OBJECTIVE: Interest in low-dose radiotherapy (LD-RT) for the symptomatic treatment of nonmalignant conditions, including inflammatory and degenerative disorders of the joints and para-articular soft tissues, has increased substantially in recent years. In the present document, we provide a CT-based contouring atlas to help identify and delineate the most common osteoarticular regions susceptible to LD-RT. METHODS: The clinical efficacy of LD-RT is supported by a large body of evidence. However, there is no consensus on the parameters for contouring the planning target volume (PTV). Moreover, 3D simulation and planning should be the standard of care even for nonmalignant disorders. For this reason, the present guidelines were prepared to help guide PTV contouring based on CT images, with the same quality criteria for patient immobilization, treatment simulation, planning and delivery as those routinely applied for cancer radiotherapy. RESULTS: PTV for radiotherapy requires precise identification of the target areas based on CT and other imaging techniques. Using a series of cases treated at our institution, we have defined the PTVs for each location on the simulation CT to establish the relationship between the image and the anatomical structures to be treated. We also specify the immobilization systems used to ensure treatment accuracy and reproducibility. CONCLUSIONS: This comprehensive atlas based on CT images may be of value to radiation oncologists who wish to use LD-RT for the symptomatic treatment of degenerative or inflammatory osteoarticular diseases. ADVANCES IN KNOWLEDGE: The recommendations and contouring atlas described in this article provide an eminently practical tool for LD-RT in non-malignant conditions, based on the same quality criteria recommended for all modern radiotherapy treatments in Spain.
OBJECTIVE: Interest in low-dose radiotherapy (LD-RT) for the symptomatic treatment of nonmalignant conditions, including inflammatory and degenerative disorders of the joints and para-articular soft tissues, has increased substantially in recent years. In the present document, we provide a CT-based contouring atlas to help identify and delineate the most common osteoarticular regions susceptible to LD-RT. METHODS: The clinical efficacy of LD-RT is supported by a large body of evidence. However, there is no consensus on the parameters for contouring the planning target volume (PTV). Moreover, 3D simulation and planning should be the standard of care even for nonmalignant disorders. For this reason, the present guidelines were prepared to help guide PTV contouring based on CT images, with the same quality criteria for patient immobilization, treatment simulation, planning and delivery as those routinely applied for cancer radiotherapy. RESULTS: PTV for radiotherapy requires precise identification of the target areas based on CT and other imaging techniques. Using a series of cases treated at our institution, we have defined the PTVs for each location on the simulation CT to establish the relationship between the image and the anatomical structures to be treated. We also specify the immobilization systems used to ensure treatment accuracy and reproducibility. CONCLUSIONS: This comprehensive atlas based on CT images may be of value to radiation oncologists who wish to use LD-RT for the symptomatic treatment of degenerative or inflammatory osteoarticular diseases. ADVANCES IN KNOWLEDGE: The recommendations and contouring atlas described in this article provide an eminently practical tool for LD-RT in non-malignant conditions, based on the same quality criteria recommended for all modern radiotherapy treatments in Spain.
Authors: M Heinrich Seegenschmiedt; Oliver Micke; Marcus Niewald; Ralph Mücke; Hans Theodor Eich; Jan Kriz; Reinhard Heyd Journal: Strahlenther Onkol Date: 2015-03-10 Impact factor: 3.621
Authors: Oliver J Ott; Oliver Micke; Ralph Mücke; Marcus Niewald; Franz Rödel; Ulrich Schäfer; M H Seegenschmiedt; Meritxell Arenas; Benjamin Frey; Udo S Gaipl Journal: Strahlenther Onkol Date: 2018-12-18 Impact factor: 3.621
Authors: Oliver J Ott; Marcus Niewald; Hajo-Dirk Weitmann; Ingrid Jacob; Irenaeus A Adamietz; Ulrich Schaefer; Ludwig Keilholz; Reinhard Heyd; Ralph Muecke Journal: Strahlenther Onkol Date: 2014-09-20 Impact factor: 3.621
Authors: Ralph Mücke; M Heinrich Seegenschmiedt; Reinhard Heyd; Ulrich Schäfer; Franz-Josef Prott; Michael Glatzel; Oliver Micke Journal: Strahlenther Onkol Date: 2009-12-28 Impact factor: 3.621
Authors: Ralph Muecke; Oliver Micke; Berthold Reichl; Rainer Heyder; Franz-Josef Prott; M Heinrich Seegenschmiedt; Michael Glatzel; Oliver Schneider; Ulrich Schäfer; Guenther Kundt Journal: Acta Oncol Date: 2007 Impact factor: 4.089
Authors: Elien A M Mahler; Michiel Jm Minten; Mathilde M Leseman-Hoogenboom; Philip M P Poortmans; Jan Willem H Leer; Simone S Boks; Frank H J van den Hoogen; Alfons A den Broeder; Cornelia H M van den Ende Journal: Ann Rheum Dis Date: 2018-10-26 Impact factor: 19.103