Articles: critical-illness.
-
Critical illness imposes a severe insult on the body, with various stressors triggering pronounced cell damage. This compromises cellular function, leading to a high risk of multiple organ failure. Autophagy can remove damaged molecules and organelles but appears insufficiently activated during critical illness. This review discusses insight into the role of autophagy in critical illness and the involvement of artificial feeding in insufficient autophagy activation in critical illness. ⋯ Insufficient autophagy during critical illness is at least partly explained by feeding-induced suppression. This may explain why early enhanced nutrition failed to benefit critically ill patients or even induced harm. Safe, specific activation of autophagy avoiding prolonged starvation opens perspectives for improving outcomes of critical illness.
-
Numerous micronutrients are involved in antioxidant and immune defence, while their blood concentrations are frequently low in critically ill patients: this has fuelled many supplementation trials. Numerous observational, randomized studies have been published, which are presented herein. ⋯ The needs in critical illness are higher than those of healthy individuals and must be covered to support immunity. Monitoring selected micronutrients is justified in patients requiring more prolonged ICU therapy. Actual results point towards combinations of essential micronutrients at doses below upper tolerable levels. Finally, the time of high-dose micronutrient monotherapy is probably over.
-
Curr Opin Crit Care · Aug 2023
ReviewIs there a role for ketones as alternative fuel in critical illness?
The evidence base advocating ketones as an alternative substrate for critically ill patients is expanding. We discuss the rationale for investigating alternatives to the traditional metabolic substrates (glucose, fatty acids and amino acids), consider evidence relating to ketone-based nutrition in a variety of contexts, and suggest the necessary future steps. ⋯ Whilst ketones provide an attractive nutritional option, further research is required to determine whether the proposed benefits are translatable to critically unwell patients.
-
Acta Anaesthesiol Scand · Aug 2023
Observational StudyPleural effusion and thoracentesis in ICU patients: A longitudinal observational cross-sectional study.
Pleural effusion is common among patients in the intensive care unit (ICU) but reported prevalence varies. Thoracentesis may improve respiratory status, however, indications for this are unclear. We aimed to explore prevalence, development, and progression of pleural effusion, and the incidence and effects of thoracentesis in adult ICU patients. ⋯ Pleural effusion was common in the ICU, but less than half of all patients with ultrasonographically significant pleural effusion underwent thoracentesis. Progression of pleural effusion without thoracentesis showed reduced volumes on subsequent days.
-
Background: As an immune marker, serum soluble programmed cell death ligand-1 (sPD-L1) is significantly increased in sepsis and is predictive of mortality. We investigated the prognostic value of sPD-L1 in postseptic immunosuppression and progression to chronic critical illness (CCI). Methods: Adults with sepsis in intensive care units (ICUs) for the first time were screened and assigned to either a CCI group (ICU stay ≥14 days with persistent organ dysfunction) or a rapid recovery (RAP) group based on clinical outcome. ⋯ D 7 -sPD-L1 remained higher in the CCI group, and the area under the curve that predicted the occurrence of CCI was equivalent to the APACHE II score, with areas under the curve of 0.782 and 0.708, respectively. Conclusions: The severity of infection and immunosuppression in sepsis may be linked to serum sPD-L1. D 7 -sPD-L1 is valuable in predicting the progression of CCI in patients.