Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03238599 |
| Other study ID # |
PAMAL trial |
| Secondary ID |
|
| Status |
Completed |
| Phase |
Phase 2
|
| First received |
|
| Last updated |
|
| Start date |
November 2, 2017 |
| Est. completion date |
March 1, 2022 |
Study information
| Verified date |
March 2023 |
| Source |
University Hospital Inselspital, Berne |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The trial assess the proportion of patients who resumed their professional activity within
100 days after ASCT (autologous stem cell Transplantation).
Description:
Patient-reported outcome measures (PROMs) Cancer patients experience significant physical and
psychosocial consequences of cancer and treatment which affect quality of life (QoL). These
consequences may be under-recognized and under-treated in oncology practice, resulting in
greater morbidity that is costly to patients and the health system. Patient-reported outcome
measures (PROMs) are advocated for use in routine cancer clinical practice for early
detection of distress and as a performance metric for evaluating the quality of care on
health outcomes.
A PROM is defined as 'any report coming directly from the patient about a health condition
and its treatment using a self-reported measure. PROMs focus on physical symptoms, treatment
toxicities, psychosocial problems or global health-related quality of life (HRQoL) impacts of
a health condition. PROMs that capture the whole-person impact of cancer and treatments on
health outcomes are increasingly recommended by patients, clinicians, and decision makers.
A number of implementation issues related to the use of PROMs data need to be considered: (i)
limiting data collection so as to minimize patient burden and completion time, (ii)
collecting PROM data at baseline and selected follow-up times while minimizing the number of
assessments, (iii) considering whether measurement equivalence has been established when
using different modes of patient-reported data collection (e.g. web, telephone, tablet, or
paper), (iv) collecting data via electronic technologies whenever possible, and (v) employing
methods to minimize missing data including educating site personnel, patients and clinicians,
and real-time monitoring of adherence.
Step counting devices to monitor physical activity The intensive medical treatment of
patients with hematologic malignancies is associated with numerous long-term adverse effects,
including anemia, fatigue, and reduced physical exercise capacity. Patients with hematologic
malignancies may benefit from physical exercise programs in terms of maintenance or even
improvement in fatigue, physical activity, and fitness levels. Since many patients with
hematologic malignancies are young and professionally active, regaining physical activity is
a prerequisite for timely resuming professional activities, and, thus, of immediate
socio-economic relevance. A major component of daily physical activity and the most common
form of exercise is walking. Walking is self-regulated in intensity, duration, and frequency,
and it can be an important indicator of a person's health and fitness status. The improvement
of functional status is a primary goal in the rehabilitation of cancer patients. It is thus
crucial to be able to document quantitatively the walking activity of patients who are
recovering from intensive medical treatment. An understanding of the quantity (or lack) of
walking activity seems particularly important in addressing the needs of cancer patients who
are recovering from intensive medical treatment
Patients with hematologic malignancies recovering from intensive medical treatment such as
after high-dose chemotherapy (HDCT) and autologous stem cell transplantation (ASCT) can
benefit from gradually regaining a more physically active lifestyle, typically by increasing
ambulatory activity. Step counting devices (accelerometers and pedometers) offer an
opportunity to monitor daily ambulatory activity. Tudor-Locke and Bassett originally proposed
a graduated step index to describe pedometer-determined habitual physical activity in adults:
1. < 5,000 steps/day (sedentary);
2. 5,000-7,499 steps/day (low active);
3. 7,500-9,999 steps/day (somewhat active);
4. ≥ 10,000-12,499 steps/day (active); and
5. ≥12,500 steps/day (highly active).
Recognizing a considerable floor effect (i.e., insensitivity to the range of activity levels
below the lowest threshold) when applied to low active populations, Tudor-Locke et al
suggested that the original sedentary level is further divided into two additional
incremental levels:
< 2,500 steps/day (basal activity) and 2,500- 4,999 steps/day (limited activity).
Prospective use of PROMs and step counting devices after ASCT The investigators here propose
a non-randomized prospective non-blinded non-interventional observational clinical phase II
study, assessing physical activity in myeloma and lymphoma patients following high-dose
chemotherapy (HDCT) with autologous stem cell transplantation (ASCT). The primary objective
is to determine whether regaining a daily activity of at least 5'000 steps (thus, regaining
the "low active" level) 30 days after HDCT with ASCT is associated with a higher probability
to resume professional activity.
The hypothesis will be that 50% or more of those patients who achieve >5'000 steps during one
day at least once between 10 and 30 days after ASCT will have resumed their professional
activities at the day 100 assessment, whereas only 30% of those patients, who have not
achieved the 5'000 steps threshold until day 30, will have restarted their professional life
at the day 100 assessment. Physical activity will be assessed by a web-based pedometer
device, and patient-reported outcome measures (PROMs) will be collected using a web-based
tool.
The MIDATA.coop platform The trial will use the MIDATA.coop platform based on the principle
of citizen-controlled data storage and sharing. MIDATA.coop embodies an IT platform managing
personal data and the governance needed to operate it. As a not-for-profit citizen-owned
cooperative, its vision is to allow citizens to collect, store, visualize, and share specific
sets of their personal data with friends and health professionals, and to make anonymized
versions of part of these data accessible to research projects in fields that appeal to them.
The value generated by this secondary use of personal data is managed collectively to operate
and extend the platform and support further research projects.
