NEXIS: Nutrition and Exercise in Critical Illness

Study Description

Brief Summary

This study proposes a novel early intervention combining Intravenous (IV) amino acids plus in-bed cycle ergometry exercise to improve physical outcomes in critically ill patients. The investigators hypothesize that this innovative approach will improve short-term physical functioning outcomes (primary outcome), as well as amino acid metabolism, body composition, and patient-reported outcomes at 6-month follow-up.

Detailed Description

The evaluation of a combination of exercise and protein supplementation in intensive care unit (ICU) patients is novel and potentially very important. For instance, outside of the ICU, in other clinical conditions, the combination of protein supplementation and exercise improves protein synthesis, muscle mass, and muscle strength compared to protein or exercise alone.[63-70] Hence, an opportunity exists to improve ICU patients' physical outcomes via evaluating the combination of optimized protein intake and early exercise in the ICU setting.

The proposed intervention and hypothesis: The investigators propose a multi-centered Phase II RCT, with blinded outcomes assessment, of a combination of intravenous (IV) amino acid supplementation and early in-bed cycle ergometry exercise versus usual care in ICU patients requiring mechanical ventilation. The investigators hypothesize that this novel combined intervention will: (1) improve physical functioning at hospital discharge; (2) reduce muscle wasting with improved amino acid metabolism and protein synthesis in-hospital; and (3) improve health-related quality of life, physical functioning, and healthcare resource utilization at 6 months after enrollment. Preliminary data show feasibility and safety of IV amino acids and the proposed exercise intervention. The investigators have chosen a primary outcome that correlates well with long-term outcomes including mortality, hospitalization, and quality of life. [54] If this Phase II trial is positive, investigators will seek funding for a Phase III RCT to demonstrate sustained improvements with a longer-term patient-centered primary outcome and to examine the feasibility, and facilitators/barriers of delivery of this intervention by ICU nurses, physical therapists, and others. If proven effective, this combined intervention has potential to revolutionize care of ICU patients and have a major public health impact on the growing number of ICU survivors.

Objectives: To demonstrate that the innovative combination of amino acid supplementation plus early in-bed cycle ergometry exercise improves physical outcomes of ICU patients.

Specific Aims of Full Phase II RCT:

1. Short-term performance-based physical function outcomes. To determine if a combined IV amino acid supplementation and in-bed cycle ergometry exercise intervention, compared to usual care, improves in hospital muscle strength and performance-based physical functioning outcomes in critically ill patients, using a primary endpoint of six-minute walk distance (6MWD) at hospital discharge.

2. Body composition. To determine if the combined intervention, compared to usual care, improves amino acid utilization and decreases muscle wasting in ICU patients (secondary endpoints).

3. Patient-reported outcomes and health care utilization at 6 months. To determine if the combined intervention, compared to usual care, improves physical functioning, health-related quality of life, and healthcare utilization at 6 months after study enrollment (secondary endpoints).

NEXIS Flame mechanisitic Ancillary sub study:

In the proposed sub-study, the addition of bronchoaveloar lavages, blood sampling and muscle sampling measures during the participant's ICU stay will provide the ability to examine the effects of the NEXIS intervention on inflammation as a possible mechanism for improved muscle weakness.

Specific Aims of the NEXIS FLAME mechanistic ancillary study:

1. To determine if the NEXIS intervention attenuates the release of IL-17 and related cytokines to reduce systemic inflammation in humans.

2. To determine if the NEXIS intervention reduces lung injury and neutrophilic lung inflammation in humans.

3. To determine if the NEXIS intervention attenuates skeletal muscle fiber atrophy via down regulation of muscle proteolytic pathways.

4. To determine if the NEXIS intervention, and exercise specifically, reduces the content of inflammatory cells in skeletal muscle.

