The purpose of this study is to utilize the new indirect calorimetry Q-NRG device to the measurement of energy expenditure (EE) throughout your intensive care unit (ICU) stay and ultimately address fundamental questions about metabolism and energy requirements for critically ill patients. The study will use a new, investigational calorimeter called the Q-NRG (the study device, supplied by Cosmed, Italy). The word "investigational" means the study drug or device or biologic is still being tested in research studies and is not approved by the U.S. Food and Drug Administration (FDA). A calorimeter is a device that connects to your breathing machine tubing for a short period (about 30 minutes) and helps to determine what nutrition you may need in your current condition. There are FDA approved calorimeters that have been used as the current standard of care. These devices and the new Q-NRG calorimeter measure oxygen consumption and carbon dioxide production (the gas you breathe out when you exhale) and calculate energy expenditure. Unfortunately, previously existing calorimeters are complicated to use, cumbersome and require time for measurements. It is hoped the new calorimeter will be easier and more practical to use and, through the measurements we take, we will have a better understanding of a patient's caloric needs for healing. Muscle mass and quality play a role in determining EE and metabolic needs. Massive loss of muscle mass and quality that occurs in critical illness significantly affects EE and nutritional needs and should be accounted for in clinical nutrition delivery. Imaging (standard of care abdominal CT and MSK ultrasound) will be used to assess muscle mass, and muscle quality (amount of intramuscular adipose content; IMAT).
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
ICU pateints will be measured using the Q-NRG device for up to 30 mins. These measurements will take place every other day while the patients are in the ICU. Then they will occur a minimum of 3 times a week until discharge.
Duke University Medical Center
Durham, North Carolina, United States
Changes of Resting Energy expenditure(REE) over time, as measured by the indirect calorimetry Q-NRG device
The amount of CO2 produced combined with O2 consumed is called the REE (kcal/day) and is measured by the gases exchanged at the mouth.
Time frame: Minimum of every other day while in ICU (up to 10 days). Once discharged from ICU minimum of 3x a week until discharge (up to 3 weeks)
Changes of the Respiratory Exchange Ratio (RER) as measured by the indirect calorimetry Q-NRG device
RER (ratio of CO2 produced to O2 consumed is called the respiratory exchange ratio (RER) and is measured by the gases exchanged at the mouth
Time frame: Minimum of every other day while in ICU (up to 10 days). Once discharged from ICU minimum of 3x a week until discharge (up to 3 weeks)
Changes of Intramuscular adipose tissue (IMAT) content from the psoas at the Level of L3/Th3
the change over time of CT-derived area of intramuscular adipose tissue in cm2
Time frame: Minimum of every other day while in ICU (up to 10 days). Once discharged from ICU minimum of 3x a week until discharge (up to 3 weeks)
Changes of Intramuscular adipose tissue (IMAT) from rectus femurs - vastus laterals - temporalis - styloglossys
the change over time of Ultrasound-derived area of intramuscular adipose tissue in %
Time frame: Minimum of every other day while in ICU (up to 10 days). Once discharged from ICU minimum of 3x a week until discharge (up to 3 weeks)
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.