Although mechanical ventilation (MV) is life-saving, it is associated with several complications. The establishment of an artificial airway impairs the cough reflex and mucociliary function, leading to the accumulation of secretions in the tracheobronchial tree. This increases the risk of pneumonia and lung atelectasis. Usual care for mechanically ventilated patients includes airway suctioning via the tracheostomy tube, which clears only a limited portion of the airway and is ineffective at removing peripheral airway secretions. To address this, airway clearance guidelines recommend various airway clearance techniques (ACTs) for mechanically ventilated patients to enhance mucus removal. However, the lack of standardized, effective evaluation criteria makes selecting the optimal ACT a challenge.
The aim of this randomized cross-over study was to compare the effectiveness of oscillation and lung expansion (OLE) versus high-frequency chest wall oscillation (HFCWO) on lung aeration and ventilation distribution, as assessed by EIT, in medically complex, hypersecretive patients with tracheostomy tubes requiring long-term mechanical ventilation (MV).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
24
The OLE device (MetaNeb system) is a newer, noninvasive physiotherapy tool that combines mechanical and pharmacological interventions (aerosols) to help mobilize endobronchial secretions.
High-frequency chest wall oscillation (HFCWO) is an airway clearance technique that uses external forces applied to the chest via an inflatable vest connected to a device that generates vibrations at varying frequencies and pressures.
Beijing Rehabilitation Hospital
Beijing, China
RECRUITINGEnd-expiratory lung impedance (EELI)
Time frame: at the end of treatment (T1) and at 1 hour (T2), 2 hours (T3), 4 hours (T4)
Tidal impedance variation (TV)
Time frame: at the end of treatment (T1) and at 1 hour (T2), 2 hours (T3), 4 hours (T4)
sputum volume
Time frame: at the end of treatment (T1) and at 1 hour (T2), 2 hours (T3), 4 hours (T4)
Respiratory rate
Time frame: at the end of treatment (T1) and at 1 hour (T2), 2 hours (T3), 4 hours (T4)
center of ventilation (COV)
Time frame: at the end of treatment (T1) and at 1 hour (T2), 2 hours (T3), 4 hours (T4)
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