Sleep, fatigue, depression, and circadian activity rhythms in women with breast cancer before and after treatment: a 1-year longitudinal study

Abstract

Purpose: Sleep disturbance, fatigue and depression are common complaints in patients with cancer, and often contribute to worse quality of life (QoL). Circadian activity rhythms (CARs) are often disrupted in cancer patients. These symptoms worsen during treatment, but less is known about their long-term trajectory.

Methods: Sixty-eight women with stage I-III breast cancer (BC) scheduled to receive ≥4 cycles of chemotherapy, and age-, ethnicity-, and education-matched normal, cancer-free controls (NC) participated. Sleep was measured with actigraphy (nocturnal total sleep time [nocturnal TST] and daytime total nap time [NAPTIME]) and with the Pittsburgh Sleep Quality Index (PSQI); fatigue with the Multidimensional Fatigue Symptom Inventory-Short Form (MFSI-SF); depression with the Center of Epidemiological Studies-Depression (CES-D). CARs were derived from actigraphy. Several measures of QoL were administered. Data were collected at three time points: before (baseline), end of cycle 4 (cycle 4), and 1 year post-chemotherapy (1 year).

Results: Compared to NC, BC had longer NAPTIME, worse sleep quality, more fatigue, more depressive symptoms, more disrupted CARs, and worse QoL at baseline (all p values <0.05). At cycle 4, BC showed worse sleep, increased fatigue, more depressive symptoms, and more disrupted CARs compared to their own baseline levels and to NC (all p values <0.05). By 1 year, BC's fatigue, depressive symptoms, and QoL returned to baseline levels but were still worse than those of NC, while NAPTIME and CARs did not differ from NC's.

Conclusion: Additional research is needed to determine if beginning treatment of these symptoms before the start of chemotherapy will minimize symptom severity over time.

Conflict of interest statement

Conflict of Interest: The study was funded by NIH. The corresponding author has full control of all primary data and agrees to allow the Journal to review the data if requested.

Figures

Fig. 1

Screening and Enrollment Flowchart

Fig. 2. Sleep, Fatigue and Depressive symptoms

(mean+SE). BC= breast cancer patients, NC= cancer-free controls. Baseline = before the start of chemotherapy, Cycle-4 = at the end of cycle 4 chemotherapy, 1-Year = 1 year after the start of chemotherapy. Age and BMI were adjusted in the mixed model. Fig. 2a. PSQI (Pittsburgh Sleep Quality Index, higher score indicates poorer sleep quality): Between groups (group effect p

Fig. 3. Robustness of circadian activity rhythm

(mean+SE, bigger R-squared value indicates more robust rhythm). BC= breast cancer patients, NC= cancer-free controls. Baseline = before the start of chemotherapy, Cycle-4 = at the end of cycle 4 chemotherapy, 1-Year = 1 year after the start of chemotherapy. Age and BMI were adjusted in the mixed model. Between groups (group effect p=0.0039): Baseline p=0.047; Cycle-4 p=0.0001; 1-Year p=0.47. Within BC group (time effect p=0.0014): changes from Baseline to Cycle-4 p=0.014; from Cycle-4 to 1-Year p=0.0004. No significant within-group changes for NC. Group-x-time interaction p=0.042.

Fig. 4. Quality of life

(mean+SE, higher scores indicate better QoL). BC= breast cancer patients, NC= cancer-free controls. Baseline = before the start of chemotherapy, Cycle-4 = at the end of cycle 4 chemotherapy, 1-Year = 1 year after the start of chemotherapy. Age and BMI were adjusted in the mixed model. Fig. 4a: FOSQ (Functional Outcomes of Sleep Questionnaire): Between groups (group effect p