Stereotactic body radiation therapy for spinal metastases: a novel local control stratification by spinal region

Roman O Kowalchuk; Michael R Waters; K Martin Richardson; Kelly Spencer; James M Larner; William H McAllister; Jason P Sheehan; Charles R Kersh

doi:10.3171/2020.6.SPINE20861

Stereotactic body radiation therapy for spinal metastases: a novel local control stratification by spinal region

J Neurosurg Spine. 2020 Oct 23;34(2):267-276. doi: 10.3171/2020.6.SPINE20861.

Authors

Roman O Kowalchuk¹, Michael R Waters¹, K Martin Richardson¹, Kelly Spencer¹, James M Larner², William H McAllister³, Jason P Sheehan⁴, Charles R Kersh¹

Affiliations

¹ 1Radiosurgery Center, Riverside Regional Medical Center (in partnership with University of Virginia Health System), Newport News.
² Departments of2Radiation Oncology and.
³ 3Department of Neurosurgery, Riverside Regional Medical Center, Newport News, Virginia.
⁴ 4Neurosurgery, University of Virginia Health System, Charlottesville; and.

PMID: 33096522
DOI: 10.3171/2020.6.SPINE20861

Abstract

Objective: This study evaluated a large cohort of patients treated with stereotactic body radiation therapy for spinal metastases and investigated predictive factors for local control, local progression-free survival (LPFS), overall survival, and pain response between the different spinal regions.

Methods: The study was undertaken via retrospective review at a single institution. Patients with a tumor metastatic to the spine were included, while patients with benign tumors or primary spinal cord cancers were excluded. Statistical analysis involved univariate analysis, Cox proportional hazards analysis, the Kaplan-Meier method, and machine learning techniques (decision-tree analysis).

Results: A total of 165 patients with 190 distinct lesions met all inclusion criteria for the study. Lesions were distributed throughout the cervical (19%), thoracic (43%), lumbar (19%), and sacral (18%) spines. The most common treatment regimen was 24 Gy in 3 fractions (44%). Via the Kaplan-Meier method, the 24-month local control was 80%. Sacral spine lesions demonstrated decreased local control (p = 0.01) and LPFS (p < 0.005) compared with those of the thoracolumbar spine. The cervical spine cases had improved local control (p < 0.005) and LPFS (p < 0.005) compared with the sacral spine and trended toward improvement relative to the thoracolumbar spine. The 36-month local control rates for cervical, thoracolumbar, and sacral tumors were 86%, 73%, and 44%, respectively. Comparably, the 36-month LPFS rates for cervical, thoracolumbar, and sacral tumors were 85%, 67%, and 35%, respectively. A planning target volume (PTV) > 50 cm3 was also predictive of local failure (p = 0.04). Fewer cervical spine cases had disease with PTV > 50 cm3 than the thoracolumbar (p = 5.87 × 10-8) and sacral (p = 3.9 × 10-3) cases. Using decision-tree analysis, the highest-fidelity models for predicting pain-free status and local failure demonstrated the first splits as being cervical and sacral location, respectively.

Conclusions: This study presents a novel risk stratification for local failure and LPFS by spinal region. Patients with metastases to the sacral spine may have decreased local control due to increased PTV, especially with a PTV of > 50 cm3. Multidisciplinary care should be emphasized in these patients, and both surgical intervention and radiotherapy should be strongly considered.

Keywords: SABR; SBRT; local control; metastasis; oncology; stereotactic ablative radiosurgery; stereotactic body radiation therapy.