Leukemia Clinical Trial
Official title:
Implementation of a Physician-prescribed Exercise Program as Standard of Care in Allogeneic Stem Cell Transplant Patients in British Columbia: a Pilot Study.
This study is a preliminary study to assess whether it is possible to introduce an exercise program for BMT patients after discharge from hospital. The exercise program will include 3 endurance (stationary bike, walking) and 2 resistance (weights, stretch bands) training sessions/week, until 100 days after BMT. Our second plan is to test changes in QoL, aerobic fitness, muscle strength, total body fat and mineral composition, and blood immune markers with exercise in the 100 days after BMT. The investigators anticipate this study will improve the QoL, mobility, and strength of patients after BMT, therefore allowing a faster and healthier recovery.
PURPOSE: Our long-term goal is to conduct a randomized clinical trial to investigate whether
a physician-prescribed supervised exercise intervention in allogeneic stem cell transplant
(alloHSCT) patients within the Leukemia/Bone Marrow Transplant (LBMT) Program of BC results
in improved QoL compared to no intervention. This current study is a pilot study with the
primary aim of determining the feasibility, including recruitment, retention, and adherence,
of delivering such an intervention as standard of care.
HYPOTHESES:
1. The physician-prescribed exercise intervention will be feasible in terms of recruitment
(goal of 20 patients recruited over study period), retention (≥70%), and adherence
(≥70%) of participants.
2. The intervention will be safe and highly acceptable to participants.
JUSTIFICATION: Allogeneic hematopoeitic stem cell transplantation (alloHSCT) is used to
treat malignant and non-malignant hematopoeitic diseases including leukemia, lymphoma, and
bone marrow failure syndromes. Recent advances in alloHSCT have led to improved relapse-free
and overall survival (OS); however alloHSCT remains associated with significant morbidity
including chronic graft-versus-host disease (GVHD), infectious and immune complications,
reduced physical performance and functioning due to deconditioning, sarcopenia, and bone
loss, and particularly high levels of fatigue and psycho-social stress, all of which
negatively impact patients' quality of life (QoL). There is an accumulating body of evidence
emphasizing that physical activity (PA) may be one modifiable lifestyle factor that has the
potential to positively influence QoL, physical functioning and other health-related
outcomes in HSCT survivors. Currently alloHSCT patients in Canada, including in BC, have
little access to exercise programs that address the unique barriers within this population,
particularly during the early post-transplant period where the need is greatest. These
include concerns about using a public gym due to an immunocompromised state, supervision by
trained professionals, and ability to exercise with low blood counts and other
post-transplant complications.
OBJECTIVES:
1. To determine the feasibility (recruitment, retention, and adherence) of delivering a
physician-prescribed supervised exercise intervention in alloHSCT recipients as
standard of care.
2. To assess changes in health-related quality of life (HRQoL), fatigue, physical
functioning, body composition, biomarkers of immune reconstitution, and therapy-related
toxicity with the institution of a physician-prescribed supervised exercise
intervention in alloHSCT recipients.
RESEARCH METHOD:
Study Design and Population: This study is a prospective pre-post test single-arm pilot
study to assess the feasibility of the intervention. Eligible participants are adults ≥ 18
years of age undergoing alloHSCT for any indication through the LBMT Program of BC at VGH.
Participants must be able to fill out questionnaires in English. Participants will be
excluded if they have contraindications to entrance into an exercise program (i.e.,
musculoskeletal issue or not cleared for exercise by the attending physician). Eligible
participants will be identified by their transplant physicians and informed consent will be
obtained by the research team.
Intervention: At discharge from the inpatient unit, participants will receive a practical
introduction by an exercise specialist and enrolled in the 12-week exercise intervention.
The semi-supervised intervention is a progressive program with a goal of three aerobic and
two resistance exercise sessions per week. Aerobic exercise will consist of 20-40 minutes of
bicycling using a stationary bike located on CP6 (supervised or un-supervised) or brisk
walking at home. Resistance exercise will include exercise for the upper and lower
extremities with stretch bands (8-20 repetitions, 2 or 3 sets). Patients will complete at
least one supervised aerobic and resistance session per week with the exercise trainer and
complete a daily log of their exercise, including adherence, adverse events and symptoms. At
the weekly supervised session, the exercise specialist will review adherence to the
intervention and provide support for questions and overcoming identified barriers to
adherence. Contraindications for starting a training session will include active infection
(temperature > 38oC), severe pain, nausea and dizziness, platelet counts < 20 000/uL and Hb
< 80 g/L. Exercise sessions will be stopped if pain, dizziness, or other contraindications
occur. These contraindications are in keeping with previous studies of exercise in this
population that have been deemed safe.
Data Collection and Endpoints: Follow-up assessments will occur at baseline (pre-BMT visit),
on discharge from the inpatient ward (within the first week of attending CP6), day 60, and
day 100 post-BMT (approximately 12-weeks).
Baseline demographics: Demographic data will be collected by patient interviews at baseline,
including age, other health conditions and physical activity levels prior to HSCT. Medical
and transplantation variables will be obtained from patients' medical records.
