The effects of androgen deprivation therapy and radiation therapy on cancer-related fatigue.

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10 Background: Fatigue is a common symptom characterized by incapacitating tiredness. Androgen deprivation therapy (ADT) in combination with radiotherapy (RT) is one of the standard treatments for prostate cancer. Fatigue often worsens during RT with concomitant ADT and it persists long after treatment completion. The purpose of this study is to examine the effects of combined ADT and RT on fatigue in prostate cancer men and in a fatigue mouse model. Methods: 64 participants were recruited and followed at baseline, midpoint, completion, and 1 year post-RT. Two cohorts of men: +ADT cotinued after RT (n=27), +ADT during RT only (n=20), and -ADT (n=17). Fatigue was measured using FACT-F. Male C57BI/6 mice (n=55) were randomly placed into 2 groups: +ADT and –ADT (control). Mice were further subdivided into +RT and –RT (sham) groups. Voluntary Wheel Running Activity (VWRA) data from all mice were recorded for 6 days post-irradiation and the total average of all 6 days was used for analysis. Results: Fatigue (n=64) worsened during RT ( p=.02 at midpoint, p=.04 at completion). ADT significantly affected fatigue development over time (F3,42 = 3.80, p=.02) with the most significant difference occurring at midpoint ( p<.001) and completion of RT ( p<0.001). VWRA significantly decreased in mice that received the combination of ADT and irradiation, compared to those that received only ADT + sham radiation ( p=.001) and no ADT + sham radiation ( p=.004). Transcription factor A, mitochondrial (TFAM) in brain cortical samples was significantly reduced in irradiated mice compared to control mice ( p=.014). Glucose transported type 4 (GLUT4) in brain cortices was significantly reduced in irradiated mice compared to non-irradiated mice ( p=.0057). GLUT4 was also significantly reduced in irradiated mice receiving ADT compared to control mice receiving sham RT ( p=.043). Conclusions: There is a significant combined effect of ADT and RT on fatigue in both humans and mice. Mitochondrial function/neuronal bioenergetic markers were altered in the cortices of irradiated mice that received concomitant ADT. These findings suggest that fatigue experienced by subjects who receive ADT + RT could be attributable to impaired cortical energy production.