Nd biochemical functions of individuals with acute myocardial infarction and controlsPatients (n= 108) Age (years) Men ( ) BMI (kg/m2) Diabetes mellitus ( ) Dyslipidemia ( ) Hypertension ( ) Smokers ( ) Alcohol ( ) Apo A1 (g/L) Apo B (g/L) TAS (mmol/L) Catalase (kU/g Hb) Homocysteine (mol/L) TBARS (mol/L) Troponine TnIc (g/L) Q wave AMI Non Q wave AMI Treatment Statins ( ) Beta-Blockers ( ) Ca-Blockers ( ) Diuretics ( ) 38 40 28 37 0 0 0 0 63 12 70 27 six 61 45 70 50 25 1.26 0.19 1.29 0.36 1.47 0.38 283 141 26.9 15.47 1.31 0.36 five,04 two,90 9,13 2,18 4,09 2,03 Controls (n =81) 59 9 38 23 three 0 0 0 six 0 1.5 0.17 0.92 0.22 1.71 0.22 652 104 14.75 2.69 0.71 0.12 0 0.001 0.001 0.001 0.001 0.001 0.001 NS P NSThirty one sufferers had a distinct improve of Q wave within the electrocardiogram established in the diagnostic. Patients with Q wave AMI had a drastically reduced erythrocyte catalase activity, larger serum tHcy and TBARS levels compared to individuals with non Q wave AMI (Figure 1).Results of Pearson correlationWe studied the Pearson correlation in between serum tHcy, erythrocyte catalase activity and serum TBARS in individuals. We discovered that erythrocyte catalase activity is negatively correlated with both serum tHcy and TBARS (r=-0.38, p0.001; r=-0.41, p0.001) (Figures two and three).Table two Erythrocyte catalase activity and serum total homocysteine in patients with distinctive cardiovascular threat factorsRisk element Sex Diabetes Men Yes No Dyslipidemia Yes No Obesity Yes No Hypertension Yes No Smoking Alcohol Yes No Yes No Catalase (kU/g Hb) 294 129 290 152 268 121 282 151 279 124 298 131 268 150 211 90 412 95 224 105 377 142 275 148 387 135 NS NS NS Ladies 271 152 NS P NS Homocysteine (mol/L) 25.eight 11.6 28 18.four 26.3 15.9 27.8 14.9 26.5 12.three 27.six 19.six 24.7 13.2 29.1 17.2 0.001 30 17 20.3 eight.2 0.001 28.4 13.1 24.five 18.7 24.5 18.7 28.6 11 NS NS 0.001 NS NS NS P NSValues are expressed as imply SD or percentage ( ). NS: not important, BMI: physique mass index, TAS: total antioxidant status.Values are expressed as imply SD. NS: not important.Noichri et al. Diagnostic Pathology 2013, eight:68 http://www.diagnosticpathology.org/content/8/1/Page 4 ofa.Catalase activity (kU/ g Hb)b.+Catalase activity(kU/ g Hb)Figure two Correlation in between erythrocyte catalase activity and serum total homocysteine in sufferers with AMI (r=-0.38, p0.001).tHcy ( ol/L)Furthermore, serum tHcy was identified positively correlated with serum TBARS level (r=0.Myc-tag Antibody web 4; p0.Elsulfavirine Epigenetics 001) (Figure four).PMID:23381601 c.+Discussion Myocardial infarction is actually a complicated and multifactor illness in which the cellular and molecular mechanisms contributing to myocardial injury have to be much more defined. In our information, investigation about oxidative anxiety parameters shows an improved serum TBARS level, as a lipid peroxidation marker, and a drop inside the total antioxidant capacity in patients with AMI in comparison to healthy subjects. As outlined by our observation, Pasupathi et al. have viewed as that the improved serum TBARS is really a consequence to excessive ROS generation. The authors reported it towards the raisedTBARS ( ol/L)-+Figure 1 Comparison involving sufferers with Q wave AMI and sufferers with non Q wave AMI as outlined by serum total homocysteine level (tHcy) (p0.001) (a), to erythrocyte catalase activity (p0.001) (b) and to plasma TBARS level (p0.05) (c).Catalase activity (kU/ g Hb)Figure 3 Correlation among erythrocyte catalase activity and TBARS levels in patients with AMI (r=-0.41, p0.001).TBARS ( ol/L)tHcy ( ol/L)Noichri et al. Diagnostic Pathology 2013, 8:68 http.
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