INTENT-Muscle (A Sub-study of INTENT)

Completed

• Conditions: Critically Ill
• Interventions: Dietary Supplement: Supplemental parenteral nutrition

• Registration Number: NCT04896515
• Lead Sponsor: Australian and New Zealand Intensive Care Research Centre

Brief Summary

The currently recruiting randomised controlled trial "Intensive Nutrition Therapy Compared to Usual Care in Critically Ill Adults" (INTENT, NCT03292237) is the first multi-centre trial to compare an intensive, individualised nutrition intervention to standard care for the duration of hospital admission in critically ill patients. INTENT-Muscle, is an observational longitudinal study nested within INTENT. The aim of INTENT-Muscle is to compare longitudinal changes in muscle health (assessed by bioimpedance and muscle ultrasound) in critically ill patients randomised to each arm of INTENT.

Detailed Description

Background: Critically ill patients may experience debilitating loss of muscle mass and strength, leading to substantial functional impairments both during and long after hospitalisation. Little is known about what therapies may attenuate deterioration of muscle health (muscle mass and muscle quality) in this setting but nutrition is thought to be important, based on the physiological response to critical illness.

The currently recruiting randomised controlled trial (RCT) "Intensive Nutrition Therapy Compared to Usual Care in Critically Ill Adults" (ClinicalTrials.gov Identifier: NCT03292237) is the first multi-centre trial to provide an individualised nutrition intervention for the duration of hospital admission in critically ill patients. Combining the most promising and novel bedside techniques for objectively measuring muscle health (bioimpedance technology and ultrasound) with a whole hospital nutrition intervention has never been done before, and will provide crucial data to understand the relationship between nutrition delivery and changes in muscularity from ICU admission to hospital discharge.

Aim: To explore changes in muscle health in response to an individualised nutrition intervention and in association with clinical and functional outcomes, using clinically applicable bedside techniques.

Secondary aims:

In both arms of INTENT to:

1. Compare longitudinal changes in bioimpedance variables (fat-free mass, normally hydrated lean tissue, extracellular/intracellular ratio, and variables from Cole modelling) to hospital discharge (or day 28)

2. Compare longitudinal changes in ultrasound variables (mid-upper arm and quadriceps muscle thickness, rectus femoris cross-sectional area, and rectus femoris echogenicity) to hospital discharge (or day 28)

3. Compare clinical and functional outcomes in patients identified as having low muscularity (assessed by ultrasound) at ICU admission

4. Investigate the relationship between bioimpedance and ultrasound variables with clinical and functional outcomes at baseline and over the hospital admission (collected as part of INTENT)

Hypothesis: In critically ill patients receiving individualised nutrition care for the duration of hospital admission (censored at study day 28), declines in phase angle and muscle health will be attenuated compared to patients receiving standard nutritional care.

Study Timeline

• Study First Submitted: 2021-04-15
• Study First Submitted QC: 2021-05-18
• Study First Posted: 2021-05-21
• Study Start: 2021-06-21
• Primary Completion: 2023-02-27
• Study Completion: 2023-02-27
• Status Verified: 2024-05
• Last Update Submitted: 2024-05-22
• Last Update Posted: 2024-05-24

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 21

Inclusion Criteria

• Randomised to the INTENT trial at a participating sub-study site

Exclusion Criteria

• Patients will be excluded from the sub-study if they have any of the following:

  • A pacemaker or electronic implantable device
  • Missing limb(s)
  • Unable to get adequate separation in the limbs (e.g. severe obesity)
  • Inaccessible site(s) for electrode placement (e.g. major burns, trauma)
  • Broken skin at the site(s) of electrode placement
  • The treating clinician does not believe the study to be in the best interest of the patient
  • Person responsible/Medical treatment decision maker is of non-English speaking background (therefore cannot provide informed consent) Note Before: If the Person responsible/medical treatment decision maker is of English speaking background but the patient is not (and the Person responsible/Medical treatment decision maker speaks the same language as the patient) you may continue assessing the patient for eligibility to INTENT-Muscle as the Person Responsible/Medical treatment decision maker can translate the Patient Information and Consent Form (PICF) and consent discussion with the patient in order to obtain continuing consent)

