Image Guided Intraoperative Radiation Therapy After Surgical Resection of Brain Metastases: A First In-Human Feasibility Report

Autor: Molina Grimmer, MSc, Gustavo R. Sarria, MD, Motaz Hamed, MD, Mohammed Banat, MD, Fabian Kugel, MSc, Hector Lorenzana, MHA, Davide Scafa, MD, Mümtaz Köksal, MD, Julian P. Layer, MD, Cas Dejonckheere, MD, Martin Fiebich, PhD, Frederic Carsten Schmeel, MD, Ana Kowark, MD, Hartmut Vatter, PhD, Leonard Christopher Schmeel, MD, Stephan Garbe, PhD
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Advances in Radiation Oncology, Vol 9, Iss 5, Pp 101466- (2024)
Druh dokumentu: article
ISSN: 2452-1094
DOI: 10.1016/j.adro.2024.101466
Popis: Purpose: A correct placement of the applicator during intraoperative radiation therapy for brain metastasis is of paramount importance, to deliver a precise and safe treatment. The applicator-to-surface contact assessment cannot be performed under direct observation because the applicator itself limits the visual range. No image guided verification is currently performed intracranially. We hypothesize that image guided intraoperative radiation therapy would assure a more precise delivery in the target area. We describe our workflow in a first in-human experience. Methods and Materials: Phantom-based measurements were performed to reach the best cone beam computed tomography imaging quality possible. Once defined, a clinical feasibility study was initiated. An in-room cone beam computed tomography device is used to acquire intraoperative images after placing the applicator. Repositioning the applicator is thereafter discussed with the surgeon, according to the imaging outcomes, if required. Results: An optimal image quality was achieved with 120-kV voltage, 20-mA current, and a tube current time product of 150 mAs. An additional 0.51 mSv patient exposure was calculated for the entire procedure. The wide dynamic range (−600 HU to +600 HU) of cone beam computed tomography and a 27 HU mean computed tomography values difference between brain tissue and spherical applicator allows distinguishing both structures. In this first in-human experience, the applicator was repositioned after evidencing air gaps, assuring full applicator-to-surface contact. Conclusions: This first in-human procedure confirmed the feasibility of kilovoltage image guided intraoperative radiation therapy in a neurosurgical setting. A prospective study has been initiated and will provide further dosimetric details.
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