Effect of Supplemental Enteral Fish Oil on the Development of Psychological Complications in Critically Ill Multiple-Trauma Patients: 6 Months' Follow-Up.

BACKGROUND: Posttraumatic stress disorder (PTSD) is common in intensive care unit (ICU) patients. Defic it intake of ω-3 polyuns aturated fatty ac ids (PUFAs) may be as sociated with developm ent of PTSD. METHODS: This study randomized mechanically ventilated patients suffering from multiple trauma (n = 150) into 2 groups: a study and a control group that received enteral feeding with or without fish oil. Fifty-one patients were interviewed 6 months after discharge from the ICU. Psychometric parameters of PTSD were assessed by questionnaires. The fatty acid composition of erythrocyte membranes was performed by homogenization of the cells in hexane-isopropanol. RESULTS: No differences were found in baseline characteristics between the groups. Erythrocyte membrane composition showed significantly higher concentrations of ω-3 fatty acids in the study group. Anxiety and depression symptoms were correlated with an increase in eicosapentaenoic acid (EPA) on days 4 and 8 for depression and EPA on day 4 and docosahexaenoic acid (DHA) on day 8 for anxiety. Total ω-3 content was positively correlated with anxiety and depression as well. An inverse correlation was found between DHA and EPA in the treatment group and with the total ω-3 and DHA in the control group for the Brief Illness Perceptions Questionnaire. CONCLUSION: Administration of an ω-3 PUFA-enriched diet during the ICU stay did not prevent development of PTSD in trauma patients 6 months after discharge from ICU.

Dietary pomegranate peel improves milk quality of lactating ewes: Emphasis on milk fat globule membrane properties and antioxidative traits.

Concentrated pomegranate peel extract (CPE) was supplemented to ewes, and milk yield and fat content-fatty acid (FA) and phospholipid (PL) composition-were monitored. CPE-fed ewes had higher milk yield, and fat, protein and lactose contents than controls. Milk PL content-20% higher in the CPE-supplemented group-was regulated by treatment and not by total fat content; milk phosphatidylethanolamine and phosphatidylcholine increased by 22 and 26%, respectively, in CPE-supplemented vs. control ewes. Milk saturated FA concentration was higher, and total polyunsaturated and monounsaturated FA content lower in the CPE vs. control group, regardless of milk total fat content. CPE supplementation increased milk antioxidant capacity, suggesting antioxidant transfer from dietary source to milk, increasing stability and nutritive value. Our study provides first evidence for milk quality improvement in terms of antioxidants and PL enrichment without compromising total milk fat, suggesting strategies to improve dairy animals' milk composition without compromising total production.

Changes in lipid droplets morphometric features in mammary epithelial cells upon exposure to non-esterified free fatty acids compared with VLDL.

The effects of the macrostructure of long chain fatty acids on the lipid metabolism and biosynthesis of lipid droplets (LD) was studied in mammary epithelial cells (MEC). MEC were exposed to similar compositions and concentrations of fatty acids in the form of either triglycerides (Tg), as part of the very-low-density lipids (VLDL) isolated from lactating cow plasma, or as non-esterified- free fatty acids (FFA). Exposing MEC to FFA resulted in two distinct processes; each independently could increase LD size: an elevation in Tg production and alterations in phospholipid (PL) composition. In particular, the lower PC/PE ratio in the FFA treatment indicated membrane destabilization, which was concomitant with the biosynthesis of larger LD. In addition, 6 fold increase in the cellular concentration of the exogenously added linoleic acid (C18:2) was found in MEC treated with FFA, implying that long chain fatty acids administrated as FFA have higher availability to MEC, enabling greater PL synthesis, more material for the LD envelope, thereby enhancing LD formation. Availability of long chain fatty acids administrated as VLDL-Tg, is dependent on LPL which its activity can be inhibited by the hydrolysis products. Therefore, we used increasing concentrations of albumin, to reduce the allosteric inhibition on LPL by the hydrolysis products. Indeed, a combined treatment of VLDL and albumin, increased LD size and number, similar to the phenotype found in the FFA treatment. These results reveal the role played by the macrostructure of long chain fatty acids in the regulation of LD size in MEC which determine the size of the secreted MFG.