S Malone1, J M Crook, W S Kendal, J Szanto. 1. Department of Radiation Oncology, Ottawa Regional Cancer Centre, Ontario, Ottawa, Canada. smalone@cancercare.on.ca
Abstract
PURPOSE: The precise localization of the prostate is critical for dose-escalated conformal radiotherapy. This study identifies and characterizes a potential cause of inaccurate prostatic localization-respiratory-induced movement. METHODS AND MATERIALS: Prostate movement during respiration was measured fluoroscopically using implanted gold fiducial markers. Twenty sequential patients with CT(1)-T(3) N(0) M(0) prostate carcinoma were evaluated prone, immobilized in customized thermoplastic shells. A second 20 patients were evaluated both prone (with and without their thermoplastic shells) and supine (without their shells). RESULTS: When the patients were immobilized prone in thermoplastic shells, the prostate moved synchronously with respiration. In the study the prostate was displaced a mean distance of 3.3 +/- 1.8 (SD) mm (range, 1-10.2 mm), with 23% (9/40) of the displacements being 4 mm or greater. The respiratory-associated prostate movement decreased significantly when the thermoplastic shells were removed. CONCLUSION: Significant prostate movement can be induced by respiration when patients are immobilized in thermoplastic shells. This movement presumably is related to transmitted intraabdominal pressure within the confined space of the shells. Careful attention to the details of immobilization and to the possibility of respiratory-induced prostate movements is important when employing small field margins in prostatic radiotherapy.
PURPOSE: The precise localization of the prostate is critical for dose-escalated conformal radiotherapy. This study identifies and characterizes a potential cause of inaccurate prostatic localization-respiratory-induced movement. METHODS AND MATERIALS: Prostate movement during respiration was measured fluoroscopically using implanted gold fiducial markers. Twenty sequential patients with CT(1)-T(3) N(0) M(0) prostate carcinoma were evaluated prone, immobilized in customized thermoplastic shells. A second 20 patients were evaluated both prone (with and without their thermoplastic shells) and supine (without their shells). RESULTS: When the patients were immobilized prone in thermoplastic shells, the prostate moved synchronously with respiration. In the study the prostate was displaced a mean distance of 3.3 +/- 1.8 (SD) mm (range, 1-10.2 mm), with 23% (9/40) of the displacements being 4 mm or greater. The respiratory-associated prostate movement decreased significantly when the thermoplastic shells were removed. CONCLUSION: Significant prostate movement can be induced by respiration when patients are immobilized in thermoplastic shells. This movement presumably is related to transmitted intraabdominal pressure within the confined space of the shells. Careful attention to the details of immobilization and to the possibility of respiratory-induced prostate movements is important when employing small field margins in prostatic radiotherapy.
Authors: Alan Pollack; Alex Hanlon; Eric M Horwitz; Steven Feigenberg; Robert G Uzzo; Robert A Price Journal: World J Urol Date: 2003-09-05 Impact factor: 4.226
Authors: Maria Antico; Peter Prinsen; Francesco Cellini; Alice Fracassi; Alfonso A Isola; David Cobben; Davide Fontanarosa Journal: PLoS One Date: 2019-02-28 Impact factor: 3.240
Authors: M Roch; A Zapatero; P Castro; D Büchser; L Pérez; D Hernández; C Ansón; M Chevalier; F García-Vicente Journal: Clin Transl Oncol Date: 2018-10-17 Impact factor: 3.405
Authors: Sheng Xu; Jochen Kruecker; Baris Turkbey; Neil Glossop; Anurag K Singh; Peter Choyke; Peter Pinto; Bradford J Wood Journal: Comput Aided Surg Date: 2008-09