Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT04495062 |
Other study ID # |
19/NI/0194 |
Secondary ID |
|
Status |
Completed |
Phase |
|
First received |
|
Last updated |
|
Start date |
September 1, 2020 |
Est. completion date |
August 31, 2023 |
Study information
Verified date |
December 2023 |
Source |
Royal Free Hospital NHS Foundation Trust |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational
|
Clinical Trial Summary
Chronic Obstructive Pulmonary Disease (COPD) is a respiratory condition which affects
approximately 3 million people in the UK and 210 million worldwide. The disease is
characterized by progressive air flow obstruction and decline of lung function. COPD is
currently the fourth leading cause of death in the world. The main reason for
hospitalisations associated with COPD is exacerbations (chest infections or a worsening of
the underlying symptoms). Severe COPD exacerbations are the second largest cause of emergency
admissions in the UK. Mild and moderate exacerbations can be managed in the community but if
they are not identified promptly they may progress to breathlessness and in some patients to
respiratory failure. Thus, finding modalities for early detection and diagnosis of
exacerbations is clearly a priority for current and future COPD research. However, these
still do not exist. The aim of this study will be to acquire acoustic respiratory signals
from COPD patients with a small wearable device. These signals will be subsequently used to
carry out engineering research with the objective of trying to find "fingerprints" in them
which could be early indicators of disease exacerbations. If those "fingerprints" were found,
subsequent research could focus on trying to create software methods which, together with the
use of a small wearable device, would aim at automatically detecting exacerbations when they
are at very early stages- prior to the symptoms being evident to the patient- so that
clinical intervention could be triggered, in order to optimize the disease outcomes.
Description:
Chronic Obstructive Pulmonary Disease (COPD) is a condition characterised by progressive
air-flow obstruction, decline in lung function caused by airway inflammation and damaging of
air sacs. The resulting narrowing of airways makes it harder to breathe in and out. COPD is
currently the fourth leading cause of death worldwide and in the UK the National Institute
for Health and Clinical Excellence (NICE) estimates that the total direct cost of COPD to the
NHS is over £800million - out of which £300 million correspond to hospitalisations.
Therefore, it is widely acknowledged that anything that improves management and effectiveness
of treatment will not only improve patients' quality of life but also result in savings from:
1) Emergency hospital admissions; 2) Potential GP visit; 3) Loss of productivity due to work
in absenteeism.
Severe COPD exacerbations (periods where there is acute worsening of respiratory symptoms
such as cough, dyspnoea, wheezing, increased sputum production) cause one in eight hospital
admissions. Mild and moderate exacerbations can be managed outside hospital but if not
identified and treated promptly may progress in some patients to respiratory failure. A
significant proportion of these exacerbations will require inpatient treatment and can reduce
the quality of life of patients increasing their morbidity and mortality. Thus, finding
modalities for early detection and diagnosis of exacerbations is clearly a priority in
current and future COPD research, but currently these still do no exist.
The longer term goal of our research is to have a novel acoustic based wearable wireless
technology that will be able to monitor COPD patients for extended periods of time, and
automatically provide early detection of potential exacerbations even prior to symptoms which
can be treated promptly to minimise their likelihood of progression to higher levels of
severity.
We have developed a small wearable device which is easy to use and for the first time allows
continuous non-intrusive recordings of respiratory sounds and more specifically has been
designed to optimise transmission of the acoustic signals generated by airflow within the
trachea.
We will aim to acquire signals from two groups of COPD patients:
1. A group undergoing exacerbations
2. A second group of stable, potential exacerbators, COPD patients
The group of patients undergoing exacerbations will be recruited from medical wards and
patients who agree to participate in the trial will be fitted with the device during their
inpatient stay. Clinical data will be collected including but not limited to: co-morbidities,
medications, oxygen given; timing of exacerbations medications (antibiotics, steroids,
nebulisers) and observations. Patients will also be given a diary to complete during their
inpatient stay for when they are ambulating, documentation of sputum production as well as
other activities. Patients will also be given the option of taking the device home for
several days whilst recovering from their exacerbation.
The stable patients will be recruited from outpatient clinics and if clinically stable
trained to use a device to take home for a pre-agreed period of time, up to one month. They
will be expected to wear the device at night whilst sleeping and will have support throughout
if needed. They will also be asked to complete a diary which documents amongst other things,
sputum production, any exacerbations, symptoms, exercise and a range of other activities.
Patients in both groups will be given usability questionnaires regarding comfort, usability,
ease of the device and also be invited to attend focus groups to feedback about the device.
The study will aim to develop a novel acoustic based wearable technology which will in the
long term monitor COPD patients for an extended time period and automatically provide early
detection of potential exacerbations. This has several benefits including:
1. Disease management optimisation resulting in better quality of life and lower severity
of symptoms
2. Prompt and early treatment of exacerbations leading to fewer hospital admissions and can
slow disease progression
3. Can potentially result in more personalised treatment and management, with efficient use
of drugs and reduction in treatment cost.