Ingrid Kristensen , Ulrica Langegård , Thomas Björk-Eriksson , Malin Blomstrand , Patrik Brodin , Per Fransson , Per Munck af Rosenschöld , Fredrik Nordström , Emma Olsson-Nevo , Katarina Sjövall , Karin Ahlberg
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引用次数: 0
Abstract
Background
Fatigue may significantly effect everyday- and working life for radiotherapy patients. Some studies indicate a correlation between radiation dose and irradiated volume of the brain and the presence of fatigue. Our hypothesis was that patient reported outcome measures (PROMs) can improve our understanding of the patients’ symptoms following proton beam therapy (PBT) and optimize PBT for future patients.
Methods
This study included 167 adult patients (>18 years) who received PBT for malignant brain tumours. Data on dose metrics to intra-cranial structures was obtained from PBT treatment plans. To explore fatigue and health related quality of life (HRQoL); Multidimensional Fatigue Inventory (MFI-20) and EORTC QLQ-C30 was used at 6-, 12-, 24- and 36 months post PBT. The correlation between fatigue and dosimetry was explored using Spearman’s signed rank test.
Results
No severe fatigue was recorded during the 36 months follow-up. Correlations between higher radiation dose and worsened fatigue scores were generally weak (rho < 0.3). At 12 months post PBT, higher mean dose to the brain, brainstem, hippocampi and pituitary was correlated to worsened MFI Physical Fatigue. Further, Reduced Motivation according to MFI was correlated to higher radiation dose to the brainstem and the pituitary gland. At 36 months follow-up post-PBT, both Reduced Activity and Reduced motivation according to MFI were correlated to higher radiation dose to the brain, brainstem and hippocampi.
Conclusion
Proton beam therapy are well tolerated, with similar degree of fatigue pre- and post PBT. Achieving further reduction in mean brain dose appears beneficial.
期刊介绍:
Radiotherapy and Oncology publishes papers describing original research as well as review articles. It covers areas of interest relating to radiation oncology. This includes: clinical radiotherapy, combined modality treatment, translational studies, epidemiological outcomes, imaging, dosimetry, and radiation therapy planning, experimental work in radiobiology, chemobiology, hyperthermia and tumour biology, as well as data science in radiation oncology and physics aspects relevant to oncology.Papers on more general aspects of interest to the radiation oncologist including chemotherapy, surgery and immunology are also published.