The study is a prospective randomised clinical phase III trial. Proton therapy is the gold standard in the treatment of low and intermediate grad chondrosarcomas of the skull base. However, high-LET beams such as carbon ions theoretically offer biologic advantages by enhanced biologic effectiveness in slow-growing tumors. Up until now it was impossible to compare two different particle therapies, i.e. proton and carbon ion therapy directly with each other. The aim of this study is to find out, whether the biological advantages of carbon ion therapy mentioned above can also be clinically confirmed.
The study is a prospective randomised clinical phase III trial. The trial will be carried out at Heidelberger Ionenstrahl-Therapie (HIT) centre as monocentric trial. Proton therapy is the gold standard in the treatment of low and intermediate grad chondrosarcomas of the skull base. However, high-LET beams such as carbon ions theoretically offer biologic advantages by enhanced biologic effectiveness in slow-growing tumors. Up until now it was impossible to compare two different particle therapies, i.e. proton and carbon ion therapy directly with each other. The aim of this study is to find out, whether the biological advantages of carbon ion therapy mentioned above can also be clinically confirmed. Patients with skull base chondrosarcomas will be randomised to either proton or carbon ion radiation therapy. As a standard, patients will undergo non-invasive, rigid immobilization and target volume definition will be carried out based on CT and MRI data. The biologically isoeffective target dose to the PTV in carbon ion treatment will be 60 Gy E ± 5% and 70 Gy E ± 5% (standard dose) in proton therapy respectively. The 5 year local-progression free survival (LPFS) rate will be analysed as primary end point. Overall survival, progression free and metastasis free survival, patterns of recurrence, local control rate and morbidity are the secondary end points. Plan quality is also a matter of interest.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
154
Arm A (carbon ion therapy): Total dose to the PTV2 - 45 Gy E in 3 Gy E /d, 4 - 6 days a week, 15 fractions Total dose to the PTV1 - 60 Gy E ± 5%, further 4 - 6 fractions a 3 Gy E.
Arm B (proton therapy): Total dose to the PTV2 - 50 to 56 Gy E in 2 Gy E /d, 4 - 6 days a week, 25 - 28 fractions Total dose to the PTV1 - 70 Gy E ± 5%, further 6 - 10 fractions a 2 Gy E.
University of Heidelberg
Heidelberg, Im Neuenheimer Feld 400, Germany
RECRUITINGLocal-Progression Free Survival (LPFS)
The primary objective of this study is to evaluate, if the innovative carbon ion therapy in chondrosarcomas is not relevantly inferior to the standard proton treatment with respect to the 5 year LPFS rate defined as time from the randomisation to observed local reccurrence. It is assumed that the LPFS rate for the proton therapy is 90%.
Time frame: 5 years
Survival
Assessment of overall survival, progression free and metastasis free survival.
Time frame: 12 years
Toxicity
Acute and late toxicity will be analysed according to Common Terminology Criteria for Adverse Events: CTCAE V4.0 for acute side effects and RTOG/EORTC for late reaction.
Time frame: 12 years
Patterns of recurrence and local control rate
Local recurrences will be confirmed radiologically and histologically whenever possi-ble. At least two medical doctors (radiation oncologist and/or radiologist) will be re-quired to judge of the recurrence.
Time frame: 5 years
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