HRQoL: Patients QoL will be assessed by the European Organization for Research and Treatment
of Cancer Quality of Life Questionnaire (EORTC QLQ-C30), which evaluates different factors
of HRQoL in 5 functional and 9 symptom subscales/items, as well as a global score of HRQoL.
This tool has been used extensively in the HSCT population, including in 6 of the 7 trials
identified in our systematic review and meta-analysis of exercise effects on HRQoL in HSCT
patients.
Functional assessment: PFTs will be done at baseline and day 100 as is already standard of
care. Aerobic fitness will be assessed using the 6 minute walk test (6MWT) protocol by the
American Thoracic Society. This test has been used extensively in clinical exercise trials
to estimate aerobic capacity and has been tested in the HSCT population. Muscle strength
will be evaluated by the 30-second chair stand (lower extremity), which is a component of
the Senior's Fitness test, and grip strength (upper extremity). Mobility will be measured by
the time-up-and go test. This testing will be completed on CP6 by the exercise specialist.
Body Composition Analysis: Standing height, body weight, and waist and hip circumferences
will be measured. Baseline bone mineral density testing (BMD), 1,25-OH vitamin D and calcium
levels, and dual-energy X-ray absorptiometry (DXA) scan are performed by Dr. Kendler,
pre-transplant and at day +100 as standard of care. The DXA scan is a well validated tool
which accurately and precisely measures lean, fat, and mineral composition and has a number
of strengths compared to other modalities of body composition measurement.
Immune function: Markers of immune function including total white blood cell count,
lymphocyte count, CD4+ and CD8+ subsets of T-lymphocytes, and T-regulatory cells will be
tested pre-BMT and at Day 100. These markers have been previously evaluated in studies of
exercise interventions in HSCT patients with inconsistent results.
STATISTICAL ANALYSIS
Primary Aim (Objective 1): For the larger RCT, sample size is based on an expected mean
change in global HRQoL in the intervention group of 5 points and standard deviations from
the literature based on prior studies using the EORTC-QLQ-C30 questionnaire. We would be
able to reject the null hypothesis that the mean change in global HRQoL between the
intervention and control groups are equal with a power of 80% if we enroll 41 patients in
each group. The Type I error probability associated with this test of this null hypothesis
is 0.05 and is two-sided. To account for a maximum 30% dropout rate (based on an expected
20% transplant-related mortality and 10% dropout rate), we plan to enroll 120 patients (60
in each group) in the larger RCT. This may be modified based on the results of the current
study. Specific feasibility objectives of this study are:
1. To determine study recruitment rates: The study will be considered feasible if we
recruit 20 participants. Over the last 5 years, the average number of alloHSCTs
performed at VGH through the LBMT Program of BC was 90 per year, which averages to
approximately 30 transplants per 4-month period. Based on a preparatory period of 2
months, recruitment over a 4-month period, the requirement for 100 days (3-4 months)
follow-up from the last patient enrolled, and time for analyses (see Project Timeline),
20 patients is a reasonable recruitment target for this pilot study. This translates
into 20 patients per 4-month period, which would mean a minimum of 2 years to recruit
120 patients for the larger trial. Recruitment rate will be assessed at an interim mark
of 2 months. If below anticipated, we will review with our team the barriers to
recruitment and modify recruiting strategy.
2. To determine study retention rates: This study will be considered feasible if ≥ 70% of
the sample complete the day 100 assessment. Prior studies have demonstrated that 72%38
and 77%40 of patients complete the final assessment, forming the basis of our estimate.
3. To determine adherence of the exercise intervention: The intervention will be
considered feasible if participants complete ≥ 70% of the prescribed number of exercise
sessions at the end of the follow-up. Prior data indicate that adherence to PA
interventions in alloHSCT patients is 85%, ranging from 68% to 90%.24 We have reduced
to 70% due to the medical acuity of the participants and possible competing time
demands of active medical treatments.
4. Recruitment and retention will be summarized using a CONSORT flow diagram
(http://www.consort-statement.org/). Analysis of the feasibility objectives will be
descriptive or based on estimates with 95% confidence intervals.
Secondary Aim (Objective 2): Descriptive statistics will be reported as means and standard
deviations for continuous variables and number (%) for categorical variables. Changes in
outcome variables from baseline to day 100 will be analyzed using a paired-samples t test
(continuous data), Wilcoxon signed ranks test (ordinal data), or McNemar's test (categorical
data). For variables also assessed at discharge and day 60, a repeated measures analysis of
variance will be used. Subgroup analyses will be conducted for patients based on intensity
of conditioning regimen (myeloablative versus reduced-intensity) and based on whether or not
patients receive glucocorticoid therapy. Statistical analysis will be performed using STATA
version 12.1 (College Station, TX) and a type I error rate of 0.05 will be assumed for all
statistical tests. The Bonferroni method will be used to adjust the level of significance
for multiple testing of secondary outcomes so the overall level is alpha=0.05.
;
Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Supportive Care
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