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Feeding should be individualized in the critically ill patients.
Berger, MM, Pichard, C
Current opinion in critical care. 2019;(4):307-313
Abstract
PURPOSE OF REVIEW Any critical care therapy requires individual adaptation, despite standardization of the concepts supporting them. Among these therapies, nutrition care has been repeatedly shown to influence clinical outcome. Individualized feeding is the next needed step towards optimal global critical care. RECENT FINDINGS Both underfeeding and overfeeding generate complications and should be prevented. The long forgotten endogenous energy production, maximal during the first 3 to 4 days, should be integrated in the nutrition plan, through a slow progression of feeding, as full feeding may result in early overfeeding. Accurate and repeated indirect calorimetry is becoming possible thanks to the recent development of a reliable, easy to use and affordable indirect calorimeter. The optimal timing of the prescription of the measured energy expenditure values as goal remains to be determined. Optimal protein prescription remains difficult as no clinically available tool has yet been identified reflecting the body needs. SUMMARY Although energy expenditure can now be measured, we miss indicators of early endogenous energy production and of protein needs. A pragmatic ramping up of extrinsic energy provision by nutrition support reduces the risk of overfeeding-related adverse effects.
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2.
Diabetes Insipidus and Syndrome of Inappropriate Antidiuretic Hormone in Critically Ill Patients.
Harrois, A, Anstey, JR
Critical care clinics. 2019;(2):187-200
Abstract
Diabetes insipidus and the syndrome of inappropriate antidiuretic hormone secretion lie at opposite ends of the spectrum of disordered renal handling of water. Whereas renal retention of water insidiously causes hypotonic hyponatremia in syndrome of inappropriate antidiuretic hormone secretion, diabetes insipidus may lead to free water loss, hypernatremia, and volume depletion. Hypernatremia and hyponatremia are associated with worse outcomes and longer intensive care stays. Moreover, pathologies causing polyuria and hyponatremia in patients in intensive care may be multiple, making diagnosis challenging. We provide an approach to the diagnosis and management of these conditions in intensive care patients.
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3.
[DGEM Guideline "Clinical Nutrition in Critical Care Medicine" - short version].
Elke, G, Hartl, WH, Kreymann, KG, Adolph, M, Felbinger, TW, Graf, T, de Heer, G, Heller, AR, Kampa, U, Mayer, K, et al
Anasthesiologie, Intensivmedizin, Notfallmedizin, Schmerztherapie : AINS. 2019;(1):63-73
Abstract
PURPOSE Variations of clinical nutrition may affect outcome of critically ill patients. Here we present the short version of the updated consenus-based guideline (S2k classification) "Clinical nutrition in critical care medicine" of the German Society for Nutritional Medicine (DGEM) in cooperation with 7 other national societies. The target population of the guideline was defined as critically ill adult patients who suffer from at least one acute organ dysfunction requiring specific drug therapy and/or a mechanical support device (e.g. mechanical ventilation) to maintain organ function. METHODS The former guidelines of the German Society for Nutritional Medicine (DGEM) were updated according to the current instructions of the Association of the Scientific Medical Societies in Germany (AWMF) valid for a S2k-guideline. We considered and commented the evidence from randomized-controlled trials, meta-analyses and observational studies with adequate sample size and high methodological quality (until May 2018) as well as from currently valid guidelines of international societies. The liability of each recommendation was indicated using linguistic terms. Each recommendation was finally validated and consented by a Delphi process. RESULTS The short version presents a summary of all 69 consented recommendations for essential, practice-relevant elements of clinical nutrition in the target population. A specific focus is the adjustment of nutrition according to the phases of critical illness, and to the individual tolerance to exogenous substrates. Among others, recommendations include the assessment of nutritional status, the indication for clinical nutrition, the timing, route, magnitude and composition of nutrition (macro- and micronutrients) as well as distinctive aspects of nutrition therapy in obese critically ill patients and those with extracorporeal support devices. CONCLUSION The current short version of the guideline provides a concise summary of the updated recommendations for enteral and parenteral nutrition of adult critically ill patients who suffer from at least one acute organ dysfunction requiring pharmacological and/or mechanical support. The validity of the guideline is approximately fixed at five years (2018 - 2023).
