Hydrogen Peroxide Production in Neutrophils after Tourniquet Release
10.4055/jkoa.1996.31.2.388
- Author:
In Heon PARK
;
Kee Byoung LEE
;
Kyoung Won SONG
;
Jin Yong LEE
;
Jin Woo CHUN
- Publication Type:Original Article
- Keywords:
Tourniquet;
Hydrogen Peroxide;
Flow Cytometry
- MeSH:
Blood Gas Analysis;
Blood Pressure;
Clinical Study;
Extremities;
Flow Cytometry;
Free Radicals;
Hemodynamics;
Hydrogen Peroxide;
Hydrogen;
Hydrogen-Ion Concentration;
Ischemia;
Lactic Acid;
Leg;
Lower Extremity;
Lung Injury;
Myristic Acid;
Neutrophils;
Orthopedics;
Oxygen;
Potassium;
Reperfusion;
Shock;
Superoxides;
Tourniquets
- From:The Journal of the Korean Orthopaedic Association
1996;31(2):388-394
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
The use of lower extremity tourniquets for procedures of the lower leg is considered routine in orthopedic surgery, but, lower extremity tourniquets do harm occasionally. While the tourniquet is inflated, metabolic changes such as increased PaCO2 , lactic acid, and serum potassium and decreased level of PaO2 and pH occur in the ischemic limb. Deflation of tourniquet results in release of anaerobic metabolic products during ischemia into systemic circulation. In this ischemia/reperfusion situation, oxygen free radicals could potentially be produced during the reperfusion period by several mechanisms. One of these mechanisms is release of intracellular superoxide or hydrogen peroxide by activated neutrophils in the area. These reactive oxygen species(ROS) could be a causative factor for the postreperfusion no-flow, lung injury, induction of tourniquet shock, etc. The purpose of this clinical study was to investigate the effect of tourniquet deflation on the hemodynamic changes, changes of blood gas analysis, and hydrogen peroxide production using flow cytometric analysis of fluorescent DCF(Dichlorofluorescein). Quantitative analysis of fluorescent DCF was performed in resting and fMLP(N-formyl-methyonyl-leucyl-phenylalanine) or PMA(phorbol myristate acetate) stimulated neutrophils. Also differences of these factors between two groups of tourniquet time, one is less than one hour and the other more than one to two hours, were analysed. The hemodynamics(blood pressure, pulse rate), arterial PO2, bicarbonate, base excess, and hydrogen peroxide production showed no significant change before and after tourniquet release(p>0.05). Arterial pH and PaCO2 decreased significantly until 10 and 5 minutes after tourniquet release, respectively(p>0.05). Tourniquet time didn’t reveal any significances differences. These results indicate that tourniquet application with400mmHg pressure and less than 2 hours does not release significant hydrogen peroxide into systemic circulation during reperfusion period after tourniquet release.