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The spine is a common metastatic site for malignancy and it can lead to serious and devastating events, including pain, neurological dysfunction, and reduction in quality of life. The radiotherapy (RT) has been the mainstay for palliating painful spinal metastases for the past decades. It is utilized to arrest the tumor growth, control pain, and stabilize or improve skeletal and/or neurological function. One of the limitations of the conventional radiotherapy is that radiation dose intensification is not achievable with conventional RT techniques due to the dose-limiting spinal cord, which is close to the vertebral body and sometimes encased by epidural lesion.
The management of patients with spine metastasis has undergone a great deal of change in the past 10 years. The concept of radiosurgery, a high dose of radiation targeted to a pathological entity and delivered in 1-5-fractions, has proven so successful at treating both benign and malignant lesions that it changed the paradigm for radiation therapy. Clinical experiences with high dose spine stereotactic radiosurgery (SSRS) for spinal metastases demonstrated both safety and efficacy. Nontheless, the patterns of clinical practice of SSRS varies considerably regarding the dose fractionation, target delineation, and dosimetry. There is lack of evidence-based recommedations for SSRS.
In our prior clinical trial comparing single fraction and multiple fractions SSRS (NCT02608866), single-fraction with 16 Gy is the preferred regimen for further evaluation since it met the predefined primary endpoint and has lower risk of treatment failure compared to the multiple-fraction arm. Regarding the target volume definition, the International Spine Radiosurgery Consortium published concensus guidelines based on expert opinions and limited case series. We proposed this randomized study to determine the preferred or acceptable definition of target volume delineation in SSRS and to evaluate their toxicity, efficacy, and patterns of failure. Our analysis will provide evidence-based recommendations as well as predictive factors regarding the clinical practice of SSRS.
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Although conventionally fractionated radiation therapy has been utilized for decades, the rates of complete pain relief and local control for complex tumors are sub-optimal. The management of patients with spine metastasis has undergone a great deal of change in the past 5 years. Improvements in neuroimaging, computer- assited treatment planning, and radiation therapy techniques have led to the development of extracranial radiosurgery.
SSRS is rapidly being adopted in the clinic as preliminary applications of SSRS appears promising. However, the role of SSRS remains in its infancy and lacked high-quality evidence about the treatment schedule and lacked a solid understanding of the adverse events. The RTOG 0631 phase 2/3 study was initiated to determine whether a more intensive radiation dose delivered by image guided 16-Gy dose single fraction SRS could improve pain control and quality of life as compared with conventional EBRT in patients with localized spine metastases. Our preliminary result from previus phase 2 stereotactic spine radiosurgery trial (NCT02608866) also showed good local control with minimal side effects in the single fraction 16-Gy setting as compared with 3 fractions 24 -Gy SRS dose.
Accurate and approproate delineation of the target area is paramount to the utilization of spine SBRT. Whethr the target volume should include the entire extent of tumor and the involved anatomical compartment for intact vertebra metastasis or remained to be discussed.
Our preliminary showed that the overall treatment failure rate was only about 14% using the definition of the treating the affected spinal lesions(invovled target ) instead of treating the entire . Better dose coverage of the target vome with improved normal tissue protection can be achived with invovled field treatment without compromising the local control. Since no treamtent target consensus has been reached from current clinical practive evidence. It is pivotal to establish and collect more treatment evidence for future spinal SBRT.
There was no randomized trials to assess the SSRS treatment response and SSRS induced grade 3 or higher adverse events between these two different target delineations. Thus, we proposed the randomized study to determine the feasibility of using "Invovled Target Volume" versus "Elective Target Volume" and tried to evaluate the toxicity profile and gain robust data as well as predictive factors regarding the local control rate and risk of complications after SSRS.
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114 participants in 2 patient groups
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Feng-Ming Hsu, M.D., Ph.D
Data sourced from clinicaltrials.gov
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