Official Title
Phase III Randomized Controlled Trial and Economic Evaluation of Stereotactic Ablative Radiation Therapy for Comprehensive Treatment of Oligometastatic (1-3 Metastases) Cancer (SABR-COMET-3)
Summary:
Stereotactic Ablative Radiation Therapy (SABR) is a modern RT technique that delivers high doses
of radiation to small tumour targets using highly conformal techniques. SABR is non-invasive
and delivered on an outpatient basis. The purpose of this study is to compare the effect of
SABR, relative to standard of care (SOC) alone, on overall survival, progression-free
survival, toxicity, and quality of life. An integrated economic evaluation will determine the
cost per quality of life year gained using SABR (vs. SOC) and a translational component will
enable identification of predictive/prognostic biomarkers of the oligometastatic state.
Trial Description
Primary Outcome:
Secondary Outcome:
- Side effects
- Progression-free survival (PFS)
- Patient-reported quality of life (QoL)
- Health-related quality of life (HRQoL) questionnaire
- Resource Utilization (Patient and Provider Reported)
- Correlation between candidate biomarkers of oligometastatic disease (blood-derived) and oncologic outcomes
TREATMENT PLAN
5.1.1 Standard Arm (Arm 1)
Radiotherapy for patients in the standard arm should follow
the principles of palliative radiotherapy as per the individual institution,
with the goal of alleviating symptoms or preventing imminent complications.
Patients in this arm should not receive stereotactic doses or radiotherapy
boosts. Recommended dose fractionations in this arm will include 8 Gy in 1
fractions, 20 Gy in 5 fractions, and 30 Gy in 10 fractions.
Systemic therapy will be pre-specified based on the standard
of care approach for that patient, and it may include systemic therapy
(cytotoxic, targeted, hormonal, or immunotherapy) or observation. See section
6.3 for the timing of systemic therapy.
5.1.2 Experimental Arm (Arm 2)
Dose/Fractionation
Treatment recommendations are as follows:
Lung: Tumours 5 cm or less surrounded by lung parenchyma: 48
Gy in 4 fractions (12 Gy/#), 54 Gy in 3 fractions (18 Gy/#), daily or every
second day
Lung: Within 2 cm of mediastinum or brachial plexus 60 Gy in
8 fractions (7.5 Gy/#) daily
Bone: Any bone 35 Gy in 5 fractions (7 Gy/#), 24 Gy in 2
fractions (12 Gy/#), daily
Brain: Stereotactic lesions (no whole brain RT):
<2cm 20-24 Gy in 1 fraction (20-24 Gy/#) Once
2-3 cm 18 Gy in 1 fraction (18 Gy/#) Once
3-4cm 15 Gy in 1 fraction (15 Gy/#) Once
Metastases only: 35Gy 5 7 Gy to PTV Daily, Whole brain +
Mets: 35Gy to metastases 5 7 Gy to PTV Daily, 20 Gy whole brain 4 Gy WBRT
Daily,
Liver: 54 Gy in 3 fractions (18 Gy/#), every second day
Adrenal: 40 Gy in 5 fractions (8 Gy/#), daily
Lymph Node: 40 Gy in 5 fractions (8 Gy/#), daily
5.1.2.1 Immobilization Treatment will be setup using
reproducible positioning and verified using an on-line protocol for all
patients in this study. Immobilization may include a custom immobilization
device, such as thermoplastic shell or vacuum bag, as per individual
institutional practice when delivering SABR. Some centers do not use
immobilization devices and have demonstrated high degrees of accuracy; this is
acceptable in this study.
5.1.2.2 Imaging/Localization/Registration All patients in
Arm 2 will undergo planning CT simulation. 4-dimensional CT will be used for tumours
in the lungs, liver, or adrenals. Axial CT images will be obtained throughout
the region of interest. For centres using stereotactic radiosurgery platforms,
real-time tumour tracking and orthogonal imaging systems are permitted.
5.1.2.3 4D-CT Procedures
For patients undergoing 4D-CT, physics will review the 4D-CT
images and will perform the following quality assurance procedures indicated on
the 4D-CT template designed specifically for SABR:
i) Ensure all end inspiration (0%) tags exist and are in the
right place. This ensures image integrity.
ii) If the quality of the 4D-CT images is not sufficient
(determined by Physics), then standard 3D-CT will be performed on the fast
helical CT or Untagged Average CT.
iii) Motion measurements in all 3 directions are performed:
- If the motion is less than or equal to 7 mm and
the good quality images exist, then treatment planning may be performed on the
Untagged Average CT with the 50% or 60% phase (End Expiration) and the 0% phase
being fused to it. This will define the IGTV.
