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Loss of muscle mass is a major cause of intensive care unit-acquired weakness (ICU-AW) and is associated with delayed weaning; prolonged ICU and hospital stay and is an independent predictor of one year mortality.
Theoretically, the best strategy to minimize muscle loss during ICU stay, is delivering an appropriate nutritional support. Studying the correlation between the sequential assessments of quadriceps femoris muscle layer thickness (QMLT) by the aid of Ultrasound in addition to the traditional method (NB) for assessment of nutritional status may be helpful to predict outcome and mortality.
Protein catabolism and proteolysis, mainly in the skeletal muscles is highly accelerated in critical illness with severe acute inflammatory processes, such as sepsis, burns, and polytrauma patients. The resulting catabolic state may be linked to immunosuppression, poor wound healing, and intensive care unit-acquired weakness (ICU-AW), which are associated with delayed recovery and increased mortality. In order to prevent muscle-protein depletion, several strategies have been proposed. One of them is adequate nutrition. Higher protein intake appears to be beneficial and could mitigate the negative catabolic state by increasing the availability of exogenous amino acids.
The adequacy of protein intake could only be optimized by appropriate monitoring. Nitrogen balance (NB) is the commonly used tool in this context. It is considered a good marker of adequate protein intake, easy, and available method of assessing the success of nutritional therapy as it reflects the gain or loss of total body proteins by calculating the difference between dietary nitrogen intake and nitrogen losses.
Moreover, a considerable reduction in muscle mass begins within the first 3 days of ICU admission and progressively worsens; therefore quantifying the muscle size may help in recognizing patients at risk of ICU acquired weakness and also may guide the interventions to prevent this complication. So, it may help in monitoring the adequacy of nutritional therapy and protein intake.
The primary methods that have been explored to measure musculature include computed tomography (C.T), magnetic resonance imagining (MRI), ultrasonography (US), and bioimpedance. Ultrasonography as a noninvasive, practical, readily available, and bedside technique could be considered the first option for the quantification of muscle size in these patients.
The quadriceps muscle is the most studied muscle found to have strong correlation with muscle mass and strength. Its size can be measured by either the quadriceps muscle layer thickness (QMLT) or the cross-sectional area (CSA). However, QMLT have greater practicability as measurements could be obtained rapidly and in real time as well as it easier to identify than CSA.
Since, monitoring is the key to individualize and optimize the critical protein intake. We hypothesized that QMLT evaluation by ultrasound could be used to guide nutritional protein intake and is correlated to conventional monitoring with nitrogen balance in critically ill trauma patients.
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Ultrasound measurement of quadriceps muscle layer thickness | Device | With patient in supine position ultrasound will be performed using a 12MHZ Transducer connected to Sonosite M Turbo machine. The probe will be placed perpendicular to the long axis of the thigh on its anterior surface at the two thirds of the length between the anterior superior iliac spine and the upper border of the patella. After identifying the muscle tissue, the thickness of the quadriceps muscle will be obtained by measuring the distance between the cortex of femur and the most superficial muscular fascia. Measurements will be performed by applying maximal compression on the probe without inflicting pain to prevent underestimation of muscle wasting linked to subcutaneous edema. measurements will be made on both sides repeatedly on ICU days 1, 3, 7, and 10. Every time three ultrasound measurements will be taken per site and the average of three measurements for each site will be used and combined to provide total muscle depth |
| Measure | Description | Time Frame |
|---|---|---|
| correlation between Nitrogen Balance and quadriceps muscle layer thickness (QMLT) | To determine the correlation between Nitrogen Balance and QMLT detected by ultrasound | 10 days |
| Measure | Description | Time Frame |
|---|---|---|
| relationship between QMLT, pre-albumin, and CRP | To determine the correlation between pre-albumin and CRP and QMLT detected by ultrasound | 10 days |
| The impact of QMLT and NB on 28 day mortality. |
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Inclusion Criteria:
Exclusion Criteria:
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Critically ill trauma patients aged between 18 - 60 years of both sexes
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| Name | Affiliation | Role |
|---|---|---|
| Fatma M Ahmed, MD | Anesthesia and Surgical Intensive Care Department, Faculty of Medicine, Zagazig University | Study Director |
| Sherif MS Mowafy, MD | Anesthesia and Surgical Intensive Care Department, Faculty of Medicine, Zagazig University | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Emergency and Surgical Intensive Care Units, Zagazig University Hospitals | Zagazig | Sharqia Province | 44111 | Egypt |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 25733640 | Background | Liebau F, Wernerman J, van Loon LJ, Rooyackers O. Effect of initiating enteral protein feeding on whole-body protein turnover in critically ill patients. Am J Clin Nutr. 2015 Mar;101(3):549-57. doi: 10.3945/ajcn.114.091934. Epub 2015 Feb 4. | |
| 20036516 | Background | Fock RA, Blatt SL, Beutler B, Pereira J, Tsujita M, de Barros FE, Borelli P. Study of lymphocyte subpopulations in bone marrow in a model of protein-energy malnutrition. Nutrition. 2010 Oct;26(10):1021-8. doi: 10.1016/j.nut.2009.08.026. Epub 2009 Dec 29. |
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all IPD that underlie results in the publication
the IPD and any additional supporting information will become available starting 6 months after publication.
