Chronic Obstructive Pulmonary Disease Clinical Trial
Official title:
An Investigation Into the Pressure and Airflow/Volume Changes Which Accompany Partial Closure of the Larynx During Expiration in Patients With COPD and the Effect of Applying a Positive End Expired Pressure by Facemask on These Parameters
In this study the investigators aim to investigate the extent to which in patients with chronic obstructive pulmonary disease narrowing of the vocal cords causes a positive pressure within the airways thus improving airflow and lung function. This information will be captured in the upright and lying down positions and an estimate of the magnitude of the effect will be formed by offsetting the pressure by asking the patients to breathe using a commercially available device used to treat sleep apnoea called a CPAP machine. This is an observational study in which the observation of laryngeal aperture, and mouth and oesophageal pressure at differing levels of applied CPAP will be recorded for analysis in patients with COPD and in normal subjects without COPD. All will have the same measurements, observations, and interventions to allow us to observe and measure pressure, laryngeal aperture, and airflow .
In patients with chronic obstructive pulmonary disease (COPD) flow limitation inherent to
the condition causes gas trapping and consequently over-inflation of the lung termed
hyperinflation which worsens on exercise. Expiratory airflow can be maximized if the
intrinsic positive pressure in the lung (Positive end expired pressure,PEEP) is offset by
externally applied pressure (Expiratory positive airway pressure,EPAP) and it has been noted
that patients with COPD do this by pursed lips breathing on expiration. The applicants have
shown in a preliminary study that patients with COPD also close their vocal cords during
expiration and is hypothesised that the function of the glottic narrowing was to provide an
external positive expiratory pressure thus reducing flow limitation.
Relatively few data exist on laryngeal airflow in humans. One therapy that is increasingly
used in the treatment of acute and chronic respiratory failure is non invasive pressure
ventilation. Devices used for this oscillate between a high Inspiratory positive airway
pressure (IPAP) and a lower Expiratory positive airway pressure (EPAP) but there remains
uncertainty as how best to titrate the EPAP. We speculate that the optimum EPAP would be one
to most reduce glottic narrowing on the basis that this would optimise expiratory flow and
reduce the drive to glottic narrowing. The aim of this study is to test this hypothesis and
to identify the range of external applied EPAP which minimises glottic narrowing in COPD
patients in the erect and supine positions.
Technical advances with the use of continuous laryngoscopic examination (CLE) now provide a
feasible and safe method to directly observe laryngeal movement from a fixed position. We
aim to measure intra-thoracic pressure using an oesophageal balloon during respiration and
to relate this to the CLE movement of the larynx.
At the same time we will be measuring airflow and volume with a pneumotachograph. This will
allow us to identify the effect of glottic narrowing on intra-thoracic pressure and to see
if the glottic narrowing does lead to an increased positive end expired pressure in the
chest ( positive end expired pressure intrathoracic,PEEPi) and the extent to which it can be
offset using EPAP delivered by a positive pressure machine (continuous positive airways
pressure,CPAP).
The design of this study is a one visit physiological study which is an observational study
with no blinding of investigator or participants.
We intend to study 10 controls with normal lung function and no history of COPD and 20
patients with COPD. They will attend for a single 3 hour period which will start with full
explanation of the procedures to be undertaken and informed consent will be obtained on all
aspects of the investigation by one of the investigators who is fully trained to obtain
consent in research projects.
The subjects will be examined and have lung function tests if they have not already been
carried out in the previous 6 weeks
The subject will be seated in an armchair and after application of local anaesthetic to the
nose will be assisted to swallow an oesophageal balloon catheter in a deflated state
inserted via a nostril and assisted by sipping water whilst the balloon is swallowed. The
position of the balloon will be identified by measuring the length swallowed and positioned
to the lower third of the oesophagus. A small quantity of air will be introduced into the
balloon (1.0ml) to inflate the balloon and the tubing connected to a pressure measuring
device situated next to the chair.
Next the subject will have introduced into their other nostril a fibre-optic laryngoscope
which will be passed under direct vision to the back of the throat where the larynx in
movement can be seen The output from the laryngoscope will be recorded digitally.
The subject will place over their mouth and nose a modified facemask through which they will
be able to breathe without difficulty modified to admit the measurement catheters above.
Attached to the mask will be a pneumotachograph which measures airflow and tubing to allow
the pressure at the mouth to be varied.
This will allow the movement of the larynx on quiet breathing at rest to be observed with
intra-thoracic pressure measured at the same time and the airflow at the mouth recorded
simultaneously.
Once the subject is comfortable with these devices and relaxed in the chair recording of the
laryngeal movement , pressures and airflow will be commenced and continue for 5 minutes. At
the end of this time the subject will be asked to make an inspiratory capacity manoeuvre
(breathe in as far as they can).
Subsequently the mouth pressure will be varied by 1cm H2O(1cm H20 = pressure produced by a
column of water of 1cm depth) increments in random order 0-15cm H2O with 5 minutes at each
level.
The protocol will then be repeated with the subject lying flat after which the catheter and
the laryngoscope will be withdrawn.
Data will be stored securely in accordance with the Royal Brompton Hospital information
governance and security protocols and access to personal data will only be by members of the
research team. We will seek permission from the participants to inform their general
practitioner or any other health professionals.
All data will be handled in accordance with the United Kingdom(UK) data protection Act 1998
and the condition of the main Research Ethics Committee (REC) approval.
The UK National Health Service Indemnity Scheme will meet any potential liability of the
sponsors to harm to participants arising from the management of the research. any adverse
events will be recorded in the case notes and a case report form and any serious adverse
events will be reported to the study sponsor and the research ethics committee.
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