- If the motion is greater than 7 mm in any one
direction, then respiratory-gated radiotherapy can be considered. In this case,
treatment planning will be performed on a subset average CT dataset (usually
labeled either 30%-60% Avg CT or 40%-70% Avg CT) generated by Physics. This is
an average CT over the intended gated interval. Therefore, the GTV that is
delineated on this scan will incorporate residual motion in the intended gated
interval. The 0% phase will also be fused to this dataset. The PTV for planning
will include the GTV delineated on the subset average CT plus margins for
microscopic extension (Physician's discretion) and setup uncertainty. The
GTV_0% should also be delineated and combined with the GTV delineated on the
subset average CT to define an additional volume labeled IGTV_CBCT. This
contour may be used for image registration with CBCT only.
5.1.2.4 Volume Definitions (Arm 2) For all lesions, the
gross tumour volume (GTV) will be defined as the visible tumour on CT and/or
MRI imaging +/- PET. No additional margin will be added for microscopic spread
of disease (i.e. Clinical Target Volume [CTV]=GTV). For bone lesions, CTV of
3-5mm will be allowed. For vertebral lesions, anatomic approach will be taken
as per International Spinal consortium guideline (Cox 2012)
An anatomic approach is taken to the CTV based on where the
disease within the spinal segment is located. The rules for CTV are as follows:
- If the vertebral body is involved with GTV then
the entire vertebral body is taken as CTV.
- If the ipsilateral pedicle and/or transverse
process has GTV then the entire ipsilateral posterior segment (pedicle, lamina
and transverse process) ±the spinous process is taken into the CTV. The
inclusion of the spinous process is per the discretion of the radiation
oncologist.
- If the ipsilateral pedicle, lamina, and/or
transverse process has GTV, then the entire ipsilateral posterior segment
(pedicle, lamina, and transverse process) plus the spinous process is taken
into the CTV
- If bilateral involvement of the pedicle and/or
transverse process with GTV, then the posterior segment anatomy ± the spinous
process is taken into the CTV. The inclusion of the spinous process is per the
discretion of the radiation oncologist.
- If bilateral involvement of the pedicles and
lamina, and/or transverse process with GTV, then the entire posterior segment
anatomy is taken into the CTV, including the spinous process.
- If the spinous process is involved with GTV
alone then the bilateral lamina ± pedicles are to be taken into the CTV.
The International Spinal Consortium Guideline is a reference
for CTV delineation (Cox 2012) and can be adhered to as described.
In the case of epidural disease, a 5 mm anatomic margin
(excluding the spinal cord) beyond the GTV may be used within the epidural
compartment including in the cranio-caudal direction. A circumferential CTV as
per a donut based CTV is allowed and encouraged in the case of epidural disease
at the discretion of the treating radiation oncologist. If paraspinal disease
present, a minimum 5 mm CTV margin may be applied beyond the GTV.
A Planning Target Volume (PTV) margin of 2-5 mm will be
added depending on site of disease, immobilization, and institutional set-up
accuracy: 2-3 mm margins should be used for spinal stereotactic treatments, 0-2
mm for brain tumours, and 5 mm for other sites.
Targets should be named based on the organ involved, and
numbered from cranially to caudally. For example, in a patient with 3 lung
lesions, there would be: GTV_lung_1, GTV_lung_2, and GTV_lung_3, and
corresponding PTV_lung_1, PTV_lung_2_, and PTV_lung_3, representing the lesions
from superior to inferior.
For spinal lesions, a pre-treatment MRI is required to
assess the extent of disease and position of the cord. This must be fused with
the planning CT scan. A Planning Organ at Risk Volume (PRV) expansion of 2 mm
will be added to the spinal cord, and dose constraints for the spinal cord
apply to this PRV. Alternatively, the thecal sac may be used as the PRV. For
radiosurgery platforms, a PRV margin of 1 mm is permitted for the spinal cord.
Organ At Risk (OAR) Doses OAR doses are listed in Appendix 1
of protocol. OAR doses may not be exceeded except in the case of chestwall /
ribs. In cases where the PTV coverage cannot be achieved without exceeding OAR
doses, the PTV coverage is to be compromised. All serial organised OARs within
5 cm of the PTV must be contoured (partial organ contours allowed); for
parallel organised organs (liver, lung, etc.) within 5cm of PTV, the whole
organs need to be contoured. This should be tested for each PTV by creating a 5
cm expansion to examine which OARs lie within that expansion.
