Clinical Trials Logo
  1. Home
  2. Other
  3. NCT03991702

Hand Grip Strength and Medical Research Council Scale as Predictors of Weaning Failure

Mechanical Ventilation Complication Clinical Trial

Official title:
Hand Grip Strength and Medical Research Council Scale as Predictors of Weaning Failure and Duration of Mechanical Ventilation.

Clinical Trial Summary

The handgrip strength (HGS) will be measured with a digital dynamometer. Three measurements will be taken, whose average of the three measurements will be collected.

Muscle weakness will be diagnosed based on previously published ICU acquired weakness (ICU-AW) scores (for males <11 kg and females <7 kg).

The overall motor function of the patient will be assessed using the Medical Research Council (MRC) scale. The maximum score of the scale is 60 points, adding the degree of muscle strength of all muscle groups tested. If the patient is unable to have one of the limbs tested, it is assumed that the limb would have the same force as the contralateral limb.

A score of 48 points or less is indicative of muscle weakness. Individuals who scored between 48 and 37 points on the MRC scale are considered to have significant weaknesses; those with 36 points or less are classified as severely weak.

The HGS and the MRC scale will be compared as predictors of weaning duration of mechanical ventilation

Clinical Trial Description

The handgrip strength will be measured with a digital dynamometer. The patient's dominant hand will be tested, with the patient as seated as possible, with the elbow as close as to 90º. Three measurements will be taken, respecting a minute interval between them, whose average of the three measurements will be collected.

Muscle weakness will be diagnosed based on previously published weakness scores (for males <11 kg (kilograms) and females <7 kg) 25. The strength value will be normalized as a relative value in percent, calculated according to Bohannon et al. based on values of healthy individuals, considering gender and age. It will also be normalized according to height, due to the known impact of this anthropometric feature on palmar strength.

The overall motor function of the patient will be assessed using the Medical Research Council (MRC) 24 scale. The evaluation will consist of the bilateral analysis of six specific movements (shoulder abduction, elbow flexion, wrist flexion, hip flexion, knee extension, ankle dorsiflexion) through manual muscle testing, scoring from zero to five points 2 = movement without the action of gravity, 3 = movement against the action of gravity, 4 = a slight manual resistance wins, 5 = a great manual resistance wins ). The maximum score of the scale is 60 points, adding the degree of muscle strength of all muscle groups tested. If the patient is unable to have one of the limbs tested (for example: amputation) it is assumed that the limb would have the same force as the contralateral limb.

In order to standardize the position during the application of the scale and to minimize bias, the position will be adopted in the supine position, with the bed between 45º to 60º and symmetrical posture. First the patient will be asked to move freely. According to the result, manual resistance is imposed or the action of gravity is eliminated.

The indicative weakness score is 48 points or less. Individuals who score between 48 and 37 points on the MRC scale are considered to have significant weaknesses; those with 36 points or less are classified as severely weak.

The handgrip strength and the MRC scale will be compared as predictors of weaning duration of mechanical ventilation ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT03991702
Study type Observational
Source Hospital de Clinicas de Porto Alegre
Contact
Status Completed
Phase
Start date March 1, 2016
Completion date April 30, 2017
View Details
See also
  Status Clinical Trial Phase
Recruiting NCT05030337 - Optimising Ventilation in Preterms With Closed-loop Oxygen Control N/A
Completed NCT05144607 - Impact of Inspiratory Muscle Pressure Curves on the Ability of Professionals to Identify Patient-ventilator Asynchronies N/A
Recruiting NCT03697785 - Weaning Algorithm for Mechanical VEntilation N/A
Completed NCT05084976 - Parental Perception of COVID-19 Vaccine in Technology Dependent Patients
Active, not recruiting NCT05886387 - a Bayesian Analysis of Three Randomised Clinical Trials of Intraoperative Ventilation
Completed NCT04429399 - Lowering PEEP: Weaning From High PEEP Setting N/A
Completed NCT02249039 - Intravenous Clonidine for Sedation in Infants and Children Who Are Mechanically Ventilated - Dosing Finding Study Phase 1
Recruiting NCT02071524 - Evaluation of the Effects of Fluid Therapy on Respiratory Mechanics N/A
Completed NCT01114022 - Prevention Inhalation of Bacterial by Using Endotracheal Tube Balloon Polyvinyl Chloride or Polyurethane N/A
Completed NCT00893763 - Strategies To Prevent Pneumonia 2 (SToPP2) Phase 2
Terminated NCT05056103 - Automated Secretion Removal in ICU Patients N/A
Active, not recruiting NCT04558476 - Efficacy of CONvalescent Plasma in Patients With COVID-19 Treated With Mechanical Ventilation Phase 2
Recruiting NCT05295186 - PAV Trial During SBT Trial
Active, not recruiting NCT05370248 - The Effect of 6 ml/kg vs 10 ml/kg Tidal Volume on Diaphragm Dysfunction in Critically Mechanically Ventilated Patient N/A
Completed NCT04818164 - Prone Position Improves End-Expiratory Lung Volumes in COVID-19 Acute Respiratory Distress Syndrome
Completed NCT04589910 - Measuring Thickness of the Normal Diaphragm in Children Via Ultrasound. N/A
Completed NCT04193254 - LPP , MP and DP:Relation With Mortality and SOFA in Mechanically Ventilated Patients in ER, Ward and ICU
Completed NCT06332768 - NIV Versus HFO Versus Standard Therapy Immediately After Weaning From Mechanical Ventilation in ARDS Patients N/A
Not yet recruiting NCT03259854 - Non Invasive Mechanical Ventilation VERSUS Oxygen MASK N/A
Not yet recruiting NCT03245684 - Assisted or Controlled Ventilation in Ards (Ascovent) N/A