Poor sleep and multiple sclerosis: associations with symptoms of multiple sclerosis and quality of life

Introduction

Poor sleep quality is common in people with multiple sclerosis (PwMS) (up to 67%1—more common than in the general community (33%–45%)).2 It is associated with lower health-related quality of life (HRQoL),3 and higher mortality in the community.4 Risk factors for poor sleep in PwMS include disease duration5, disability,6 and MS symptoms, for example, fatigue, cognitive dysfunction, depression and anxiety.7 However, whether poor sleep remains associated with reduced HRQoL after considering MS symptoms remains unclear. As sleep quality is modifiable, improving sleep quality may result in clinically meaningful improvements in health outcomes.

This study (1) assessed whether sleep difficulties are prevalent and more common in PwMS than the general population, (2) examined how sleep related to 13 common MS symptoms and (3) determined whether sleep quality is associated with HRQoL.

MethodsStudy samples

We used two surveys (2020) (total response rate 56%) from the Australian MS Longitudinal Study (AMSLS), a large representative cohort of Australians with MS.8 AMSLS was approved by the Tasmanian Health and Medical Human Research Ethics Committee (14183). All participants provided written informed consent.

Data from MAILES,9 an Australian community cohort of older men (n=826); and LIFE, a population–based German cohort of men (n=4420) and women (n=4864)10 were used as comparators.

MeasurementsPittsburgh Sleep Quality Index

Sleep quality over the last month was assessed using the Pittsburgh Sleep Quality Index (PSQI)11 (range 0–21).

Epworth Sleepiness Scale

The ESS assessed level of daytime sleepiness across everyday situations,12 scored on a 0–3 rating scale (range 0–24).

Restless Legs Rating Scale

The International Restless Legs Study Group Rating Scale13 (here, ‘Restless Legs Rating Scale’) assessed severity of restless legs symptoms and impact on sleep in the past week, on a 5-point scale (range 0–40).

MS Symptom Scores

Symptom severity over the previous 4 weeks (vs before they developed MS) of 13 common MS symptoms was assessed using MS Symptom Score (MSSymS),14 using a 0 (no problem) to 10 (worst possible symptom) Numeric Rating Scale (figure 1).

Figure 1Figure 1Figure 1

Dendrogram of hierarchical cluster analysis of how MS symptoms group together. Dendrogram presents information on how MS symptoms group together at various levels of similarity. On the left of the dendrogram, each symptom is considered as its own cluster. Horizontal lines extend up for each symptom and at various (dis) similarity values, these lines intersect with lines from other symptoms to form one line. Lines of symptoms continue to combine until all symptoms group together at the right of the dendrogram. Symptoms whose lines intersect towards the left of the figure are more closely related than those whose lines intersect further to the right. MS, multiple sclerosis.

Assessment of quality of life

The Assessment of Quality of Life (AQoL-8D) is a comprehensive multiattribute utility instrument, which captures and assesses HRQoL, allowing billions of health states (2.4×1023).15 Range is 0–1, where ‘0’ is the anchor point for death and ‘1’ is perfect health.15 The minimum clinically important difference (MCID) for the AQoL-4D is 0.06 utility points (95% CI 0.03 to 0.08).16

Sleep interference

Participants were asked ‘How often do sleep problems interfere with activities of daily living (ADLs)?’ and ‘how often do your sleep problems interfere with social functioning’?, scored on a 0–3 scale, with options ‘not during the past month’, ‘less than once a week’, ‘once or twice a week’ and ‘three or more times a week’.

Insomnia symptoms

Difficulty falling asleep, staying asleep, waking up too early and not being able to go back to sleep due to symptoms related to: (1) restless legs, (2) pain, (3) sensitivity to temperature, (4) needing to go to the toilet and (5) anxiety/stress or low mood were assessed. Responses were scored as for sleep interference.

Clinical and demographic measures

MS disability was measured by the Patient Determined Disease Steps scale17 (range 0 (normal)–8 (bedridden)). Education level, MS type, height and weight were self-reported.

Statistical analysis

Data were analysed using STATA V.17, with p≤0.05 considered statistically significant. Differences between good and poor sleepers and clinical populations were assessed using t-tests and χ2 tests (online supplemental tables 1, 4 and 5). Effect sizes were estimated using Cohen’s d18 (online supplemental table 5).

