Atrophy of Rectus Femoris Muscle (Physical Finding) Clinical Trial
Official title:
Relationship Between Protein Intake and ICU Skeletal Muscle Weakness
Muscle wasting is a common finding in critically ill patients and is associated with adverse outcomes. A good strategy for avoiding or decreasing muscle loss is adding adequate quantities of protein to the nutritional therapy administered during the acute phase of the disease during the ICU stay. The aim of this prospective study is to compare the effect of different levels of protein enteral feeding on Rectus Femoris Muscle mass in mechanically ventilated patients.
Muscle wasting is a common finding in critically ill patients and is associated with adverse outcomes. Loss of mass and function of skeletal muscles start early in the first 24 h after admission and may persist for years (post-ICU syndrome). It is a major cause of ICU-acquired muscle weakness and is associated with delayed weaning, prolonged ICU and hospital stay, and is an independent predictor of 1-year mortality. Long-term muscle impairment affects the quality of life of ICU survivors as it is responsible for physical, mental, and cognitive dysfunction and increases the costs of health care services. Trauma is always associated with stress leading to multisystem alterations, changes in macronutrient metabolism, as well as endocrine-metabolic activities, and immunological responses. The stress response increases energy expenditure (EE) and the use of protein reserves. The mobilization of these reserves is not a unidirectional catabolic process but it results in an imbalance between protein synthesis and degradation depending on the magnitude of the trauma. The resulting negative protein balance may be associated with immunosuppression; poor wound healing, muscle weakness, reduced survival, increasing length of hospitalization, and the accompanying costs. Some authors consumed that a good strategy for avoidance or decreasing muscle loss is by adding adequate quantities of protein to the nutritional therapy administered during the acute phase of the disease during ICU stay. In this regard, the evaluation of skeletal muscles by B- mode Ultra-Sonography is an emerging and reliable tool to assess muscle changes over time. It is a bedside technique, easy to use, and inexpensive. Patients and methods: Patients will be randomly classified into 2 groups 1:1 according to their protein intake: Group I (low normal protein intake group): Patients in this group will receive protein at (0.8 -1.5 gm/kg/day). Group II (High normal protein intake group): Patients in this group will receive protein (1.6 - 2.2 gm/kg/day). For each patient on 1st day of admission, the following demographics and clinical data will be recorded: age, weight, body mass index (BMI), Glasgow Coma Scale (GCS), blood levels of albumin, total protein, and creatinine, then complete nutritional assessment is done for every patient by modified NUTRIC risk assessment tool. Nutritional support This study will be carried out on you in the intensive care unit of tufts medical center. Enteral feeding will be started as soon as the condition will be stable, usually within 24 hours. The caloric requirement for you will be detected by indirect calorimetry or calculation (30/35 Kcal/Kg/day) and will be supplied in the form of high caloric Entral formula (1.5kcal/ml, 237ml contains 15.1 g protein) and the protein supplementation will be completed by the addition of enteral supplemental protein (beneprotein) as required to reach the target level of protein to reach at least minimum protein requirement 0.8 grams per kilogram of body weight Tube feeding will be started at a very low rate (10-20 ml/h) and the rate will be increased 25 ml every 6 hours until standard requirements of caloric and protein intake is achieved. The patient's intolerance to feeding is defined based on clinical signs (abdominal distention, vomiting, high gastric residual volume ≥ 500 cc) and will be excluded from the final analysis. On 1st day of admission to the ICU, you will be intubated, ventilated, and sedated. Imaging by ultrasound on subsequent days will be performed in patients who will be still intubated and ventilated. An ultrasound (US) evaluation of the Rectus Femoris (RF) muscle will be performed on day 0 (within 24 h from admission),1st, and 5th day. Assessment of Rectus Femoris muscle: On 1st day of admission, all patients will be intubated, ventilated, and sedated. Imaging on subsequent days will be performed in patients who will be still intubated and ventilated. Skeletal muscles will be evaluated by US scan, collecting both quantitative and qualitative data. An ultrasound (US) evaluation of the Rectus Femoris(RF) muscle will be performed in all patients on day 0 (within 24 h from trauma),1 st, and 5th day. We will use a US device with a 2- to 5-MHz linear probe. US settings (depth, gain, and focus) will be standardized for RF examination. Excess contact gel will be applied so to minimize underlying soft tissue distortion. The transducer will be placed perpendicular to the long axis of the muscle (i.e., perpendicular to the major axis of the limb), at 3/5 of the distance between the anterior superior iliac spine and the superior border of patella (i.e., about 15 cm from the patella) for the RF. The measurement points will be marked with indelible ink to ensure day-to-day consistency and facilitate subsequent measurements. After freezing the US image, quantitative parameters will be recorded for cross-sectional area (CSA) (computed from the perimetral contour of the muscle section). The value of CSA is considered to be proportional to the total mass of the skeletal muscle. We also will measure the Pennation angle of Rectus femoris (The pennation angle is defined as the angle between muscle fibers and the deep fascia of the muscle). Pennation angles will therefore be measured in the longitudinal ultrasound image as the orientation of the fibers of the rectus femoris was almost parallel to their fascia. We also will record one qualitative parameter-echogenicity-that is expressed according to the Heckmatt Scale. Increased echogenicity is usually regarded as an index of myofibers depletion. Measurements and monitoring 1. Demographic data e.g. age, sex, weight body mass index (BMI), Modified Nutric score. 2. Quantitative parameters: Pennation angle, the cross-sectional area of rectus femoris muscle: at baseline then at day 1 st, 5th after initiation of nutritional therapy. 3. Qualitative parameter: Echogenicity by Heckmatt scale: at baseline then at baseline then at day 1 st, 5th after initiation of nutritional therapy. 4. Serum albumin and total protein at baseline then at day 1 st, and 5th after initiation of nutritional therapy. 5. Blood urea nitrogen, nitrogen balance at baseline then at day 1 st, 5th after initiation of nutritional therapy. 6. The length of mechanical ventilation and ICU stay will be estimated and compared in the two groups. ;