Articles: critical-illness.
-
Intensive care medicine · Sep 2023
ReviewPrecision management of acute kidney injury in the intensive care unit: current state of the art.
Acute kidney injury (AKI) is a prototypical example of a common syndrome in critical illness defined by consensus. The consensus definition for AKI, traditionally defined using only serum creatinine and urine output, was needed to standardize the description for epidemiology and to harmonize eligibility for clinical trials. However, AKI is not a simple disease, but rather a complex and multi-factorial syndrome characterized by a wide spectrum of pathobiology. ⋯ Specific biomarkers (e.g., serum renin; olfactomedin 4 (OLFM4); interleukin (IL)-9) may further enable identification of pathobiological mechanisms to serve as treatment targets. However, even non-specific biomarkers of kidney injury (e.g., neutrophil gelatinase-associated lipocalin, NGAL; [tissue inhibitor of metalloproteinases 2, TIMP2]·[insulin like growth factor binding protein 7, IGFBP7]; kidney injury molecule 1, KIM-1) can direct greater precision management for specific sub-phenotypes of AKI. This review will summarize these evolving concepts and recent innovations in precision medicine approaches to the syndrome of AKI in critical illness, along with providing examples of how they can be leveraged to guide patient care.
-
Curr Opin Crit Care · Aug 2023
ReviewInsulin resistance in critical illness: consequences for nutrition therapy and glucose management.
Critically ill patients usually develop insulin resistance and hyperglycemia, which is aggravated by early parenteral nutrition. In observational studies, the lowest mortality risk associates with glucose concentrations close to the antecedent average glucose level. This review summarizes the most recent evidence regarding glucose control in critical illness. ⋯ It remains unclear whether tight glucose control in critical illness is beneficial or not in the absence of early parenteral nutrition, which is currently being studied in the multicenter TGC-fast randomized controlled trial. Without new evidence, it seems prudent to avoid severe hyperglycemia and hypoglycemia in all patients.
-
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.
-
To better understand the established associations between hypocalcaemia and clinical outcomes, we synopsize the mechanisms involved in hypocalcaemia in the critically ill. We also provide an overview of the current evidence on managing hypocalcaemia in critical illness. ⋯ Hypocalcaemia is common in critically ill patients. Direct evidence that calcium supplementation improves their outcomes is lacking, and there is even some indication that it may be detrimental. Prospective studies are required to elucidate the risks and benefits, and the pathophysiological mechanisms involved.