Evaluation of external respiratory activity and blood gas composition in functional class III patients with chronic heart failure patients, who have had Covid-19

Main Article Content

Ulugbek Ibragimov
Abdigaffar Gadaev
Rustam Turakulov
Oybek Abdukhalikov

Abstract

Changes in blood gas composition in patients with pulmonary hypertension developed on the basis of chronic heart failure are reported in a number of studies. However, the parameters of blood gas composition were not sufficiently studied in relation to the Covid-19 have not been sufficiently studied in this group of patients. In this article, blood gas composition was studied and in patients with pulmonary hypertension developed on the basis of chronic heart failure, and who have had Covid-19, and the results were analyzed before and after treatment composed of different components.


Google Scholar

Article Details


How to Cite
Ibragimov, U., Gadaev, A., Turakulov, R., & Abdukhalikov, O. (2022). Evaluation of external respiratory activity and blood gas composition in functional class III patients with chronic heart failure patients, who have had Covid-19. Scientific Collection «InterConf», (135), 270–279. Retrieved from https://archive.interconf.center/index.php/conference-proceeding/article/view/1861

References

Гадаев, А., Туракулов, Р., Пирматова, Н., Эшонкулов, С. (2022). Особенности течения хронической сердечной недостаточностью, перенесших Covid-19 по данным ретроспективного анализа историй болезни. Scientific Collection «InterConf+», (22(113), 338–348.

Национальные рекомендации ОССН, РКО и РНМОТ по диагностике и лечению ХСН (четвертый пересмотр) // Сердечная недостаточность. - 2013. - № 7(81). - С. 379-472..

Пирматова Н.В., Гадаев А.Г., Рахимова М.Э., Гадаева Н.А. Эндотелиальная дисфункция у больных хронической сердечной недостаточностью, перенесших и не болевших covid-19, Терапевтический вестник Узбекистана, 2021, № 2, 28-32-б.

Токмачев Р.Е., Мухортова М.С., Будневский А.В., Токмачев Е.В., Овсянников Е.С. Коморбидность хронической сердечной недостаточности и хронической обструктивной болезни легких: особенности патогенеза, клиники и диагностики. Кардиоваскулярная терапия и профилактика. 2018;17(6):62-68.

Alfonso F., Dutary J., Paulo M., Gonzalo N., Pйrez-Vizcayno M.J. et al. Combined use of optical coherence tomography and intravascular ultrasound imaging in patients undergoing coronary interventions for stent thrombosis // Heart. 2012. Vol. 98(16). P. 1213–1220.

Castiglione L, Droppa M. Pulmonary Hypertension and COVID-19. Hamostaseologie. 2022 Aug;42(4):230-238. doi: 10.1055/a-1661-0240. Epub 2021 Dec 21. PMID: 34933375.

Guazzi M., Arena R., Halle M. et al. 2016 Focused Update: Clinical Recommendations for Cardiopulmonary Exercise Testing Data Assessment in Specific Patient Populations. Circulation 2016; 133: e694-e711.

Han Y, Cho Y‐E, Ayon R, Guo R, Guo R, Youssef KD, Pan M, Dai A, Yuan JXJ, Makino A. SGLT inhibitors attenuate NO‐dependent vascular relaxation in the pulmonary artery but not in the coronary artery. Am J Physiol‐Lung Cell Mol Physio. 2015;309(9):L1027–L36.

Nassif ME, Qintar M, Windsor SL, Jermyn R, Shavelle DM,Tang F, Lamba S, Bhatt K, Brush J, Civitello A, Gordon R, Jonsson O, Lampert B, Pelzel J, Kosiborod MN. Empagliflozin effects on pulmonary artery pressure in patients with heart failure. Circulation. 2021;143(17):1673–86.

Ottestad W., Seim M., Mæhlen J.O. COVID-19 with silent hypoxemia. Tidsskr Nor Laegeforen. 2020; 140 (7). PMID: 32378842 DOI: 10.4045/tidsskr.20.0299.

Pagnesi M, Baldetti L, Beneduce A, et al. Pulmonary hypertension and right ventricular involvement in hospitalised patients with COVID-19. Heart 2020;106(17):1324–1331.].

Shah KS, Xu H, Matsouaka RA, Bhatt DL, Heidenreich PA, Hernandez AF et al. Heart Failure with Preserved, Borderline, and Reduced Ejection Fraction. Journal of the American College of Cardiology. 2017;70(20):2476–86. DOI: 10.1016/j.jacc.2017.08.074.

Solomon MD, McNulty EJ, Rana JS, Leong TK, Lee C, Sung SH, et al. The Covid-19 pandemic and the incidence of acute myocardial infarction. N Engl J Med. (2020) 383:691–3.

Tian S., Hu W., Niu L., Liu H., Xu H., Xiao S.-Y. Pulmonary pathology of early-phase 2019 novel coronavirus (COVID-19) pneumonia in two patients with lung cancer. J Thorac Oncol. 2020; 15 (5): 700–704. DOI: 10.1016/j.jtho.2020.02.010.

Tsao CW, Lyass A, Enserro D, Larson MG, Ho JE, Kizer JR et al. Temporal Trends in the Incidence of and Mortality Associated with Heart Failure with Preserved and Reduced Ejection Fraction. JACC: Heart Failure. 2018;6(8):678–85. DOI: 10.1016/j.jchf.2018.03.006.

Wang D., Hu B., Hu C. Clinical characteristics of 138 hospitalized patients with 2019 novel coronavirus-infected pneumonia in Wuhan, China. JAMA. 2020; 323: 1061–1069. PMID: 32031570 PMCID: PMC7042881 DOI: 10.1001/jama.2020.1585.

Xie J., C N., F Zh., Singh P., Gao W., Li G., Kara T., Virend K. S. Association Between Hypoxemia and Mortality in Patients With COVID-19. Mayo Clin Proc. 2020; 95 (6): 1138–1147. Published online 2020 Apr 11. DOI: 10.1016/j.mayocp.2020.04.006.

Xu Z., Shi L., Wang Y. Pathological findings of COVID-19 associated with acute respiratory distress syndrome. Lancet Respir Med. 2020; 8 (4): 420–422. DOI: 10.1016/S2213-2600 (20)30076-X.

Most read articles by the same author(s)