by contacting the study director
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| ID | Term |
|---|---|
| D014947 | Wounds and Injuries |
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To determine the correlation between nitrogen balance and QMLT detected by ultrasound and the outcome by 28 day mortality.
| 28 day |
| 12002213 | Background | Rai J, Gill SS, Kumar BR. The influence of preoperative nutritional status in wound healing after replacement arthroplasty. Orthopedics. 2002 Apr;25(4):417-21. doi: 10.3928/0147-7447-20020401-17. |
| 28289812 | Background | Latronico N, Herridge M, Hopkins RO, Angus D, Hart N, Hermans G, Iwashyna T, Arabi Y, Citerio G, Ely EW, Hall J, Mehta S, Puntillo K, Van den Hoeven J, Wunsch H, Cook D, Dos Santos C, Rubenfeld G, Vincent JL, Van den Berghe G, Azoulay E, Needham DM. The ICM research agenda on intensive care unit-acquired weakness. Intensive Care Med. 2017 Sep;43(9):1270-1281. doi: 10.1007/s00134-017-4757-5. Epub 2017 Mar 13. |
| Background | Andonovska, B.J., Andonovski, A.G., Kuzmanovska, B., Kartalov, A., Temelkovski, Z. the influence of nutrition on muscle wasting in critically ill patients - a pilot study.Sanamed 2018; 13(3):235 - 41 |
| Background | Felicetti-Lordani CR, Eckert RG, Valerio NMP,et al. Nitrogen balance in nutritional monitoring of critically ill adult patients:A prospective observational study.Yoğun Bakım Derg 2018; 8: 59-64. |
| 24108501 | Background | Puthucheary ZA, Rawal J, McPhail M, Connolly B, Ratnayake G, Chan P, Hopkinson NS, Phadke R, Dew T, Sidhu PS, Velloso C, Seymour J, Agley CC, Selby A, Limb M, Edwards LM, Smith K, Rowlerson A, Rennie MJ, Moxham J, Harridge SD, Hart N, Montgomery HE. Acute skeletal muscle wasting in critical illness. JAMA. 2013 Oct 16;310(15):1591-600. doi: 10.1001/jama.2013.278481. |
| 29110031 | Background | Nakanishi N, Oto J, Tsutsumi R, Iuchi M, Onodera M, Nishimura M. Upper and lower limb muscle atrophy in critically ill patients: an observational ultrasonography study. Intensive Care Med. 2018 Feb;44(2):263-264. doi: 10.1007/s00134-017-4975-x. Epub 2017 Nov 6. No abstract available. |
| 30377307 | Background | Price KL, Earthman CP. Update on body composition tools in clinical settings: computed tomography, ultrasound, and bioimpedance applications for assessment and monitoring. Eur J Clin Nutr. 2019 Feb;73(2):187-193. doi: 10.1038/s41430-018-0360-2. Epub 2018 Oct 30. |
| 31640395 | Background | Weinel LM, Summers MJ, Chapple LA. Ultrasonography to measure quadriceps muscle in critically ill patients: A literature review of reported methodologies. Anaesth Intensive Care. 2019 Sep;47(5):423-434. doi: 10.1177/0310057X19875152. Epub 2019 Oct 22. No abstract available. |
| 26773077 | Background | McClave SA, Taylor BE, Martindale RG, Warren MM, Johnson DR, Braunschweig C, McCarthy MS, Davanos E, Rice TW, Cresci GA, Gervasio JM, Sacks GS, Roberts PR, Compher C; Society of Critical Care Medicine; American Society for Parenteral and Enteral Nutrition. Guidelines for the Provision and Assessment of Nutrition Support Therapy in the Adult Critically Ill Patient: Society of Critical Care Medicine (SCCM) and American Society for Parenteral and Enteral Nutrition (A.S.P.E.N.). JPEN J Parenter Enteral Nutr. 2016 Feb;40(2):159-211. doi: 10.1177/0148607115621863. No abstract available. |
| 30348463 | Background | Singer P, Blaser AR, Berger MM, Alhazzani W, Calder PC, Casaer MP, Hiesmayr M, Mayer K, Montejo JC, Pichard C, Preiser JC, van Zanten ARH, Oczkowski S, Szczeklik W, Bischoff SC. ESPEN guideline on clinical nutrition in the intensive care unit. Clin Nutr. 2019 Feb;38(1):48-79. doi: 10.1016/j.clnu.2018.08.037. Epub 2018 Sep 29. |