This phase II study of high dose intensity modulated radiation therapy in the cervical cancer with metastatic lymphadenopathies at initial diagnosis
Lymph node (LN) involvement in cervical cancer is a poor prognostic factor(1). Although lymph node evaluation is not a part of the International Federation of Gynecology and Obstetrics (FIGO) staging system(2), it is generally performed as one of the initial workup of patients with cervical cancer by use of modern imaging tools for accurate evaluation of the disease extent and possible treatment adjustment. Kidd et al reported the positron emission tomography with \[18F\] fluorodeoxyglucose (FDG-PET)-positive lymph node rate is 47% at diagnosis in 560 patients. They also showed that within a stage, patients with PET-positive lymph nodes had significantly worse disease specific survival than those with PET-negative lymph nodes (p\<0.001)(3). Historically, dose escalation to the pelvic or para-aortic metastatic lymphadenopathies was not given as much attention as primary uterine cervical lesion partly because of the expected increased risk of bowel toxicity with when conventional radiotherapy technique was used. Unlike for the head and neck cancer where intensity modulated radiation therapy (IMRT) or tomotherapy was actively used for treatment of large lymphadenopathies and shown to produce improved disease control(4, 5) , there are few similar studies for cervical cancer. It is well known that more than 60 Gy10 2Gy equivalent dose (EQD2, α/β=10 Gy) is needed to control the gross tumor sized of 10 mm, containing 109 cells, according to the logarithmic cell killing(6). Theoretically, pelvic and para-aortic LNs (PAN) could not be controlled with the dose of 45-50 Gy10 EQD2, and we need to escalate the dose as much as possible with new radiation technology. In the current is study, we evaluate the LNs control rate, toxicity rate, progression-free survival and overall survival in cervical cancer patients with lymphadenopathies and treated with high dose intensity modulated radiation therapy
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
55
IMRT boost of gross LNs 1. Tomotherapy fraction size (Gy) = 0.4 x 진단 당시의 LN short diameter (cm) + 1.6 (pilot study range, 1.5-3.0 Gy) 2. Total dose(summation dose with 3D-CRT) (Gy10) (EQD2, α/β=10 Gy) = 5 x 진단 당시의 LN short diameter (cm) + 56 (pilot study range, 54.6-78.0 Gy)
National Cancer Center, Korea
Goyang-si, Gyeonggi-do, South Korea
National Cancer Center
Goyang-si, Gyeonggi-do, South Korea
Overall survival
From date of initiation of radiotherapy until the date of documented date of death from any cause, assessed up to 3 years
Time frame: documented data of death, up to 3 years
Disease-free survival (DFS)
From date of initiation of radiotherapy until the date of first documented progression or date of death from any cause, whichever came first, assessed up to 3 years. * Progression-free survival of lymph nodes(LNs) treated with high dose ② Regional LN (other than the LNs treated with high dose) failure-free survival ③ Distant organ (other than para-aortic LNs\[PAN\]) failure-free survival
Time frame: documented date of progression or death, up to 3 years
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