Monitoring enteral nutrition efficacy in ICU patients: is there a place for the Brix value-derived fraction of enteral formula in gastric residual volume?

status: publishe

Plasma and red blood cell concentrations of zinc, copper, selenium and magnesium in the first week of paediatric critical illness

Background &amp; aims: Critically ill children are at risk of micronutrient deficiencies, which might lead to poor clinical outcomes. However, the interpretation of micronutrient concentrations in plasma is complicated due to age-dependent and critical illness-dependent changes. Certain red blood cell (RBC) concentrations might reflect the overall body status more reliably than plasma levels in the presence of systemic inflammatory response. This study longitudinally examined micronutrient concentrations in both plasma and RBC in critically ill children. Methods: This secondary analysis of the PEPaNIC RCT investigated the impact of early versus late initiation of parenteral macronutrient supplementation in critically ill children. All children received micronutrients when EN was insufficient (&lt;80 % energy requirements). Blood samples were obtained on days 1, 3, 5 and 7 of Paediatric Intensive Care Unit (PICU) admission. Inductively coupled plasma mass spectrometry was used to measure zinc, selenium, and copper in plasma and selenium, copper, and magnesium in RBCs. Plasma magnesium was measured with colorimetric detection. Micronutrient concentrations were compared with age-specific reference values in healthy children and expressed using Z-scores. Changes in micronutrient concentrations over time were examined using the Friedman and post hoc Wilcoxon signed-rank tests. Results:For 67 critically ill children, median (Q1; Q3) age 9.5 (5.5; 13.2) years, PIM3 score −2.3 (−3.1; −0.8), samples were available at various time points during their PICU stay. For 22 patients, longitudinal samples were available. On day 1, the median plasma Z-score for zinc was −5.2 (−5.2; −2.9), copper −1.6 (−2.9; −0.2), selenium −2.6 (−3.8; −1.0), magnesium −0.2 (−1.6; 1.3), and median RBC Z-score for copper was 0.5 (−0.1; 1.3), selenium −0.3 (−1.1; 0.7), magnesium 0.2 (−0.4; 1.3). In the longitudinal analysis, plasma zinc was significantly higher on day 5 (Z-score −3.2 (−4.6; −1.4)) than on day 1 (Z-score −5.2 (−5.2; −3.0), p = 0.032), and plasma magnesium was significantly higher on day 3 (Z-score 1.1 (−0.7; 4.0)) than on day 1 (Z-score −0.3 (−1.6; 0.5), p = 0.018). Plasma copper and selenium remained stable, and the RBC concentrations of all micronutrients remained stable during the first five days. Conclusions: Most patients had low plasma zinc, copper and selenium concentrations in the first week of their PICU stay, whereas they had normal to high RBC concentrations. More research is needed to examine the relationships between micronutrients and clinical outcome.</p

Improvement of information technology tools to collect, process and analyse data on wildlife population

ENETWILD consortium with the collaboration of the MammalNet project2 has promoted some informatic tools to improve the data collection of wildlife distribution and abundance: iMammalia; MammalWeb and Agouti. Here we update the activities in relation to (i) the new languages implemented; (ii) new functionalities, (iii) and the improvement and testing of the artificial intelligence module to identify species in Agouti. The iMammalia app is now available in 17 languages with at least two more to be added soon. MammalWeb is available in six languages with more to be added soon. Agouti is available in seven languages. iMammalia automates data transfer to the global database GBIF, and MammalWeb will consider a similar approach in the near future. Technical improvements were made to meet the needs of iMammalia as a carcass reporting app for wild boar, which will favour early awareness in case of ASF outbreak. As for density estimation through camera trapping, processing of big number of images by hand is tedious, and to facilitate the annotation process Agouti offers and has continuously improved automatic species recognition using Artificial Intelligence (AI). We summarize several topics for the further development of Agouti

Metabolic and nutritional support of critically ill patients: consensus and controversies.

The results of recent large-scale clinical trials have led us to review our understanding of the metabolic response to stress and the most appropriate means of managing nutrition in critically ill patients. This review presents an update in this field, identifying and discussing a number of areas for which consensus has been reached and others where controversy remains and presenting areas for future research. We discuss optimal calorie and protein intake, the incidence and management of re-feeding syndrome, the role of gastric residual volume monitoring, the place of supplemental parenteral nutrition when enteral feeding is deemed insufficient, the role of indirect calorimetry, and potential indications for several pharmaconutrients