Neuromuscular Diseases Clinical Trial
Official title:
Changes in Regional Lung Ventilation Following Mechanical Insufflation-Exsufflation
Patients with NMD can suffer from a range of respiratory problems due to respiratory muscle
weakness. Cough muscle weakness worsens secretion clearance from the airways, and increases
the risk of infection. As a result, these patients often require chest physiotherapy or are
supported with devices to aid clearance (such as mechanical insufflation-exsufflation) to
reduce the risk of infection. Although evidence supports the use of these devices, the
optimal technique or settings on the device are not clear.
Electrical impedance tomography (EIT) is a new technology that involves wearing a belt of
sensors around the chest that provides information on how well the lungs are being filled
with air. It allows a non-invasive assessment of the effect of each secretion clearance
technique on lung ventilation in real-time.
This study aims to compare how well the lung is filled with air between three different
techniques for secretion clearance (clearing mucus and phlegm from the airways), in order to
determine which of the techniques is the most effective, in patients with NMD.
Electrical Impedance Tomography (EIT) is a non-invasive, bedside monitoring technique that
provides semi-continuous, real-time information about the regional distribution of the
changes in electrical resistivity of the lung tissue due to variations in ventilation in
relation to a reference state.
Information is gained by repeatedly injecting small alternating electric currents (usually 5
mA) at high frequency of 50 - 80 kHz through a system of skin electrodes (usually 16) applied
circumferentially around the thorax in a single plane between the 4th and 6th intercostal
space. While an adjacent pair of electrodes 'injects' the current ('adjacent drive
configuration'), all the remaining adjacent passive electrode pairs measure the differences
in electric potential. A resistivity (impedance) image is reconstructed from this data by a
mathematical algorithm using a two dimensional model and a simplified shape to represent the
thoracic cross-section.
The resulting image possesses a high temporal and functional resolution making it possible to
monitor dynamic physiological phenomena (e.g., delay in regional inflation or recruitment) on
a breath by breath basis. It is important to realize that the EIT images are based on image
reconstruction techniques that require at least one measurement on a well-defined reference
state. All quantitative data are related to this reference and can only indirectly quantify
(relative) changes in local lung impedance (but not absolute).
Patients with respiratory muscle weakness have reduced cough strength and this can cause
difficulties with clearing respiratory secretions. This impaired secretion clearance can lead
to respiratory infections and acutely can causing small airway occlusion with subsequent
ventilation-perfusion mismatch adversely effecting pulmonary mechanics. The use of cough
assist devices, such as mechanical insufflation-exsufflation (MIE) can improve secretion
clearance. Although there is evidence that these devices can improve secretion clearance the
optimal pressures or technique required to provide effective secretion clearance is not
known. Furthermore the use of high pressure swings that are now frequently used in clinical
practice could lead to lung derecruitment. The use of EIT would allow a novel and effective
method of assessing the ability to clear secretions and optimise ventilated lung in
neuromuscular patients with poor cough and assess post procedure derecruitment.
MIE: A pilot physiological study will be performed in patients with neuromuscular disease
with acute (10 patients) and chronic (10 patients) secretion management issues that require
clinical use of MIE. These patients will be studied using 3 different clearance strategies
low pressure MIE, higher pressure MIE and standard airway techniques. The project will assess
differences in regional ventilation following augmented airway clearance and inform potential
endpoints and feasibility for a larger trial regarding speed of recovery from respiratory
infections in patients with neuromuscular disease.
There is a paucity of data regarding the physiological efficacy of MIE devices and although
clinical consensus regards them as a beneficial adjunct to the management of patients with
respiratory muscle weakness causing a reduction in effective secretion clearance it is less
clear the optimum protocol to achieve secretion clearance. The aim of chest physiotherapy is
to achieve clearance of airway secretions and allow improved gas exchange by enhancing
ventilation and perfusion matching within the lung. The data suggesting optimum pressures for
MIE are based around early work on achieving enhanced cough peak expiratory flow. More
recently higher pressures have been suggested to achieve enhanced airway clearance. There may
be potential beneficial effects with high pressure MIE by enhancing airway opening during the
insufflation pressure achieving a degree of lung volume recruitment. Conversely, high
insufflation pressures may adversely affect both pulmonary and cardiac physiology which may
be further impacted by the large pressure swing during exsufflation. This is particularly
relevant given the increasing co-morbid cardiomyopathy that occurs in many congenital
neuromuscular diseases.
The initial phase of the project would be to generate pilot data with a comprehensive
physiological evaluation of patients with neuromuscular disease and requirement of cough
augmentation with MIE devices. The patients will undergo a randomised protocol of chest
clearance with standard physio, low pressure and high pressure MIE. Data from this trial will
allow an optimal treatment strategy to be developed and if data suggested would provide
sufficient data to power an interventional trial to examine important clinical outcomes.
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