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4.
Lung Ultrasound for Critically Ill Patients.
Mojoli, F, Bouhemad, B, Mongodi, S, Lichtenstein, D
American journal of respiratory and critical care medicine. 2019;(6):701-714
Abstract
Point-of-care ultrasound is increasingly used at the bedside to integrate the clinical assessment of the critically ill; in particular, lung ultrasound has greatly developed in the last decade. This review describes basic lung ultrasound signs and focuses on their applications in critical care. Lung semiotics are composed of artifacts (derived by air/tissue interface) and real images (i.e., effusions and consolidations), both providing significant information to identify the main acute respiratory disorders. Lung ultrasound signs, either alone or combined with other point-of-care ultrasound techniques, are helpful in the diagnostic approach to patients with acute respiratory failure, circulatory shock, or cardiac arrest. Moreover, a semiquantification of lung aeration can be performed at the bedside and used in mechanically ventilated patients to guide positive end-expiratory pressure setting, assess the efficacy of treatments, monitor the evolution of the respiratory disorder, and help the weaning process. Finally, lung ultrasound can be used for early detection and management of respiratory complications under mechanical ventilation, such as pneumothorax, ventilator-associated pneumonia, atelectasis, and pleural effusions. Lung ultrasound is a useful diagnostic and monitoring tool that might in the near future become part of the basic knowledge of physicians caring for the critically ill patient.
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The Long and Winding Road to Personalized Glycemic Control in the Intensive Care Unit.
Tickoo, M
Seminars in respiratory and critical care medicine. 2019;(5):571-579
Abstract
In the critically ill adult, dysglycemia is a marker of disease severity and is associated with worse clinical outcomes. Close monitoring of glucose and use of insulin in critically ill patients have been done for more than 2 decades, but the appropriate target glycemic range in critically ill patients remains controversial. Physiological stress response, levels of inflammatory cytokines, nutritional intake, and level of mobility affect glycemic control, and a more personalized approach to patients with dysglycemia is warranted in critically ill intensive care unit (ICU) patients. We discuss the pathophysiology and downstream effects of altered glycemic response in critical illness, management of glycemic control in the ICU, and future strategies toward personalization of critical care glycemic management.
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6.
Nutrition risk screening in the ICU.
Kondrup, J
Current opinion in clinical nutrition and metabolic care. 2019;(2):159-161
Abstract
PURPOSE OF REVIEW To review recent studies that may help to identify patients in the ICU who benefit from nutrition support. RECENT FINDINGS One recent controlled trial did not show any clinical benefit of nutrition support among a sample of ICU patients who were hitherto believed to benefit from nutrition support. Several recent observational studies suggest benefit of nutrition support among patients who have a high nutric score, in itself derived from an observational study. SUMMARY Regrettably, the decision about nutrition support in ICU patients still depends on physiological reasoning: a high degree of inflammation/stress metabolism, which will last for a considerable time, especially among those who are fragile (already malnourished, elderly, those with chronic diseases and/or other comorbidities).
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7.
The Importance of the Microbiome in Critically Ill Patients: Role of Nutrition.
Moron, R, Galvez, J, Colmenero, M, Anderson, P, Cabeza, J, Rodriguez-Cabezas, ME
Nutrients. 2019;(12)
Abstract
Critically ill patients have an alteration in the microbiome in which it becomes a disease-promoting pathobiome. It is characterized by lower bacterial diversity, loss of commensal phyla, like Firmicutes and Bacteroidetes, and a domination of pathogens belonging to the Proteobacteria phylum. Although these alterations are multicausal, many of the treatments administered to these patients, like antibiotics, play a significant role. Critically ill patients also have a hyperpermeable gut barrier and dysregulation of the inflammatory response that favor the development of the pathobiome, translocation of pathogens, and facilitate the emergence of sepsis. In order to restore the homeostasis of the microbiome, several nutritional strategies have been evaluated with the aim to improve the management of critically ill patients. Importantly, enteral nutrition has proven to be more efficient in promoting the homeostasis of the gut microbiome compared to parenteral nutrition. Several nutritional therapies, including prebiotics, probiotics, synbiotics, and fecal microbiota transplantation, are currently being used, showing variable results, possibly due to the unevenness of clinical trial conditions and the fact that the beneficial effects of probiotics are specific to particular species or even strains. Thus, it is of great importance to better understand the mechanisms by which nutrition and supplement therapies can heal the microbiome in critically ill patients in order to finally implement them in clinical practice with optimal safety and efficacy.
