Can the Critically Ill Patient Generate Sufficient Energy to Facilitate Exercise in the ICU?

Overview

Journal Curr Opin Clin Nutr Metab Care

Specialty General Medicine

Date 2017 Dec 13

PMID 29232263

Citations 11

Authors

Danielle E Bear

Selina M Parry

Zudin A Puthucheary

Affiliations

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Abstract

Purpose Of Review: Trials of physical rehabilitation post critical illness have yet to deliver improved health-related quality of life in critical illness survivors. Muscle mass and strength are lost rapidly in critical illness and a proportion of patients continue to do so resulting in increased mortality and functional disability. Addressing this issue is therefore fundamental for recovery from critical illness.

Recent Findings: Altered mitochondrial function occurs in the critically ill and is likely to result in decreased adenosine tri-phosphate (ATP) production. Muscle contraction is a process that requires ATP. The metabolic demands of exercise are poorly understood in the ICU setting. Recent research has highlighted that there is significant heterogeneity in energy requirements between critically ill individuals undertaking the same functional activities, such as sit-to-stand. Nutrition in the critically ill is currently thought of in terms of carbohydrates, fat and protein. It may be that we need to consider nutrition in a more contextual manner such as energy generation or management of protein homeostasis.

Summary: Current nutritional support practices in critically ill patients do not lead to improvements in physical and functional outcomes, and it may be that alternative methods of delivery or substrates are needed.

Citing Articles

Concurrent nutrition and physical rehabilitation interventions for patients with critical illness.

Gonzalez-Seguel F, Mayer K, Stapleton R Curr Opin Clin Nutr Metab Care. 2025; 28(2):140-147.

PMID: 39912392 PMC: 11803140. DOI: 10.1097/MCO.0000000000001099.

A systematic review and meta-analysis of the clinimetric properties of the core outcome measurement instruments for clinical effectiveness trials of nutritional and metabolic interventions in critical illness (CONCISE).

Davies T, Kelly E, van Gassel R, van de Poll M, Gunst J, Casaer M Crit Care. 2023; 27(1):450.

PMID: 37986015 PMC: 10662687. DOI: 10.1186/s13054-023-04729-7.

Inflammation and altered metabolism impede efficacy of functional electrical stimulation in critically ill patients.

Jameson T, Caldow M, Stephens F, Denehy L, Lynch G, Koopman R Crit Care. 2023; 27(1):428.

PMID: 37932834 PMC: 10629203. DOI: 10.1186/s13054-023-04664-7.

The metabolic cost of inspiratory muscle training in mechanically ventilated patients in critical care.

Jenkins T, MacBean V, Poulsen M, Karbing D, Rees S, Patel B Intensive Care Med Exp. 2023; 11(1):41.

PMID: 37415048 PMC: 10326210. DOI: 10.1186/s40635-023-00522-6.

Attenuating Muscle Mass Loss in Critical Illness: the Role of Nutrition and Exercise.

Chapple L, Parry S, Schaller S Curr Osteoporos Rep. 2022; 20(5):290-308.

PMID: 36044178 PMC: 9522765. DOI: 10.1007/s11914-022-00746-7.