en_US
dc.type Article en_US


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