Mechanical Ventilation Clinical Trial
Official title:
Evaluation of the Effect of a Speech Detection Tool on the Improvement of Phonation in Neuromuscular Patients Dependent on Mechanical Ventilation
Ventilation is a major treatment of respiratory failure due to neuromuscular disorders. First line treatment is noninvasive ventilation (NIV) but in some situations, especially in case of NIV inefficiency, invasive ventilation with tracheostomy (IVT) may be required. In both situations, patients may become dependent on ventilatory support with the disease evolution. Ventilation then can interfere speech and the quality of communication of the patients. Modification of the ventilation parameters may result in improved speech quality (for example, positive expiratory pressure (PEP) while not necessary for ventilation quality can dramatically improve speech in tracheostomized patients). Therefore, it would be of interest to allow patients to benefit from these specific parameters when they need to speak without maintaining them when patients are not speaking. We want to evaluate a specific ventilator feature which can detect speech and switch to specific ventilation parameters adapted for speech We believe that this feature will improve significantly speech quality in patients dependant either on NIV or IVT.
Nowadays, the first line treatment of chronic respiratory failure in neuromuscular disorder
is non invasive ventilation (NIV). However, while NIV can compensate the respiratory
disability and significantly delays significantly the necessity for invasive ventilation with
a tracheostomy (IVT), it is used for significant periods of time during daytime in patients
with severe respiratory failure and can therefore interfere with patients' speech. Moreover,
if NIV becomes inefficient, IVT may be required to pursue ventilatory support to treat the
respiratory failure; tracheostomy also interferes with phonation and specific adaptations are
necessary to optimize phonation and speech quality.
Adaptation of ventilation parameters (mainly triggering sensitivity and use of positive
expiratory pressure (PEP)) can significantly improve speech quality and therefore ventilated
patients' communication. These adapted parameters are not strictly necessary for ventilation
outside of speaking periods. It would be of interest to be able to use them exclusively
during speech. In neuromuscular patients, the major motor disability constitutes a challenge
as most patients are unable to use themselves the controls of their ventilator (and to
potentially switch to a speech adapted ventilation program). We want to evaluate a device
able to automatically detect speech and to transitorily switch from the patient's usual
ventilation parameters to speech specific parameters set to optimize phonation quality.
Specific adaptations differs between NIV or IVT, therefore we will evaluation two groups of
ventilation dependent patients divided according to their ventilation mode.
We believe that this device may improve the speech of NIV patients as well as IVT patients.
Patients would benefit from an appropriate ventilator support without any ventilation
desynchronization during speech. Speech would be more fluent and natural which would result
in improved communication.
Objectives The main objective of this study is to demonstrate that phonation is improved by
the use of a device allowing the transitory switch to specific speech parameters of
ventilation in neuromuscular ventilator dependent patient whether during NIV or during IMT.
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