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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02552446
Other study ID # CE:14-070
Secondary ID 13-18
Status Completed
Phase N/A
First received August 25, 2015
Last updated September 16, 2015
Start date April 2014
Est. completion date November 2014

Study information

Verified date September 2015
Source University Hospital, Geneva
Contact n/a
Is FDA regulated No
Health authority Switzerland: Ethikkommission
Study type Observational

Clinical Trial Summary

Indirect calorimetry is the gold standard to measure energy expenditure. In fact it is not always available and inconstantly feasible. Various equations for predicting energy expenditure based on body weights have been created. This study aims at determining the best suitable predictive strategy unless indirect calorimetry is available.


Description:

Several clinical studies have shown that energy deficit as well as overfeeding lead to an increased risk of complications, especially infections, and increased mortality. The gold standard for determining energy expenditure in intensive care patients is indirect calorimetry. This method is expensive and requires a trained team for its use. In addition the reliability of the measurements depends on the clinical situation and may not be feasible (e.g. inspiratory O2 fraction >60%, end expiratory pressure > 9cmH2O, presence of bronchial gap, etc.). Moreover, there is no longer on the market valid indirect calorimeter for clinical use in mechanically ventilated patients, and the maintenance of the old valid one (Deltatrac IIĀ®) becomes increasingly problematic because the lack of spare parts. Intensivists have no more choice and use prediction equations for energy expenditure which are based on imprecise anthropometric data (height, weight). Especially for obese or malnourished patients in the intensive care the body weight represents not a reliable data. Similarly, secondary water inflation due to metabolic stress and resuscitation complicates the determination of the real body weight. The difficulty is to know which weight to use in predictive equations. Due to the paucity in literature on this subject, there is currently no consensus on the reference weight to use in the determination of nutritional needs and medication doses. So each prescriber calculates the energy target by taking a reference weight based on his own convictions. This study is part of a quality process of care and practices harmonization, aiming to identify the reference weight to be used and the best suited predictive equation, to predict energy expenditure for patients who cannot benefit from an indirect calorimetry.


Recruitment information / eligibility

Status Completed
Enrollment 87
Est. completion date November 2014
Est. primary completion date November 2014
Accepts healthy volunteers No
Gender Both
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Patients admitted to the Geneva ICU

- Length of stay > 72 hours

- Mechanical ventilation with: FiO2 < 60%; positive end expiratory pressure < 9 cmH2O; no air leaks, absence of pulmonary multi-resistant bacteria

- Without mechanical ventilation: no claustrophobia; no oxygen dependence

Exclusion Criteria:

- All patients without inclusion criteria

Study Design

Time Perspective: Prospective


Related Conditions & MeSH terms


Locations

Country Name City State
Switzerland Service of Intensive Care, Geneva University Hospital, Geneva

Sponsors (1)

Lead Sponsor Collaborator
University Hospital, Geneva

Country where clinical trial is conducted

Switzerland, 

Outcome

Type Measure Description Time frame Safety issue
Primary Best energy expenditure prediction, compared to indirect calorimetry by Deltatrac II vs. various predictive equations based on different body weights (ideal, anamnestic, actual, and adjusted). Find the best energy expenditure prediction, by comparing results from an indirect calorimetry measurement using the Deltatrac II (considered the reference method), and various predictive equations based on body weight. The ideal body weights (calculated for a body mass index at 22.5 and 25 kg/m2, calculated with the Brocca and Lorentz equations and calculated with the Metropolitan Life Insurance tables), the anamnestic body weight (recorded from the patient/his family members or the electronical medical file), the actual body weight (using a built- in bed scale), and adjusted body weight (determined by correcting the measured body weight according to the cumulative fluid balance) will be recorded and used to calculate various predictive energy expenditure. Time frame will be 24 hours; no further follow-up will be done. No
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