Metastasis to Bone Clinical Trial
Official title:
Post-operative RadioTherapy for Patients With Metastases of the Long Bones: a Randomised Controlled Trial
Rationale: Bone metastases arise in 50% of all patients dying of cancer, increasing up to
70% in patients with breast and prostate cancer. The lesions can cause pain and fractures,
leading to diminished quality of life and poorer survival. Current knowledge concerning
adequate, personalized treatment of metastatic lesions of the long bones in patients with
disseminated cancer is insufficient and inconclusive due to lack of large, prospective
series with patient reported outcome measures. One of the debatable issues is the
effectiveness of postoperative radiotherapy. It has become common practise due to
professional opinion, but research evidence is lacking. It is thought that adjuvant
radiotherapy improves the durability of an implant, prevents progression of the lesion,
promotes bone healing, improves limb function, minimises pain and reduces the need for
reoperations, however none of these are certain. Moreover, it is a burden on patient's
quality of life (e.g. multiple extra hospital visits) causing toxicity and possible side
effects (e.g. skin irritation). The true beneficial effect, weighing up the possible pros
and certain cons, of adjuvant radiotherapy is thus unknown.
Objective: The PORT study aims to demonstrate the non-inferiority of 'surgery only' compared
to surgery with adjuvant radiotherapy as treatment of impending and actual pathological
fractures on the pain experienced by patients.
Study design: A multicentre, prospective, randomised non-inferiority trial nested within the
OPTIMAL study.
Study population: All patients with metastases of the long bones undergoing surgery for a(n)
(impending) pathologic fracture in the participating centres.
Study intervention: One study arm (A) will receive surgery with adjuvant radiotherapy; the
other study arm (B) will receive surgery only.
Main study parameters/endpoints: Primary endpoint is patient reported pain according to a
numeric rating scale (NRS). Clinical functioning, radiological status, complications and
survival are secondary endpoints.
The PORT study aims to demonstrate the non-inferiority of 'surgery only' compared to
'surgery with adjuvant radiotherapy' for the fixation of impending and actual pathological
fractures of the long bones. We hypothesize that patients without post-operative
radiotherapy will not have more pain than those receiving post-operative radiotherapy. The
primary efficacy endpoint will be the pain level (as measured by an eleven point numeric
rating scale (NRS)) 12 weeks after treatment. Pain has been chosen as primary endpoint
because it can be interpreted as a "proxy" for mechanical loosening or other complications.
It was undesirable to select revision surgery as endpoint, because the number of revision
surgeries will be very low in this patient population. A revision will only be performed for
serious complications with large effects on the quality of life. In other cases,
conservative options will be chosen over revision surgery.
Secondary endpoints are complications, quality of life and overall survival.
A secondary objective is to conduct cost-effectiveness and costs-utility analyses.
This study is a multicentre, prospective, randomised non-inferiority trial nested within the
OPTIMAL study. The OPTIMAL study is the backbone of the (OPTIMAL-) PORT study, encompassing
the prospective cohort and providing the infrastructure for collection patient reported
outcome measures. If patients do not have an indication for surgery, they can only be
included in the OPTIMAL study. If patients have an indication for surgery, they are
recruited for the OPTIMAL-PORT study. However, if patients do not give consent for
randomisation for radiotherapy, they can give partial consent and participate in the
prospective cohort and complete questionnaires. This data will contribute to the OPTIMAL
study. Details concerning the OPTIMAL study are described in the respective protocol.
The PORT trial is a non-inferiority trial between ' surgery with post-operative
radiotherapy' (Arm A) with 'surgery only (no post-operative radiotherapy)' (Arm B). A
non-inferiority design is appropriate for this study because we expect that the clinical
outcomes with surgery only are not worse than with post-operative radiotherapy. 'Surgery
only' however has evident advantages, as it will lessen the burden on patients of visiting
the hospital, prevent toxicity and cost less. Furthermore, as mentioned in the introduction,
the focus of treatment is on maintaining and improving quality of life. The goal is to do
what is right, safe, and efficient and not to provide more care than is needed. Rethinking
whether we need post-operative radiotherapy is part of achieving that goal.
All patients with (impending) fractures of the long bones due to bone metastases and an
operation indication will be asked to participate in the OPTIMAL cohort and provide patient
reported outcomes. In addition, they will be informed about the PORT trial.
Post-operatively, shortly before discharge from the hospital, they will be asked for
informed consent for the PORT trial by the treating physician or a researcher. This assures
a waiting period of 3-7 days between information and consent. Patients are informed that
they are free to decide whether they wish to participate in the trial and will receive
written information in addition to oral information. If patients do not wish to participate
in the trial, they will receive standard care (which is post-operative radiotherapy in most
cases). The first post-operative questionnaire will be sent 4 weeks after surgery.
Statistical analysis: To describe patient characteristics and outcomes, descriptive
statistics (mean, median, standard deviation, and proportions) will be used. For univariate
testing, p-values will be one tailed and considered significant if less than 0.05.
The primary endpoint of this study is pain response after surgery with or without
post-operative radiotherapy. This will be expressed in absolute numbers (difference in NRS).
A linear regression model to adjust for patients' characteristics will be used to compare
the difference in mean pain level between the two arms with the centre from which the
patient originates as a random effect.
For the analysis of non-inferiority primarily an intention to treat (ITT) will be performed.
However, an ITT analysis is more likely to narrow the difference between treatments in a
non-inferiority trial and yield a non-inferior result, thus a per protocol (PP) analysis is
needed to cross-validate the ITT analysis.
Differences in the occurrence of complications will be compared by Fisher's exact test or
chi-square test.
The QoL will be analysed using the EORTC QLQ-C15-PAL and EORTC QLQ-BM22. A comparison will
be made between the baseline QoL and at predefined intervals after treatment (at 4 and 8
weeks, 3, 6 and 12 months following radiotherapy). A change of 10% of the scale width will
be considered a clinically relevant change of QoL (Osoba 2005). The data will be presented
as stable, worsened (≥ 10% decrease in QoL) or improved (≥ 10%increase in QOL). These time
points will be compared using a Chi square test with a conservative p-value of 0.01 to
correct for multiple testing. We will also evaluate the pattern of QoL as a continuous
outcome over time during follow up with the mixed models approach.
Overall survival and progression free survival will be estimated by applying Kaplan-Meier's
methodology analysis. Time to event will be measured from time of treatment to death or to
progression of the disease. Comparisons in outcomes between treatment groups will be
performed by Log Rank test.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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