Cervix Cancer Clinical Trial
Official title:
Megavoltage CT (MVCT) Imaging for Intracavitary Radiation Treatment in Cervix Cancer
The Cross Cancer Institute has recently acquired a tomotherapy radiotherapy treatment machine; the first of its kind in Canada. It has the potential to improve cancer treatment outcomes where radiotherapy is used. Cervix cancer is a disease where radiotherapy is a particularly important treatment modality. The researchers believe that by combining tomotherapy (which has the ability to give higher doses of radiation to areas of cancer while sparing normal tissues) with radiotherapy given from inside the uterus and vagina (brachytherapy) disease outcomes will be improved. For this to be possible the researchers will need to accurately map the doses of radiation given to the cervix, uterus and other pelvic organs from these two types of radiation treatment. As well as being used for treatment, the tomotherapy machine can also be used for taking medical images by using very much lower doses of radiation. This study will allow the researchers to develop the mapping process by using very low doses of radiation on the tomotherapy unit to take medical x-ray images of patients being treated by brachytherapy for cervix cancer. In this special circumstance the researchers expect the images to be of a higher quality than for conventional computed tomography (CT) scanning or magnetic resonance imaging (MRI) scanning.
Megavoltage CT Imaging for Intracavitary Radiation Treatment in Cervix Cancer
Proposal
To assess the feasibility of performing CT imaging using a megavoltage CT scanner on five
patients where remote afterloading intracavitary applicators have been inserted for the
purpose of delivering intracavitary radiotherapy in the treatment of cervix cancer.
Rationale
While there has been recent improvements in the treatment of more advanced stages of cervix
cancer by combining radical radiation treatment with concurrent cisplatin based
chemotherapy, there is room for further improvements in local regional control. One approach
to achieving this is to increase the dose of therapeutic radiation to the clinical target
volume without exceeding the tolerance of the adjacent normal tissues. Modern radiotherapy
techniques allow for better conformation of the high dose radiation volume to the clinical
target volume by using external beam techniques (conformal radiation treatment and intensity
modulated radiation treatment) and the use of tomotherapy is likely to be particularly
advantageous in this regard. The mainstay of cervix cancer radiotherapy has always been and
will likely remain the use of brachytherapy. Future improvements in the outcome of cervix
cancer treated by radiotherapy are therefore likely to necessitate accurately combining
intracavitary radiation treatment with intensity modulated external beam radiation treatment
and particularly with the use of tomotherapy techniques.
The ability to accurately reconstruct the three-dimensional dosimetry achieved by the
combined use of intracavitary radiation treatment and helical tomotherapy will be pivotal in
the success of this strategy. Conventional CT imaging of patients receiving intracavitary
radiation treatment is hampered by distortion artifacts from the metallic applicators. The
opportunity to gain improved images using megavoltage CT scanning using the same equipment
and same patient set-up that will ultimately by used for the delivery of tomotherapy offers
some unique potential advantages and solutions to the problem.
By imaging patients with the remote afterloading applications in situ, the researchers
should be able to generate accurate isodose distributions in three dimensions for the
intracavitary component of the cervix cancer treatment. By contouring the clinical target
volume, which includes the primary cancer, local routes of spread and regional pelvic lymph
nodes, the researchers can explore the feasibility of generating combined helical
tomotherapy and intracavitary radiation treatment plans.
Patients and Methods
Patients who are to receive intracavitary brachytherapy on the low dose rate selectron at
the Cross Cancer Institute will be approached to participate in this pilot study. An
informed consent will be obtained from five patients for this study. Following the insertion
of the remote afterloading applicators in the operating room, patients are normally
transferred from the operating room to Simulator C for orthogonal simulator films and then
to Station 30 where treatment is started approximately two hours later after dosimetry
calculations have been performed and treatment has been prescribed.
For the patients consenting to this study, they will proceed from Simulator C to Station 30
via the tomotherapy unit in CBIAR where megavoltage CT scans will be taken. Patients will be
accompanied by a brachytherapy radiation therapist. The megavoltage CT scans will take
approximately one hour to perform, but this will not result in any treatment delay for the
patient.
Isodose volumes from the prescribed intracavitary brachytherapy will be reconstructed on the
megavoltage images. The feasibility of defining the clinical target volume on the
megavoltage scans will be explored. This may require fusion with conventional CT images that
will already have been taken for diagnostic and external beam treatment planning purposes.
Megavoltage and/or fused images will be used to pilot the integration of tomotherapy
intensity modulated radiation therapy treatment plans with intracavitary brachytherapy
dosimetry.
The current study will have no influence on individual patient treatments but is a prelude
to a potential dose escalation study using tomotherapy for patients with cervix cancer.
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Observational Model: Case-Only, Time Perspective: Prospective
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