Nasopharyngeal Carcinoma Clinical Trial
Official title:
Clinical Feasibility Study of Hypoxia Imaging -Guided IMRT on the Individualized Radiotherapy of Nasopharyngeal Carcinoma
Nasopharyngeal carcinoma (NPC) differs from other head and neck malignancies in terms of its
epidemiology, pathology, and treatment outcome . It is endemic in China and is one of the
major public health problems. Concurrent radiotherapy and chemotherapy is the primary
treatment for patients with NPC. Despite such aggressive treatment, many patients with
locally advanced NPC still develop locally recurrent disease. Since local control is
directly related to patient morbidity and mortality in NPC, there is a strong need to
identify methods to further improve treatment outcome for NPC.
One strategy to improve local control is to escalate the dose of radiotherapy. This is
because local control has been shown to be directly related to the radiotherapy dose.
Several different techniques, including brachytherapy, stereotactic radiosurgery, and
dose-painting intensity modulated radiotherapy (IMRT), have been used to increase
radiotherapy dose. However, due to the large number of critical anatomic structures near the
nasopharynx, dose-escalation in NPC can also lead to increased toxicities. One technique
that has achieved dose-escalation with minimal increase in toxicity is simultaneous
modulated accelerated radiation therapy (SMART). The main challenge for such treatment is to
identify the appropriate tumor volume to receive the high-dose radiotherapy. Conventional
dose-escalation is conducted using computed tomography (CT) to identify the gross tumor
volume (GTV). However, recent progress with F-18 fluorodeoxyglucose positron emission
tomography/computed tomography (18F-FDG-PET/CT) in treatment planning allows more accurate
tumor volume delineation. We hypothesize that the use of PET/CT in treatment planning can
improve dose-escalation radiotherapy for NPC which in turn can improve therapeutic efficacy
while reducing toxicity. PET/CT imaging of tissue hypoxia using [F-18]fluoromisonidazole
(FMISO), the most widely used nitroimidazole imaging agent.Given that there has been no
clinical trials directly comparing conventional chemoradiotherapy to CT-guided
dose-escalation chemoradiotherapy or PET/CT guided dose-escalation chemoradiotherapy in
locally advanced NPC.This was a study to evaluate the role of FMISO-PET hypoxia imaging for
predicting survival in NPC,our study aims to compare the local control, overall survival and
toxicities of the three treatment regimens..
Study Design Patients with previously untreated Stages III~IVA (AJCC 6th Edition) of locally
advanced NPC, Karnofsky performance status≥70, and good bone marrow, liver and kidney
functions (white blood count ≥ 4.0×109/L, platelets ≥ 100×109/L, albumin ≥30 g/L ,
creatinine ≤100μmol/L) were enrolled on this study. Patients younger than 18, those with a
prior (within 5 years) or synchronous malignancy were excluded. Pretreatment evaluations
consisted of a history and physical, dental and laboratory studies. The clinical stage was
determined based on all information provided by examinations including contrast enhanced CT
and magnetic resonance imaging (MRI) of head and neck, Chest X-ray, liver sonography, bone
scan, and 18F-FDG-PET. All tumors were histologically confirmed except those of distant
sites.
Patients who met the eligibility criteria were randomized 1:1:1 into the three treatment
arms: conventional chemoradiotherapy (group A), FDG PET/CT -guided dose escalation
chemoradiotherapy (group B) and FMISO PET/CT -guided dose escalation chemoradiotherapy
(group C). All patients were given concurrent chemoradiotherapy within two weeks of
diagnosis. Radiotherapy was delivered using the simultaneous modulated accelerated radiation
therapy (SMART) IMRT technique in the dose-escalation treatment arms. Concurrent
chemotherapy consisted of cisplatin (20mg / m2 ,iv, d1- 4) and docetaxel (75mg / m2, d1, d8)
administered on the 1st and 4th week of treatment. All patients received adjuvant
chemotherapy that ranged from 2 to 4 cycles.
Follow-up and statistical analysis Planned patient assessment included physical examination
and fiberoptic nasopharyngoscopy every 3 months to 3 years starting at 4 weeks
post-treatment. A contrast-enhanced CT or MRI of the head and neck is also obtained at each
follow up. After 3 years, the patients were followed yearly thereafter. Suspected
recurrences were histologically proven. To assess for distant metastasis, CT of the chest
and bone scan were obtained every half a year. During every follow-up visit, treatment
toxicity were assessed. Radiotherapy-related toxicities were graded according to the Acute
and the Late Radiation Morbidity Scoring Criteria of the Radiation Therapy Oncology Group
(RTOG) and the European Organization for Research and Treatment of Cancer (EORTC).
Chemotherapy-related toxicities (except nausea or alopecia) were graded by the criteria of
the WHO.
All events were measured from the date of randomization. OS was defined as the time from the
date of radiotherapy to death or the latest date known to be alive. Durations were
calculated from the end of treatment. The Kaplan-Meier method was used to calculate the
actuarial rates of local control, DFS and OS. The χ2 test was used for comparing incidence
rates and categorical variables and Student's t-test was used for comparing the means of
continuous variables.
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Observational Model: Case Control, Time Perspective: Prospective
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