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8.
Nutritional support in the recovery phase of critically ill children.
Joosten, KFM, Eveleens, RD, Verbruggen, SCAT
Current opinion in clinical nutrition and metabolic care. 2019;(2):152-158
Abstract
PURPOSE OF REVIEW The metabolic stress response of a critically ill child evolves over time and thus it seems reasonable that nutritional requirements change during their course of illness as well. This review proposes strategies and considerations for nutritional support during the recovery phase to gain optimal (catch-up) growth with preservation of lean body mass. RECENT FINDINGS Critical illness impairs nutritional status, muscle mass and function, and neurocognition, but early and high intakes of artificial nutrition during the acute phase cannot resolve this. Although (parenteral) nutrient restriction during the acute phase appears to be beneficial, persistent nutrient restriction, when the metabolic stress response resolves, has short-term and long-term detrimental consequences. Requirements increase markedly during the recovery phase to enable recovery and catch-up growth. Such large amounts of intake demand for alternate approach, especially when intestinal problems constitute a barrier for full enteral feeding. As part of the nutritional recovery, mobilization and exercise are essential to achieve catch-up growth with an optimal body composition. SUMMARY During the recovery phase of paediatric critical illness (catch-up) growth and muscle recovery require nutritional intakes at least two times the resting energy expenditure.
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Timing of Renal Replacement Therapy for Acute Kidney Injury.
Karakala, N, Tolwani, AJ
Journal of intensive care medicine. 2019;(2):94-103
Abstract
Acute kidney injury (AKI) is common in critically ill patients and associated with increased morbidity and mortality. With the increased use of renal replacement therapy (RRT) for severe AKI, the optimal time for initiation of RRT has become one of the most probed and debated topic in the field of nephrology and critical care. There appears to be an increased trend toward earlier initiation of RRT to avoid life-threatening complications associated with AKI. Despite the presence of a plethora of studies in this field, the lack of uniformity in study design, patient population types, definition of early and late initiation, modality of RRT, and results, the optimal time for starting RRT in AKI still remains unknown. The beneficial effects reported in observational studies have not been supported by clinical trials. Recently, 2 of the largest randomized control trials evaluating the timing of RRT in critically ill patients with AKI showed differing results. We provide an in-depth review of the available data on the timing of dialysis in patients with AKI.
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10.
Select topics in the management of critically ill children.
Hughes, K, Buenger, L
American journal of health-system pharmacy : AJHP : official journal of the American Society of Health-System Pharmacists. 2019;(19):1532-1543
Abstract
PURPOSE The purpose of this review article is to discuss considerations for the critically ill child presenting to an emergency department (ED) with pharmacists who have minimal to no pediatric training. SUMMARY In 2015, 17% of all children visited an ED, constituting 30 million visits. The majority of these children were treated at community hospitals where pediatric care resources, including a pediatric-trained pharmacist, may be limited. Because of the complex array of ages and disease states, the care of critically ill children in the ED creates many concerns for adult and community hospitals. This article will focus on several common disease states seen in the pediatric ED, including septic shock, trauma, status epilepticus, and diabetic ketoacidosis. CONCLUSION Critically ill children admitted to a community or adult ED provide therapeutic dilemmas and medication safety concerns. A pharmacist with training or experience in pediatrics can have a major impact in patient outcomes in many of the disease states seen in these pediatric patients. This article highlights several key differences between critically ill pediatric and adult patients to better prepare all pharmacists to care for these vulnerable patients.