Characterization of an Iodinated Rectal Spacer for Prostate Photon and Proton Radiation Therapy

Sophia C Kamran; David M McClatchy 3rd; Jennifer Pursley; Alexei V Trofimov; Kyla Remillard; Anurag Saraf; Anushka Ghosh; Ashraf Thabet; Patrick Sutphin; David T Miyamoto; Jason A Efstathiou

doi:10.1016/j.prro.2021.09.009

Characterization of an Iodinated Rectal Spacer for Prostate Photon and Proton Radiation Therapy

Pract Radiat Oncol. 2022 Mar-Apr;12(2):135-144. doi: 10.1016/j.prro.2021.09.009. Epub 2021 Oct 5.

Affiliations

¹ Department of Radiation Oncology. Electronic address: skamran@mgh.harvard.edu.
² Department of Radiation Oncology.
³ Department of Radiation Oncology; Harvard Radiation Oncology Program.
⁴ Department of Interventional Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts.

PMID: 34619374
DOI: 10.1016/j.prro.2021.09.009

Abstract

Purpose: Conventional rectal spacers (nonI-SPs) are low-contrast on computed tomography (CT), often necessitating magnetic resonance imaging for accurate delineation. A new formulation of spacers (I-SPs) incorporates iodine to improve radiopacity and CT visualization. We characterized placement, stability, and plan quality of I-SPs compared to nonI-SPs.

Methods and materials: Patients with intact prostate cancer (n = 50) treated with I-SPs and photons were compared to randomly selected patients (n = 50) with nonI-SPs (photon or proton therapy). The I-SP was contoured on the planning CT and cone beam CTs at 3 timepoints: first, middle, and final treatment (n = 200 scans). I-SPs Hounsfield units (HU), volume, surface area (SA), centroid position relative to prostate centroid, and distance between prostate/rectum centroids were compared on the planning CTs between each cohort. I-SP changes were evaluated on cone beam CTs over courses of treatment. Dosimetric evaluations of plan quality and robustness were performed. I-SP was tested in a phantom to characterize its relative linear stopping power for protons.

Results: I-SPs yielded a distinct visible contrast on planning CTs compared to nonI-SPs (HU 138 vs 12, P < .001), allowing delineation on CT alone. The delineated volume and SA of I-SPs were smaller than nonI-SPs (volume 8.9 vs 10.6 mL, P < .001; SA 28 vs 35 cm², P < .001), yet relative spacer position and prostate-rectal separation were similar (P = .79). No significant change in HU, volume, SA, or relative position of the I-SPs hydrogel occurred over courses of treatment (all P > .1). Dosimetric analysis concluded there were no significant changes in plan quality or robustness for I-SPs compared to nonI-SPs. The I-SP relative linear stopping power was 1.018, necessitating HU override for proton planning.

Conclusions: I-SPs provide a manifest CT contrast, allowing for delineation on planning CT alone with no magnetic resonance imaging necessary. I-SPs radiopacity, size, and relative position remained stable over courses of treatment from 28 to 44 fractions. No changes in plan quality or robustness were seen comparing I-SPs and nonI-SPs.

MeSH terms

Humans
Male
Photons / therapeutic use
Prostate / diagnostic imaging
Prostate / pathology
Prostatic Neoplasms* / diagnostic imaging
Prostatic Neoplasms* / pathology
Prostatic Neoplasms* / radiotherapy
Proton Therapy*
Protons
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted / methods
Rectum / diagnostic imaging
Rectum / pathology

Substances

Protons