Study Design

Outcome Measures

Primary Outcome Measures

1. Physical functioning [Hospital discharge (up to 26 weeks after randomization)]

   6-minute walk distance

Secondary Outcome Measures

1. Overall strength-upper extremity [Hospital discharge (up to 26 weeks after randomization)]

   MRC Sum-score (Medical Research Council (MRC) Scale for Muscle Strength). Subscales scored 0-5, where 5 is normal. Total score is the sum of the 6 upper extremity subscales.

2. Overall strength-lower extremity [Hospital discharge (up to 26 weeks after randomization)]

   MRC Sum-score (Medical Research Council (MRC) Scale for Muscle Strength). Subscales scored 0-5, where 5 is normal. Total score is the sum of the 6 lower extremity subscales.

3. Quadriceps force-lower extremity strength [Hospital discharge (up to 26 weeks after randomization)]

   Hand held dynamometry

4. Distal strength-hand grip strength [ICU and hospital discharge (up to 26 weeks after randomization)]

   Hand held dynamometry

5. Overall Physical Functional status - Short Physical Performance Battery [ICU and hospital discharge (up to 26 weeks after randomization)]

   Short Physical Performance Battery

6. Overall Physical Functional status - Functional Status Score - ICU [ICU and hospital discharge (up to 26 weeks after randomization)]

   Functional Status Score - ICU 5 items are performed: rolling, transfer from supine to sit, sitting at the edge of bed, transfer from sit to stand, and walking Each task is evaluated using an eight-point ordinal scale ranging from 0 (unable to perform) to 7 (complete independence) Item scores are summed The total score ranges from 0-35, with higher scores indicating better physical functioning.

7. Mortality [ICU and hospital discharge (up to 26 weeks after randomization)]

   Chart review

8. Length of ventilation [ICU and hospital discharge (up to 26 weeks after randomization)]

   Chart review

9. ICU stay [ICU and hospital discharge (up to 26 weeks after randomization)]

   Chart review

10. Hospital stay [ICU and hospital discharge (up to 26 weeks after randomization)]

    Chart review

11. ICU readmission [Hospital discharge (up to 26 weeks after randomization)]

    Chart review

12. Re-intubation [Hospital discharge (up to 26 weeks after randomization)]

    Chart review

13. Hospital-acquired infections [Hospital discharge (up to 26 weeks after randomization)]

    Chart review

14. Discharge location (e.g. home vs. rehab) [Hospital discharge (up to 26 weeks after randomization)]

    Chart review

15. Body composition - Ultrasound [Enrollment, hospital discharge, & ICU discharge (up to 26 weeks after randomization)]

    Ultrasound of quadriceps

16. Body composition - CT - Chest when clinically available [Enrollment, hospital discharge, & ICU discharge (up to 26 weeks after randomization)]

    Chest CT

17. Body composition - CT - Abdominal Scan when clinically available [Enrollment, hospital discharge, & ICU discharge (up to 26 weeks after randomization)]

    Abdominal CT scan at 3rd lumbar vertebra

18. Health-related quality of life - SF-36 [Telephone survey at 6 months]

    36-Item Short Form Health Survey (SF-36) All items are scored so that a high score defines a more favorable health state. Each item is scored on a 0 to 100 range so that the lowest and highest possible scores are 0 and 100 Items in the same scale are averaged together to create the 8 scale scores. Items that are left blank (missing data) are not taken into account when calculating the scale scores. Scale scores represent the average for all items in the scale that the respondent answered.

19. Health-related quality of life - EQ-5D-5L [Telephone survey at 6 months]

    EuroQol Group standardized measure of health status (EQ-5D-5L)

20. Physical functioning - Katz ADL [Hospital discharge (proxy) and telephone survey at 6 months]

    Katz Index of Independence in Activities of Daily Living (Katz ADL) Total score where 6 = High (patient independent) 0 = Low (patient very dependent)

21. Physical functioning - Lawton IADL [Telephone survey at 6 months]

    Lawton Instrument Activities of Daily Living Scale (Lawton IADL) A summary score ranges from 0 (low function, dependent) to 8 (high function, independent) for women and 0 through 5 for men to avoid potential gender bias.

