Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05615909 |
| Other study ID # |
OP_775 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
November 19, 2020 |
| Est. completion date |
November 1, 2022 |
Study information
| Verified date |
November 2022 |
| Source |
Odense University Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
In 2018 the Unity MR-linac was approved for treating patients with online magnetic resonance
(MR)-guided radiotherapy. With the MR-linac it is possible to get real-time MR images with
high soft tissue contrast, adapt the radiotherapy plan and subsequently irradiate at each
treatment fraction. Patients with prostate cancer is one of the patient groups referred for
this new treatment and potentially they will benefit with decreased margins around the tumour
and increased local tumor control rates.
The acute toxicity is important when evaluating treatment tolerability. A prospective
longitudinal observation of the acute treatment toxicity to online MR-guided radiotherapy is
therefore essential in the evaluation of this new technology.
Patient-reported outcomes (PRO) are disease symptoms and treatment toxicity reported directly
by patients themselves without clinician interpretation. Several studies have indicated that
clinicians tend to underreport the incidence and severity of patient symptoms, thus a
systematic use of PROs in clinical trials can provide valuable evidence to the clinicians. As
online MR-guided radiotherapy (MRgRT) is a new technology there is limited research worldwide
on patient-reported symptoms and quality of life.
The objective of this study is therefore to prospectively investigate the patient-reported
acute toxicity and changes in quality of life during and after online MR-guided radiotherapy.
Description:
Background:
In 2018 the first patients worldwide were treated with the first 1.5 T MR-linac. The MR-linac
is innovative technology in cancer treatment making precision radiotherapy possible, as it is
a linear accelerator mounted on a ring around a 1.5-Tesla MRI Scanner combined with an online
adaptive radiotherapy planning system. When the patient is positioned in the MR-linac it is
possible to get real-time MR images with high soft tissue contrast, adapt the radiotherapy
plan and subsequently irradiate at each treatment fraction. The improved visualization on the
MR images makes it possible to see how the tumour and the organs around it changes and adapt
the treatment plan every day. This opens up for a reduction of safety margins needed to
insure target coverage and increased use of hypo- fractionation. Cancer patients will
hopefully benefit from this with decreased treatment toxicity and increased local tumor
control rates.
Today, computed tomography (CT)-guided intensity-modulated radiotherapy is standard treatment
for patients with pelvic or abdominal tumors. However, the visualization of the tumor and
surrounding tissue is poor due to low soft-tissue contrast in the cone-beam scans. When using
MRI for online radiotherapy planning in pelvic and abdominal sites, the soft-tissue contrast
will be high making it possible to improve contouring accuracy and reduce margins. The
potential of the MR-linac lowering treatment toxicity can greatly impact survivorship and
quality of life. This would particularly be beneficial for patients diagnosed with cancer in
the pelvic region, like prostate cancer, having considerably high chances of survival.
The standard for toxicity monitoring in cancer clinical trials is the prospective clinician
reporting of the National Cancer Institute's Common Terminology Criteria for Adverse Events
(CTCAE). CTCAE grading, as well as patient-reported outcomes (PRO), is also part of the
proposed standard assessment methodology for clinical evaluation of radiotherapy innovations
like online MRgRT. Several studies have identified discrepancies between clinician and
patient reporting within systemic treatment where clinicians appear to underreport the
severity of treatment toxicity, compared to patient-reported severity. Therefore, patient
self-reports are an important supplement to the evaluation of online MRgRT as in other
oncological settings where they have been used as direct indicators of worsening, persistence
or improvement of symptoms and general well-being. Furthermore, patient self-reports reduces
the risk of unanticipated treatment toxicities being undetected.
Methods:
Study Design:
The study is a prospective single-arm longitudinal observational study including all prostate
cancer patients treated with online MR-guided radiotherapy or CT-guided radiotherapy in the
study period.
Participants:
Patients with prostate cancer referred for radiotherapy at Odense University Hospital in the
time period 15.11.2020 - 01.07.2022 will be eligible for inclusion.
Data collection:
A patient pathway app, My Hospital, will be used for data collection. A PRO item set for
patients with prostate cancer has been developed and tested in a pilot study (PRO-CTCAE and
EORTC items). The item set will be used weekly during treatment and 4 weeks following to
capture expected and unanticipated symptoms of acute treatment toxicity. During follow-up
patients wll be asked to report 8, 12 and 24 weeks after radiotherapy completion. Other
questionnaires will be used to measure quality of life (EORTC QLQ-C30+EORTC PR25),
health-related quality of life (EQ-5D-5L), patient experience with ePRO (Patient Feedback
Form) and patient experience with treatment on a 1.5 T Unity MR-linac (Patient Experience
Questionnaire).
Data on clinician management of PROs will be drafted from the patient app My Hospital.
