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Clinical Trial Summary

The aim of this study is to evaluate the effect of early exercise by cycle ergometry and early targeted feeding in reducing muscle atrophy and improve functional outcomes in the older critically ill patient.


Clinical Trial Description

Patients admitted to ICU are normally ventilated due to their critical illness and sedated for their comfort. This prolonged immobility from sedation leads to accelerated muscle atrophy and reconditioning when they recover from their critical illness. This leads to further complications from immobility like bed sores, hospital acquired infections, deep vein thrombosis and pulmonary embolisms. Many patients do not return to their pre-illness level of function and require long term care. Nutrition is frequently hard to assess when patients is in a catabolic state and sedated. There is a loss of appetite if the patient is awake to express it, and if sedated is depended on nasogastric feeding based on caloric empirical formulas invented more than 50 years ago. These formulas also do not accurately take into account exercise physiotherapy which patients will undergo while on ICU. With indirect calorimetry (IC), patients energy requirements can be estimated on a daily basis and can be fed accordingly. The IC is considered the gold standard in many guidelines for nutritional assessments but it is not commonly used due to cost and practical difficulties in measurements. The investigators intend to use the IC based on international recommendations to assess energy requirements daily and feed patients based on the data provided by the IC. Early rehabilitative type of exercises have been show to increase muscle mass and reduce length of stay in the elderly geriatric population by preventing deconditioning. There is some evidence that this also applies to the ICU population but in a ventilated patient on multiple therapies, this is extremely labour intensive. By utilising the cycle ergometry, this muscle atrophy may be reduced. Interestingly, studies on intensive physiotherapy have not shown to have a dramatic outcome in the elderly ICU population. This could be due to the catabolic rates and the inadequate feeding of a sedated patient who cannot express their hunger or satiety. By using the indirect calorimetry, a more accurate energy expenditure can be estimated and nutrition can be targeted. By combining these 2 therapies, the lengths of stay in hospital can be reduced and functional outcomes improved in this silver population. The investigators plan to conduct a randomised controlled trial. Participants will be randomised into 2 groups; the intervention and control group. Participants in the control group will receive standard empiric weight based feeding and standard physiotherapy. Participants in the intervention group will undergo daily IC measurements on admission and fed according to the energy expenditure measured by IC. In addition to standard physiotherapy, the participants in the intervention group will undergo cycle ergometry for up to 60 minutes daily. The participants in the intervention group will undergo 14 days of IC and cycle ergometry or until extubation (for IC), whichever is earlier. During this 14 day period, participants in both groups will undergo twice weekly quadriceps muscle ultrasounds to assess muscle thickness as a surrogate measure of muscle atrophy. After this 14 day period, the investigators will perform regular assessments of functional status (during the ICU/HD stay, on discharge to general ward, and on discharge from hospital). The investigators will also collect demographic and ICU assessment data from medical records. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03540732
Study type Interventional
Source National University Hospital, Singapore
Contact
Status Active, not recruiting
Phase N/A
Start date November 6, 2017
Completion date December 31, 2024

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