22. Physical functioning/participation - return to work [Telephone survey at 6 months]

    Return to baseline work/activity

23. Physical functioning/participation - living location [Telephone survey at 6 months]

    Living location

24. Mental and Cognitive Functioning - MoCA-BLIND [Telephone survey at 6 months]

    MoCA-BLIND The total possible score is 22 points; a score of 18 or above is considered normal

25. Mental and Cognitive Functioning - HADS [Telephone survey at 6 months]

    Hospital Anxiety and Depression Scale The HADS questionnaire has seven items each for depression and anxiety subscales. Scoring for each item ranges from zero to three, with three denoting highest anxiety or depression level. A total subscale score of >8 points out of a possible 21 denotes considerable symptoms of anxiety or depression.

26. Mental and Cognitive Functioning - IES-R [Telephone survey at 6 months]

    Impact of Events Scale Scoring for each item ranges from 0-4 Total score ranges from 0-88, where a total score of 33 or over signifies the likely presence of PTSD

27. Health Care Resource Utilization [Telephone survey at 6 months]

    Admission to ICU, hospital, rehabilitation & nursing facility

28. Body composition - DEXA Scan [At Hospital Discharge]

    Whole Body DEXA Scan

29. Body Composition - Heavy water [Enrollment, Days 1-7]

    Fat-free and fat mass can be measured with D2O in body fluids using gas chromatography-tandem mass spectrometry.

30. Plasma and muscle protein synthesis - Heavy water [Enrollment, Days 1-7]

    Muscle protein synthesis will be analyzed with chromatography and mass spectrometry techniques.

31. NEXIS FLAME - Circulating inflammatory mediators [Enrollment, Days 3, 5, and 8]

    Blood IL-17, IL-23, IL-6, TNFα, CXCK1, CXCL5, CXCL8, CCL2, SP-D, KL-6, vWF, and leukocyte counts with differential

32. NEXIS FLAME - Lung Inflammation [Enrollment, Day 5]

    Bronchoalveolar lavage neutrophil counts, IL-17A, CXCL5, and protein

33. NEXIS FLAME - Muscle area [Enrollment, Day 5]

    Single muscle fiber cross-sectional area (CSA), UPS expression, MuRF1 expression, myosin protein content (all from vastus lateralis sampling)

34. NEXIS FLAME - Muscle inflammation [Enrollment, Day 5]

    Muscle macrophages (CD45+, CD206+)

Eligibility Criteria

Criteria

Inclusion Criteria:

1. ≥18 years old.

2. Requiring mechanical ventilation with actual or expected total duration of mechanical ventilation ≥ 48 hours.

3. Expected ICU stay ≥ 4 days after enrollment (to permit adequate exposure to the proposed intervention).

Exclusion Criteria:

1. 96 continuous hours of mechanical ventilation before enrollment.

2. Expected death or withdrawal of life-sustaining treatments within this hospitalization.

3. No expectation for any nutritional intake within the subsequent 72 hours.

4. Severe chronic liver disease (MELD score ≥20) or acute fulminant hepatitis.

5. Documented allergy to the amino acid intervention.

6. Metabolic disorders involving impaired nitrogen utilization

7. Not ambulating independently prior to illness that lead to ICU admission (use of gait aid permitted).

8. Pre-existing primary systemic neuromuscular disease (e.g. Guillain Barre).

9. Neuromuscular blocker infusion (eligible once infusion discontinued if other inclusion criteria met).

10. Intracranial or spinal process affecting motor function

11. Pre-existing cognitive impairment or language barrier that prohibits outcomes assessment.

12. Patients in hospital >5 days prior to ICU admission

13. Lower extremity impairments that prevent cycling (e.g. amputation, knee/hip injury).

14. Remaining intubated for airway protection only

15. Weight ≥150kg

16. Physician declines patient enrollment

17. Insufficient IV access

18. Pregnant

19. Incarcerated

Contacts and Locations

Locations

Sponsors and Collaborators

• Clinical Evaluation Research Unit at Kingston General Hospital
• University of Vermont
• Johns Hopkins University

