Healthy Participants Clinical Trial
Official title:
Changes in Lung Ventilation With Different Modes of Non-invasive Ventilation in Healthy Subjects
Patients with severe respiratory diseases such as chronic obstructive pulmonary disease
(COPD) or obesity-hypoventilation syndrome (OHS) can benefit from having non-invasive
ventilation (NIV). Non-invasive ventilation consists of a machine (ventilator) that is
blowing air through a mask. NIV provides patients with a bigger expansion of their lung when
they are breathing. This better expansion helps patients to have more oxygen and less waste
gas (or carbon dioxide) in their body.
These improvements enhance survival and quality of life. In order to provide appropriate
ventilation for each patient, the ventilator can generate different types of blowing:
- Continuous positive airway pressure (CPAP) which delivers a constant pressure to the
mask
- Pressure support ventilation (PSV) which delivers a constant pressure to the mask and,
on top of that, delivers more pressure when the patient begins to breathe in.
- Pressure control ventilation (PCV), which is similar to PSV, but use a fixed time to
generate the flow when the patient begins to breathe in.
These different types of blowing have consequences on patient comfort as well as on the
improvement of their ventilation.
To assess the improvement of the ventilation, the investigators currently use blood tests,
however, these reflect overall output and may miss more subtle changes in breathing that
could affect how patients feel.
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 by the ventilator. It allows a non-invasive assessment of the effect of NIV onto
lung ventilation in real-time.
The investigators hope to use the EIT technology to assess in real-time patients lung
ventilation when they are using the NIV. The investigators hope that EIT will provide them
with information on which type of blowing is more effective and more comfortable than the
others.
Chronic lung disease can sometimes progress to the extent that patients can no longer clear
the waste gas from their blood. Treatment can be offered with a mask and machine
(ventilator) that helps people breathe and aims to improve their lung condition. It is
common for people's lungs to be affected variably, i.e. left more than right or top of lung
more than bases of lungs. The way in which the ventilator is set may affect how well the
machine deals with these differences. If the lung is better ventilator patients may find the
machine more comfortable and it may be more effective.
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 by the ventilator. It allows the assessment of these differences, which previously
required the use of invasive equipment to obtain.
Optimising ventilator settings in the administration of non-invasive ventilation (NIV) can
be improved with the addition of individual physiological data. This approach is limited due
to the invasive techniques required to obtain this information, often leading to less ideal
NIV settings promoting patient-ventilator asynchrony. It has been recently demonstrated by
our group that all patients established on domiciliary NIV have a degree of
patient-ventilator asynchrony and that the commonest type of asynchrony are triggering
issues. Triggering asynchrony is promoted by mismatch between a patient's intrinsic positive
end-expiratory pressure (iPEEP) and applied expiratory positive airway pressure (EPAP) with
these ineffective efforts contributing to an increased work of breathing and patient
discomfort. Previous strategies used to optimise patient triggering have involved the
placement of oesophageal catheters in order to measure neural respiratory drive (NRD) to the
diaphragm by electromyography (EMG) but again this process is invasive and often poorly
tolerated. 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).
EIT can be used in mechanically ventilated patients to assess recruitment and to optimise
ventilator settings to reduce risk of iatrogenic ventilator associated lung injury.
To date, EIT has only been validated in patient invasively ventilated or during
self-ventilation.
The investigators hope to use the EIT technology to assess patients breathing using
different ventilator modes in order to see if one is more effective and or more comfortable
than the others. The investigators can use this information to help them set ventilators for
future patients.
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Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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