5 research outputs found
Changes in the relative amounts of free fatty acids in the heart (left) and the brain (right) after 30 min cardiac arrest and 30 min cardiac arrest followed by 60 min CPB (n = 5).
<p>Changes in the relative amounts of free fatty acids in the heart (left) and the brain (right) after 30 min cardiac arrest and 30 min cardiac arrest followed by 60 min CPB (n = 5).</p
Metabolic changes in heart tissue (n = 5; <b><i>bold italic</i></b>, p<0.05; <i>italic</i>, 0.05
1<p>C, carbohydrate; P, peptide: A, Amino acid; L, lipid; N, nucleotide; X, xenobiotics; O, organic acid; F, cofactor</p><p>Metabolic changes in heart tissue (n = 5; <b><i>bold italic</i></b>, p<0.05; <i>italic</i>, 0.05</p
Metabolic changes in brain tissue (n = 5; <b><i>bold italic</i></b>, p<0.05; <i>italic</i>, 0.05
1<p>C, carbohydrate; P, peptide: A, Amino acid; L, lipid; N, nucleotide; X, xenobiotics; O, organic acid</p><p>Metabolic changes in brain tissue (n = 5; <b><i>bold italic</i></b>, p<0.05; <i>italic</i>, 0.05</p
Blood gas analysis, hematocrit, and lactate levels at baseline, 30 min post cardiac arrest, and 60 min post CPB (mean ± standard deviation, n = 5).
<p>Blood gas analysis, hematocrit, and lactate levels at baseline, 30 min post cardiac arrest, and 60 min post CPB (mean ± standard deviation, n = 5).</p
Changes in the relative amounts of glucose 6-phosphate, fructose-6-phosphate, and 3-phosholgycerate in the heart (left) and the brain (right) after 30 min cardiac arrest and 30 min cardiac arrest followed by 60 min CPB (n = 5).
<p>Changes in the relative amounts of glucose 6-phosphate, fructose-6-phosphate, and 3-phosholgycerate in the heart (left) and the brain (right) after 30 min cardiac arrest and 30 min cardiac arrest followed by 60 min CPB (n = 5).</p