The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity

Osman Fuat Sönmez; Çiğdem Özer; Deniz Erbaş; Mehmet Altan; Gürsel Levent Oktar; Halim Soncul

doi:10.51645/khj.2025.546

Osman Fuat Sönmez^¹, Çiğdem Özer^², Deniz Erbaş^³, Mehmet Altan^¹, Gürsel Levent Oktar^⁴, Halim Soncul^⁴

¹Department of Physiology, İstanbul University-Cerrahpaşa, Cerrahpaşa Faculty of Medicine, İstanbul, Türkiye
²Department of Physiology, Gazi University Faculty of Medicine, Ankara, Türkiye
³Department of Physiology, University of Kyrenia Faculty of Medicine, North Cyprus
⁴Department of Cardiovascular Surgery, Gazi University Faculty of Medicine, Ankara, Türkiye

Keywords: Extracorporeal circulation; malonyldialdehyde; RSH; total nitric oxide; viscosity.

Abstract

Objective: One of the main determinants of morbidity and mortality after cardiopulmonary bypass (CPB) and its associated extracorporeal circulation (EC) is the oxidant stress that occurs during and after the procedures. There are unknowns about mechanisms that need to be revealed. This study aimed to examine the effecs of EC on oxidant, antioxidant parameters, and viscosity.

Methods: The study was carried out in 22 patients between the ages of 42 and 70 undergoing Coronary artery bypass grafting. Blood was drawn at seven different stages of the operation, including A: Pre-operative intensive care stage, B: Anesthesia, C: Connecting to the pump, D: After aortic cross-clamp, E: Release of the aortic cross-clamping, F: Disconnection from the pump, and G: Post-operative intensive care. Malonyldialdehyde (MDA) and Nitrite + Nitrate (NOx) levels were measured in terms of oxidant stress, and total sulfhydryl group (RSH) levels as an antioxidant indicator. Furthermore, plasma viscosity at each stage was measured.

Results: At the C stage, NOx and MDA levels increased, and RSH levels began to decrease. The highest MDA, NOx, and lowest RSH levels were detected in the F stage. Viscosity was also decreased after connection to the pump and increased after pump disconnection.

Conclusion: MDA and RSH levels were compatible with oxidant stress and antioxidant capacity reduction, respectively, caused by surgical trauma and non-physiological surfaces of EC. One of the reasons for the increase in NOx levels is the mechanical stimulation of the endothelium as a result of surgical procedures. Another reason may be that the erythrocytes circulating on the artificial surfaces of EC are exposed to mechanical stress and their eNOS expression. The decreased viscosity develops due to hemodilution and plasma protein denaturation.

Cite This Article: Sönmez OF, Özer Ç, Erbaş D, Altan M, Oktar GL, Soncul H. The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity. Koşuyolu Heart J 2026;29(1):8–15

BibTex	`@article{ kosuyolu_heart_j1965, doi = {10.51645/khj.2025.546}, author = {Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul}, title = {The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity}, journal = {Koşuyolu Heart J}, year = {2026}, volume = {29}, number = {1}, pages = {8-15}, publisher = {Kartal Koşuyolu High Specialization Training and Research Hospital} }`
RIS	`TY - JOUR AU - Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul PY - 2026 TI - The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity SP - 8 EP - 15 JO - Koşuyolu Heart Journal J2 - Koşuyolu Heart J VL - 29 IS - 1 PB - DO - 10.51645/khj.2025.546 ER -`
EndNote	`%0 Journal Article %A Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul %T The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity %J Koşuyolu Heart Journal %D 2026 %V 29 %N 1 %P 8-15 %R 10.51645/khj.2025.546`
APA	Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul (2026). The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity. Koşuyolu Heart Journal, 29(1), 8-15. doi:10.51645/khj.2025.546
MLA	Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul. "The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity" Koşuyolu Heart Journal, vol. 29, no. 1, 2026, pp. 8-15. doi:10.51645/khj.2025.546.
Chicago	Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul. "The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity" Koşuyolu Heart Journal 29, no. 1 (2026): 8-15. https://doi.org/10.51645/khj.2025.546.
AMA	Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul. The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity. Koşuyolu Heart J. 2026; 29(1): 8-15. doi:10.51645/khj.2025.546.
Vancouver	Osman Fuat Sönmez, Çiğdem Özer, Deniz Erbaş, Mehmet Altan, Gürsel Levent Oktar, Halim Soncul. The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity. Koşuyolu Heart J. 2026; 29(1): 8-15. doi:10.51645/khj.2025.546

The Effect of Extracorporeal Circulation on Oxidative Stress and Viscosity

Abstract

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