Treatment Planning Treatment can be delivered using static
beams (either 3D-conformal radiotherapy or intensity-modulated) or rotational
therapy (volumetric modulated arc therapy, or tomotherapy).
Dose constraints may not be exceeded (except
chestwall/ribs). If a dose constraint cannot be achieved due to overlap of the
target with an organ at risk, the fractionation can be increased or the target
coverage compromised in order to meet the constraint. In cases where the target
coverage or dose must be reduced, the priority for dose coverage is the GTV
(e.g. attempt to cover as much of the GTV as possible with the prescription
dose). All such cases of dose reduction or target coverage compromise must be
approved by the local PI prior to treatment. For vertebral tumours, note that
the spinal cord constraints apply to the PRV (see section 6.2.5).
For all targets, doses should be prescribed to 60-90%
isodose line surrounding the PTV, and all hotspots should fall within the GTV.
95% of the PTV should be covered by the prescription dose, and 99% of the PTV
should be covered by 90% of the prescription dose.
Doses must be corrected for tissue inhomogeneities. Several
non-overlapping 6/10 MV beams (on the order of 7-11 beams) or 1-2 VMAT arcs
combined possibly with a few non-coplanar beams should be utilized.
Non-coplanar beams can be used to reduce 50% isodose volume.
The number of isocentres is at the discretion of the
treating physician, physicists, and dosimetrists. Generally, metastases can be
treated with separate isocenters if they are well-separated.
The scheduling and sequence of treating each metastasis is
at the discretion of individual physicians, but in general should begin with
the brain, due to risks associated with progression. All SABR must be completed
within 2 weeks.
5.1.2.5 Quality Assurance (Arm 2)
In order to ensure patient safety and effective treatment
delivery, a robust quality assurance protocol is incorporated. The following
requirements must be completed for each patient:
- Prior to treatment, each patient must be
discussed at quality assurance (QA) rounds or be peer reviewed by a radiation
oncologist with SABR expertise.
- All radiotherapy plans must meet target dose
levels for organs at risk (except chestwall/ribs) (Appendix 1). Prior to plan
approval, the dose to each organ at risk must be verified by the physicist or
treating physician.
- All dose delivery for intensity-modulated plans
(including arc-based treatments) will be confirmed before treatment by physics
staff.
5.1.2.6 Systemic Therapy Patients treated with prior
systemic therapy are eligible for this study, however, no chemotherapy agents
(cytotoxic, or molecularly targeted agents) are allowed within the period of
time commencing 2 weeks prior to radiation lasting until 1 week after the last
fraction. Hormonal therapy is allowed. Use of chemotherapy schemes containing
potent enhancers of radiation damage (e.g. gemcitabine, doxorubicin,
bevacizumab, adriamycin) are discouraged within the first month after
radiation.
5.1.2.7 Further radiotherapy for progressive disease at new
metastatic sites Patients in Arm 1 who develop new, untreated metastatic
deposits should be treated with standard-of-care approaches. SABR to those
sites is not permitted, except for unique scenarios where it would be
considered standard of care (e.g. all disease controlled on systemic therapy
with a newly developed brain metastasis). Apart from brain metastases,
treatment of 'oligo-progression' with SABR is not permitted.
Patients in Arm 2 who develop new, untreated metastatic
deposits should be considered for SABR at those sites, if such deposits can be
treated safely with SABR, and if the treating institution offers SABR for that
body site. If SABR is not possible, then palliative RT can be delivered if
indicated.
5.1.2.8 Quality Assurance for Centres Joining Study Prior to
opening the study, each participating research centre will be required to send
to one of the Principal Investigators a mock treatment plan for the anatomic
sites that will be treated (e.g. Lung, brain, liver, adrenal), to ensure that
the treatment plans are designed in compliance with the protocol. The principal
investigators will provide pertinent CT datasets. Each participating research
centre can choose which tumour sites will be treated at their individual centre
(i.e. some centres may only choose to treat a subset of the eligible metastatic
sites). Sites that have prior accreditation for SABR through a clinical trial
(e.g. SABR-COMET, or organ-specific SABR trials) are exempt from this
requirement for the organ sites that have been accredited in those trials.
View this trial on ClinicalTrials.gov
