Chronic Obstructive Pulmonary Disease Clinical Trial
Official title:
Impact of a Pulmonary Rehabilitation Program on the PROactive Tool
Pulmonary rehabilitation is an essential non pharmacological treatment option which reduces
dyspnea sensations, increase exercise tolerance, improves health related quality of life and
reduces the burden on health care resources (1). Pulmonary rehabilitation is likely an ideal
intervention to validate the PROactive tool as responses to pulmonary rehabilitation are
clinically significant in terms of exercise tolerance and particularly activity related
symptoms. Nevertheless, the response to pulmonary rehabilitation is variable and about one
out of three patients does not present a clinically important response. Pulmonary
rehabilitation may therefore be an intervention that allows studying the conceptual model
around the PROactive tools, anchoring the new PROs (Patient Report Outcome) to outcomes that
are well known to change with rehabilitation: exercise induced symptoms, functional exercise
tolerance and health related quality of life.
Study objectives
Main objectives
A primary aim is to test reliability of the paper-pencil versus the electronic scoring
version of the PROactive tool in terms of assessing the effect of pulmonary rehabilitation
on the components of the PROactive tool and on the mode of administration.
The secondary aim of the proposed project is to investigate the effects of a
multidisciplinary outpatient hospital-based, pulmonary rehabilitation program on: i) daily
physical activity (number of daily steps, vector magnitude unit and movement intensity and
ii) the components of the Proactive tool.
Additional study objectives
A third aim of this project is to investigate whether the magnitude of change in daily
physical activity and the components of the PROactive tool in general is associated with the
magnitude of changes in frequently used rehabilitation related end-points including,
functional capacity, exercise capacity and health-related quality of life following the
completion of a comprehensive pulmonary rehabilitation program.
A forth aim of this project is to investigate whether the magnitude of change in daily
physical activity and the components of the PROactive tool in general is associated with the
magnitude of changes in physiological indices including cardiovascular and respiratory
adaptations following completion of a comprehensive pulmonary rehabilitation program.
Study hypotheses
The patients involved during Work Package 4 of the PROactive Project showed a good
conformity with the use of electronic devices such as the electronic version of the
PROactive tool. As the paper-pencil version is anticipated to be equally easy to manage from
the patients as the electronic version, therefore it is expected an excellent agreement
between the paper-pencil and the electronic version in terms of assessing the effect of
pulmonary rehabilitation on the components of the PROactive tool.
A pulmonary rehabilitation program of at least 8-10 weeks is considered sufficient to induce
reduction in daily and exercise induced symptoms, improvements in functional capacity and
exercise tolerance and increase in health related quality of life in patients with COPD.
Since low levels of physical activity are associated with reduced exercise performance and
increased daily symptoms, it is anticipated a significant improvements in daily physical
activity levels (as measured by daily number of steps, vector magnitude unit and movement
intensity) and in the components of the Pro-Active tool following the completion of the
pulmonary rehabilitation program.
Recent published studies funded form PROactive Project revealed that activity monitoring
outputs are associated with the cardiovascular, respiratory, and metabolic load of exercise
in COPD patients. Therefore it is expected to found significant associations between daily
physical activity levels and the components of the PROactive tool in general with functional
capacity, exercise capacity and cardio-respiratory adaptations following completion of a
comprehensive pulmonary rehabilitation program.
Study population
A convenience sample of clinically stable patients with COPD will be recruited from the
academic centers' Outpatient Clinic on the following entry criteria: 1) a
post-bronchodilator forced expiratory volume in one second (FEV1) <70% predicted without
significant reversibility (<12% change of the initial FEV1 value or <200 ml) and 2) optimal
medical therapy according to Global Initiative for Chronic Obstructive Lung Disease (GOLD)
(2). Exclusion criteria will include: 1) Orthopedic, neurological, and other musculoskeletal
complaints that could impair normal movement patterns, 2) respiratory diseases other than
COPD (e.g. asthma), 3) hospital admission or COPD exacerbations within the previous 4 weeks
4) patients not on optimal pharmacotherapy. The study will be approved by the University
Hospital Ethics Committee and the PROactive EC and patients will provide informed written
consent.
Study Design
The total number of patients will be automatically assigned in two groups: Group A will
consist of patients who will score only the paper-pencil version of the clinical visit
version of PROactive tool. Group B will consist of patients who will score only the
electronic version of the clinical visit version of PROactive tool. Randomization should be
stratified by site. In addition, a control group (Group C) which will not participate in the
rehabilitation program will be include at the same time as patients in Group A and B so as
to be able and independently address study objectives 2 and 3 and 4. Group C will also
randomized to those into pape-pencil version and electronic version.
