Nutrition
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Randomized Controlled Trial Clinical Trial
Soybean oil, blackcurrant seed oil, medium-chain triglycerides, and plasma phospholipid fatty acids of stressed patients.
Thirty-six adult severe head injury and cerebral stroke patients in four intensive-care units were randomized to receive one of three enteral diets for 21 days. These diets, which supplied 45% of calories from fat, differed only in lipid composition. Diet A was comprised of 100% soybean oil, diet B contained a 50:50 (wt/wt) mixture of soybean oil and medium-chain triglycerides (MCTs), and diet C contained 42.5% MCT, 50% soybean oil, and 7.5% blackcurrant seed oils. ⋯ Furthermore, 18:3 omega 6 change was significantly different between groups A and C and that of 20:3 omega 6 between group A and both groups B and C. Throughout the study, arachidonic acid (20:4 omega 6) exhibited remarkable steady-state levels regardless of the diet. This study shows that providing the injured body with high amounts of 18:2 omega 6 does not lead to high levels of its upper derivatives in plasma phospholipids.(ABSTRACT TRUNCATED AT 250 WORDS)
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Metabolic and hemodynamic measurements performed in 72 septic (S) and 40 nonseptic (NS) surgical patients undergoing total parenteral nutrition were analyzed to assess the role of substrate supply as a determinant of O2 extraction (O2Ex). In S, O2Ex was inversely related to cardiac index (CI); at any given CI, significant increases in O2Ex with simultaneous increases in O2 consumption (VO2) were related to increasing doses of amino acids, with a less remarkable effect of fat and no effect of glucose dose. ⋯ The increase in VO2 per gram of administered amino acids, at any CI and O2 transport index, was 817 ml in S and 267 ml in NS. These results suggest that the impaired O2Ex and VO2 in S may at least partly reflect abnormalities in substrate utilization and that amino acid support may have a role in modulating these abnormal O2Ex patterns by providing preferential substrate for oxidative metabolism.
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Biography Historical Article
John M. Kinney Award. Reflections on a long term interest in energy metabolism and injury.