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3D-Printed Headrest for Frameless Gamma Knife Radiosurgery: Design and Validation

G Baltz*, T Briere, D Luo, R Howell, S Krafft, E Han, MD Anderson Cancer Ctr., Houston, TX

Presentations

(Sunday, 7/12/2020)   [Eastern Time (GMT-4)]

Room: AAPM ePoster Library

Purpose: Frameless Gamma Knife stereotactic radiosurgery (SRS) uses a moldable headrest with a thermoplastic mask for patient immobilization. An efficacious headrest is time consuming and difficult to fabricate due to the expertise required to mold the headrest within machine geometrical limitations. The purpose of this study was to design and validate a 3D-printed headrest for frameless Gamma Knife SRS that can overcome these difficulties.
Methods and Materials: A headrest 3D model designed to fit within the frameless adapter was 3D-printed. Dosimetric properties of the 3D-printed headrest and a standard-of-care moldable headrest were compared by delivering a Gamma Knife treatment to an anthropomorphic head phantom fitted with an ionization chamber and radiochromic film. Ionization measurements were compared to assess headrest attenuation and a gamma index was calculated to compare the film dose distributions. A volunteer study was conducted to assess the immobilization efficacy of the 3D-printed headrest compared to a personalized moldable headrest. Five volunteers had their head motion tracked by a surface tracking system while immobilized in each headrest for 20 minutes. The recorded motion data was used to calculate the average volunteer movement and a paired t-test was performed.
Results: The ionization chamber readings were within 0.55% for the 3D-printed and moldable headrests, and the calculated gamma index showed 98.6% of points within dose difference of 2% and 2 mm distance to agreement for the film measurement. These results demonstrate the headrests were dosimetrically equivalent within the experimental uncertainties. Average motion (± standard deviation) of the volunteers while immobilized was 1.41 ± 0.43 mm and 1.36 ± 0.51 mm for the 3D-printed and moldable headrests, respectively. The average observed volunteer motion between headrests was not statistically different, based on a p-value of 0.466.
Conclusions: We designed and validated a 3D-printed headrest for immobilizing patients undergoing frameless Gamma Knife SRS.

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Keywords

3D, Gamma Knife, Immobilization

Taxonomy

TH- External Beam- Photons: gammaknife

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