Following completion of the first week (i.e.: V1) patients will complete a multidisciplinary
pulmonary rehabilitation program. Following completion of the rehabilitation program
patients will perform one more visit (V2). During visit 1 and 2 patients will perform the
measurements indicated in tab
Rehabilitation program
The rehabilitation program will be multidisciplinary and will include mandatory supervised
exercise training at appropriate training intensity, other components of the program can be
breathing control and relaxation techniques, methods of clearance of pulmonary secretions,
disease education, dietary advice, and psychological support on issues relating to chronic
disability. Six minute walking tests, and improvements in dyspnea sensation (CRDQ) will be
used to benchmark the effect of a program provided by a given team.
Data management
Patient data will be stored in a randomized database as for WP2D. Data will be analyzed
centrally and the relevant PRO data and accessory end points will be available in a format
to allow integration with other PROactive WP6 studies.
Assessments
Primary outcomes
PROactive tool
Physical activity measurements in terms of daily number of steps and vector magnitude unit
(VMU) will be performed primarily by the ''Actigraph'' triaxial activity monitor whilst
patients will answer to the clinical visit questionaire of Proactive tool as well as to the
PROactive questionnaires (i.e. CCQ, CRQ, HADS, CAT, SGRQ). Additionally, in a subgroup of
patients assigned in each of the three groups (i.e. Group A, B, C) activity monitoring
measurements in terms of walking intensity will be performed by the Minimod (McRoberts BV)
activity monitor.
Secondary outcomes
Anthropometrics-Body composition
Body weight will be measured to the nearest 0.1 kg with a digital scale and height will be
measured to the nearest 0.5 cm with a stadiometer. Body mass index (BMI) will be calculated
as the ratio of weight (in kilograms) to height (in metres) squared. Body composition will
be estimated by a bioelectric impedance device.
Recording data:
Recording the following parameters: weight, height, total body water, fat mass (FM), fat
free mass (FFM).
Lung function
Spirometry, body plethysmography and single breath transfer factor for carbon dioxide will
be measured according to the American Thoracic Society/European Respiratory Society
standards after administering 400μg salbutamol (3). Post bronchodilator static lung volumes
will be assessed using a body-box (whole body plethysmography).
Recording data:
Recording the following parameters: FEV1 and FVC, TLC, RV, TGV and TLco.
Exercise capacity
Incremental exercise test
The incremental exercise test will be performed on an electromagnetically braked cycle
ergometer (Ergoline 800; Sensor Medics, Anaheim, CA, USA) with a ramp increase of load
increments of 5 to 25 Watt/min until the patient reaches volitional exhaustion.
Recording data:
Recording the following parameters: peak work rate, peak oxygen uptake, peak heart rate,
minute ventilation at Iso-Work and peak minute ventilation, SpO2, dyspnea sensation and leg
discomfort (10-Borg scale).
Six-minute walking test
The 6-minute walk test (6MWT) will be measured following the instructions of the American
Thoracic Society (ATS) recommendations.
Recording data:
Before and after exercise test: heart rate, SpO2, dyspnea sensation and leg discomfort
(10-Borg scale) and distance walked.
Skeletal muscle function test
Patients will be studied seated in the quads chair, with hip and knee flexion of 90 degrees.
An inextensible strap will be placed around the ankle, immediately proximal to the malleoli,
adjusted to ensure the knee remains at 90 degrees flexion. The ankle strap will be connected
to a strain gauge mounted on the back of the chair, and runs perpendicular to both the ankle
and the strain gauge. A seatbelt will be secured across the subject's hips to stabilize the
pelvis
Recording data:
Record the following parameters: strength expressed in kg and leg length.
Central hemodynamics
Cardiac output will be measured non-invasively throughout the incremental exercise test on
the treadmill using a portable impedance cardiography device (PhysioFlow , Manatec
Biomedical, France) (4).
Recording data:
Cardiac output, heart rate and stroke volume will be recorded continuously at rest, during
exercise and recovery throughout the tests.
Statistical analysis and randomization
Baseline characteristics, including age, gender, as well as clinical and functional data,
including but not limited to lung function, body composition, quadriceps strength, 6MWT,
CRQ, CCQ, HADS, CAT, SGRQ and PROactive monitors outputs, will be summarized according to
number and percentage for qualitative variables, mean and standard deviation for
quantitative variables with normal distribution, and median and 25th-75th percentiles for
quantitative variables with non-normal distribution. The effectiveness of the rehabilitation
program between and within groups on daily physical activity levels and PROactive tool will
be tested using an analysis of variance (ANOVA) model. Pearson correlation coefficient
analysis will be performed to determine the relationship between variables using as a
dependent variable the physical activity levels and PROactive tool score while the
independent variables included functional capacity, exercise capacity, PROactive
questionnaires, metabolic, respiratory, central hemodynamic parameters that were measured
following the completion of the rehabilitation program.
Randomization Stratified randomization will be applied taking into account patient's
baseline daily physical activity levels, namely weekly median steps.
;
Allocation: Non-Randomized, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Health Services Research
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