PURPOSE: To assess the recovery from early local pulmonary injury after irradiation and to determine whether regional differences exist. METHODS: For 110 patients treated for breast cancer or malignant lymphoma, single photon emission computed tomography (SPECT) perfusion and ventilation scans and CT scans were made before, 3, 18, and 48 months after radiotherapy. Dose-effect relations for changes in local perfusion, ventilation, and density were determined for each individual patient using spatially correlated SPECT and CT data sets, for each follow-up period. Average dose-effect relations for both subgroups were determined, as well as dose-effect relations for different regions. RESULTS: In general, partial improvement of local pulmonary injury was observed between 3 and 18 months for each of the three endpoints. After 18 months, no further improvement was seen. Patients with breast cancer and malignant lymphoma showed a similar improvement (except for the perfusion parameter), which was attributed to a recovery from the early radiation response and could not be explained by contraction effects of fibrosis of lung parenchyma. No regional differences in radiosensitivity 18 months after treatment were observed, except for the dorsal versus ventral region. This difference was attributed to a gravity-related effect in the measuring procedure. CONCLUSION: For all patients, a partial recovery from early local perfusion, ventilation, and density changes, was seen between 3 and 18 months after radiotherapy. After 18 months, local lung function did not further improve (lymphoma patients).
PURPOSE: To assess the recovery from early local pulmonary injury after irradiation and to determine whether regional differences exist. METHODS: For 110 patients treated for breast cancer or malignant lymphoma, single photon emission computed tomography (SPECT) perfusion and ventilation scans and CT scans were made before, 3, 18, and 48 months after radiotherapy. Dose-effect relations for changes in local perfusion, ventilation, and density were determined for each individual patient using spatially correlated SPECT and CT data sets, for each follow-up period. Average dose-effect relations for both subgroups were determined, as well as dose-effect relations for different regions. RESULTS: In general, partial improvement of local pulmonary injury was observed between 3 and 18 months for each of the three endpoints. After 18 months, no further improvement was seen. Patients with breast cancer and malignant lymphoma showed a similar improvement (except for the perfusion parameter), which was attributed to a recovery from the early radiation response and could not be explained by contraction effects of fibrosis of lung parenchyma. No regional differences in radiosensitivity 18 months after treatment were observed, except for the dorsal versus ventral region. This difference was attributed to a gravity-related effect in the measuring procedure. CONCLUSION: For all patients, a partial recovery from early local perfusion, ventilation, and density changes, was seen between 3 and 18 months after radiotherapy. After 18 months, local lung function did not further improve (lymphomapatients).
Authors: Mohamad B Dabjan; Carolyn Ms Buck; Isabel L Jackson; Zeljko Vujaskovic; Brian Marples; Julian D Down Journal: Lab Invest Date: 2016-08-01 Impact factor: 5.662
Authors: Mike E Robbins; Judy K Brunso-Bechtold; Ann M Peiffer; Christina I Tsien; Janet E Bailey; Lawrence B Marks Journal: Radiat Res Date: 2012-02-21 Impact factor: 2.841
Authors: Adam L Liss; Robin B Marsh; Nirav S Kapadia; Daniel L McShan; Virginia E Rogers; James M Balter; Jean M Moran; Kristy K Brock; Matt J Schipper; Reshma Jagsi; Kent A Griffith; Kevin R Flaherty; Kirk A Frey; Lori J Pierce Journal: Int J Radiat Oncol Biol Phys Date: 2016-10-19 Impact factor: 7.038
Authors: Yevgeniy Vinogradskiy; Austin Faught; Richard Castillo; Edward Castillo; Thomas Guerrero; Moyed Miften; Arthur K Liu Journal: J Appl Clin Med Phys Date: 2018-06-26 Impact factor: 2.102