Investigators

• Principal Investigator: Daren K Heyland, MD, MSc, Queen's University
• Principal Investigator: Renee D Stapleton, MD, PhD, University of Vermont
• Principal Investigator: Dale M Needham, MD, PhD, Johns Hopkins University

Study Documents (Full-Text)

More Information

Publications

• Burtin C, Clerckx B, Robbeets C, Ferdinande P, Langer D, Troosters T, Hermans G, Decramer M, Gosselink R. Early exercise in critically ill patients enhances short-term functional recovery. Crit Care Med. 2009 Sep;37(9):2499-505. doi: 10.1097/CCM.0b013e3181a38937.
• Chan KS, Pfoh ER, Denehy L, Elliott D, Holland AE, Dinglas VD, Needham DM. Construct validity and minimal important difference of 6-minute walk distance in survivors of acute respiratory failure. Chest. 2015 May;147(5):1316-1326. doi: 10.1378/chest.14-1808.
• Dowdy DW, Dinglas V, Mendez-Tellez PA, Bienvenu OJ, Sevransky J, Dennison CR, Shanholtz C, Needham DM. Intensive care unit hypoglycemia predicts depression during early recovery from acute lung injury. Crit Care Med. 2008 Oct;36(10):2726-33. doi: 10.1097/CCM.0b013e31818781f5.
• Fan E, Zanni JM, Dennison CR, Lepre SJ, Needham DM. Critical illness neuromyopathy and muscle weakness in patients in the intensive care unit. AACN Adv Crit Care. 2009 Jul-Sep;20(3):243-53. doi: 10.1097/NCI.0b013e3181ac2551. Review.
• Heyland D, Muscedere J, Wischmeyer PE, Cook D, Jones G, Albert M, Elke G, Berger MM, Day AG; Canadian Critical Care Trials Group. A randomized trial of glutamine and antioxidants in critically ill patients. N Engl J Med. 2013 Apr 18;368(16):1489-97. doi: 10.1056/NEJMoa1212722. Erratum in: N Engl J Med. 2013 May 9;368(19):1853. Dosage error in article text..
• Kho ME, Truong AD, Zanni JM, Ciesla ND, Brower RG, Palmer JB, Needham DM. Neuromuscular electrical stimulation in mechanically ventilated patients: a randomized, sham-controlled pilot trial with blinded outcome assessment. J Crit Care. 2015 Feb;30(1):32-9. doi: 10.1016/j.jcrc.2014.09.014. Epub 2014 Sep 22.
• National Heart, Lung, and Blood Institute Acute Respiratory Distress Syndrome (ARDS) Clinical Trials Network, Rice TW, Wheeler AP, Thompson BT, Steingrub J, Hite RD, Moss M, Morris A, Dong N, Rock P. Initial trophic vs full enteral feeding in patients with acute lung injury: the EDEN randomized trial. JAMA. 2012 Feb 22;307(8):795-803. doi: 10.1001/jama.2012.137. Epub 2012 Feb 5.
• National Heart, Lung, and Blood Institute ARDS Clinical Trials Network, Truwit JD, Bernard GR, Steingrub J, Matthay MA, Liu KD, Albertson TE, Brower RG, Shanholtz C, Rock P, Douglas IS, deBoisblanc BP, Hough CL, Hite RD, Thompson BT. Rosuvastatin for sepsis-associated acute respiratory distress syndrome. N Engl J Med. 2014 Jun 5;370(23):2191-200. doi: 10.1056/NEJMoa1401520. Epub 2014 May 18.
• Parry SM, Berney S, Koopman R, Bryant A, El-Ansary D, Puthucheary Z, Hart N, Warrillow S, Denehy L. Early rehabilitation in critical care (eRiCC): functional electrical stimulation with cycling protocol for a randomised controlled trial. BMJ Open. 2012 Sep 13;2(5). pii: e001891. doi: 10.1136/bmjopen-2012-001891. Print 2012.