Skip to main content

Purposeful irradiation of the epidural space to enhance local control without compromising cord sparing in spine radiosurgery†.

Publication ,  Journal Article
Jensen, PJ; Torok, JA; Goodwin, CR; Floyd, SR; Wu, Q; Wu, QJ; Kirkpatrick, JP
Published in: J Radiosurg SBRT
2022

PURPOSE: The epidural space is a frequent site of cancer recurrence after spine stereotactic radiosurgery (SSRS). This may be due to microscopic disease in the epidural space which is underdosed to obey strict spinal cord dose constraints. We hypothesized that the epidural space could be purposefully irradiated to prescription dose levels, potentially reducing the risk of recurrence in the epidural space without increasing toxicity. METHODS AND MATERIALS: SSRS clinical treatment plans with spinal cord contours, spinal planning target volumes (PTVspine), and delivered dose distributions were retrospectively identified. An epidural space PTV (PTVepidural) was contoured to avoid the spinal cord and focus on regions near the PTVspine. Clinical plan constraints included PTVspine constraints (D95% and D5%, based on prescription dose) and spinal cord constraints (Dmax < 1300 cGy, D10% < 1000 cGy). Plans were revised with three prescriptions of 1800, 2000 and 2400 cGy in two sets, with one set of revisions (supplemented plans) designed to additionally target the PTVepidural by optimizing PTVepidural D95% in addition to meeting every clinical plan constraint. Clinical and revised plans were compared according to their PTVepidural DVH distributions, and D95% distributions. RESULTS: Seventeen SSRS plans meeting the above criteria were identified. Supplemented plans had higher doses to the epidural low-dose regions at all prescription levels. Epidural PTV D95% values for the supplemented plans were all statistically significantly different from the values of the base plans (p < 10-4). The epidural PTV D95% increases depended on the initial prescription, increasing from 11.52 to 16.90 Gy, 12.23 to 18.85 Gy, and 13.87 to 19.54 Gy for target prescriptions of 1800, 2000 and 2400 cGy, respectively. CONCLUSIONS: Purposefully targeting the epidural space in SSRS may increase control in the epidural space without significantly increasing the risk of spinal cord toxicity. A clinical trial of this approach should be considered.

Duke Scholars

Published In

J Radiosurg SBRT

EISSN

2156-4647

Publication Date

2022

Volume

8

Issue

1

Start / End Page

21 / 26

Location

United States
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Jensen, P. J., Torok, J. A., Goodwin, C. R., Floyd, S. R., Wu, Q., Wu, Q. J., & Kirkpatrick, J. P. (2022). Purposeful irradiation of the epidural space to enhance local control without compromising cord sparing in spine radiosurgery†. J Radiosurg SBRT, 8(1), 21–26.
Jensen, P James, Jordan A. Torok, C Rory Goodwin, Scott R. Floyd, Qiuwen Wu, Q Jackie Wu, and John P. Kirkpatrick. “Purposeful irradiation of the epidural space to enhance local control without compromising cord sparing in spine radiosurgery†.J Radiosurg SBRT 8, no. 1 (2022): 21–26.
Jensen PJ, Torok JA, Goodwin CR, Floyd SR, Wu Q, Wu QJ, et al. Purposeful irradiation of the epidural space to enhance local control without compromising cord sparing in spine radiosurgery†. J Radiosurg SBRT. 2022;8(1):21–6.
Jensen PJ, Torok JA, Goodwin CR, Floyd SR, Wu Q, Wu QJ, Kirkpatrick JP. Purposeful irradiation of the epidural space to enhance local control without compromising cord sparing in spine radiosurgery†. J Radiosurg SBRT. 2022;8(1):21–26.

Published In

J Radiosurg SBRT

EISSN

2156-4647

Publication Date

2022

Volume

8

Issue

1

Start / End Page

21 / 26

Location

United States