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Intensive Nutrition Arm	Supplemental parenteral nutrition	In ICU: 1. Supplemental PN will be commenced within 2 hours of randomisation. The starting dose will be determined by the amount of energy received in the 24 hours prior to randomisation 2. The need for the intervention will be based on the adequacy of nutrition provision and assessed daily until ICU discharge 3. If there is an interruption of EN for greater than 2 hours the PN must be run at 20 kcal/kg calculated body weight until EN is recommenced. After the interruption, EN should be recommenced as per local protocol. After ICU: 1. An intensive nutrition intervention will be provided on the ward. The goal of nutrition care across the hospital stay will be to ensure 80-100% of participant's estimated energy requirements are met.

Primary Outcome Measures

Name	Time	Method
Phase angle	Hospital admission (censored at study day 28)	To compare longitudinal changes in phase angle during hospital admission in patients randomised to both arms of INTENT.

Secondary Outcome Measures

Name	Time	Method
Change in BIS-derived normally-hydrated lean tissue	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived normally-hydrated lean tissue (kg) (generated using the Chamney model) from baseline to hospital discharge and every 7 days between.
Change in BIS-derived characteristic frequency (ωc, a Cole model variable)	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived Cole model variable characteristic frequency (ωc) from baseline to hospital discharge and every 7 days between.
Change in bioelectrical impedance spectroscopy (BIS) derived phase angle	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived phase angle from baseline to hospital discharge and every 7 days between
Change in BIS-derived impedance ratio	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived impedance ratio from baseline to hospital discharge and every 7 days between.
Change in BIS-derived fat-free mass	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived fat-free mass (kg) from baseline to hospital discharge and every 7 days between.
Change in BIS-derived extra-cellular water	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived extracellular water from baseline to hospital discharge and every 7 days between.
Change in ultrasound-derived bilateral quadriceps muscle thickness	Every 7 days during hospital admission (censored to study day 28)	Change in ultrasound-derived bilateral quadriceps muscle thickness (in centimetres) from baseline to hospital discharge and at measurement points (every 7 days during hospital admission).
Change in ultrasound-derived Rectus femoris echogenicity	Every 7 days during hospital admission (censored to study day 28)	Change in ultrasound-derived Rectus femoris echogenicity from baseline to hospital discharge and at measurement points (every 7 days during hospital admission).
Change in BIS-derived intracellular water	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived intracellular water from baseline to hospital discharge and every 7 days between.
Muscle mass at ICU admission	Baseline (Enrolment)	An estimate of whole-body muscularity at ICU admission (enrolment) will be assessed by ultrasound
Change in BIS-derived Cole model variable R infinity to R0	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived Cole model variable R infinity to R0 from baseline to hospital discharge and every 7 days between.
Change in BIS-derived membrane capacitance (a Cole model variable)	Every 7 days during hospital admission (censored to study day 28)	Change in BIS-derived Cole model variable membrane capacitance from baseline to hospital discharge and every 7 days between.
Change in ultrasound-derived Rectus femoris cross-sectional area	Every 7 days during hospital admission (censored to study day 28)	Change in ultrasound-derived Rectus femoris cross-sectional area (cm2) from baseline to hospital discharge and at measurement points (every 7 days during hospital admission).
Change in ultrasound-derived mid-upper arm muscle thickness	Every 7 days during hospital admission (censored to study day 28)	Change in ultrasound-derived muscle thickness (in centimetres) at the mid-upper arm from baseline to hospital discharge and at measurement points (every 7 days during hospital admission).

Trial Locations

Locations (6)

Nepean Hospital; 🇦🇺 Kingswood, New South Wales, Australia

Frankston Hospital; 🇦🇺 Frankston, Victoria, Australia

Blacktown Hospital; 🇦🇺 Blacktown, New South Wales, Australia

Ballarat Base Hospital; 🇦🇺 Ballarat, Victoria, Australia

The Alfred Hospital; 🇦🇺 Melbourne, Victoria, Australia

Auckland Hospital (CVICU); 🇳🇿 Auckland, New Zealand