Hierarchical cluster analysis was used to assess whether and how the measures of sleep quality clustered with other MSSymS.19 We omitted individual sleep components and reran models as sensitivity analyses.

Associations between PSQI global score and AQoL-8D health utility score were assessed using linear regression and automatically back-transformed using ‘linreg’, a user-defined STATA command. Final multivariate models were selected using backwards selection to remove components until all remaining terms were statistically significant (p≤0.05). Retained symptoms from the first model and sleep-related measures from the second model were included in models 3 and 4. Coefficients have been multiplied by 100 for consistency with other AMSLS publications.20

Models were adjusted for confounders where appropriate. Regression diagnostics were run to ensure assumptions for linear regression were met.

ResultsNon-response bias analyses

Participants who completed both surveys were slightly older (+2.3 years; p<0.05) and had a slightly longer MS duration (+1.2 years; p<0.01). Thus, differences are unlikely to be clinically meaningful. There were no differences in sex or educational attainment.

Characterising sleep difficulties in the AMSLS cohort

Poor sleep quality (PSQI>5) (68%), abnormal levels of daytime sleepiness (Epworth Sleepiness Scale, ESS ≥11, 21%) and symptoms of restless legs (45%), difficulty falling asleep, staying asleep or inability to get back to sleep at ≥3 times weekly, sleep problems interfering with self-reported ADLs (16%) and social functioning (25%) at least weekly were common (online supplemental table 2). Sleep interference was more common in people with poor sleep quality than those with good sleep quality (38% (vs 8%) for ADLs and 33% (vs 6%) for social functioning). All assessments of sleep difficulties listed in online supplemental table 2 were more common in people with poor sleep quality by the PSQI (data not shown).

Relationship between sleep problems and common MS symptoms

Sleep problems did not cluster with other MS symptoms. Rather, all sleep problems clustered independently (figure 1). These results persisted when repeated without the ESS.

Factors associated with poor sleep quality

Being younger, overweight or obese, having a recent MS relapse, higher disability levels and three symptom clusters (‘pain and sensory’, ‘feelings of anxiety and depression’ and ‘fatigue and cognition’) were independently associated with poorer sleep quality in multivariate analyses (online supplemental table 3). Having a university education (vs primary/secondary school education only) was associated with lower PSQI scores (online supplemental table 3).

Association between sleep problems and HRQoL

AQoL utility scores were 0.19 units lower in people with poor sleep (PSQI>5, mean 0.57, SD 0.2) compared with those with good sleep (PSQI≤5, mean 0.76, SD 0.18), p<0.001; double the upper limit of the MCID (0.08). Each unit increase in PSQI was associated with 0.019 reduction in AQoL-8D utility scores after adjustment for sleepiness (ESS) and restless legs (table 1, model 2), reducing to 0.0108 after further adjustment for symptoms and body mass index (BMI) (table 1, model 4).

Table 1

Assessment whether sleep-related measures were associated with health-related quality of life (measured with the overall AQoL-8D utility score), independent of other factors

All three sleep-related measures remained independently associated with AQoL-8D after taking other MS symptoms and BMI into account (table 1, model 4), with increased R2 values when including sleep and symptoms (Table 1).

Discussion

Poor sleep is very common in Australians living with MS (68%), and significantly more common than comparable population samples. Sleep did not cluster with recognised MS symptoms. Sleep-related variables were strongly, meaningfully and independently associated with poorer AQoL-8D utility scores. Therefore, poor sleep is associated with a substantial reduction in HRQoL independent of other common MS symptoms. Interventions that improve sleep may provide substantial benefits for PwMS.

Symptom clusters ‘feelings of anxiety and depression’, ‘pain and sensory’ and ‘fatigue and cognition’ were most strongly and independently associated with sleep quality, with modest effect sizes. Sleep complaints and depression/mood disorders21 are bidirectional longitudinally, and sleep complaints may be prodromal to mood disorders,22 not just the reverse. Pain, fatigue and poor cognition can be temporally associated with each other in real time on the same day, but not across days.23

Participants with poor sleep had average AQoL-8D utility scores 0.19 units lower than those with good sleep. Similarly, after accounting for other factors, every unit increase in PSQI was associated with a 0.0108-unit reductions in HRQoL, explaining up to 63.8% of variance in the overall AQoL-8D utility score.

Strengths include the large, representative8 national sample of PwMS and well-validated measures of correlates of HRQoL. Limitations include no objective measures of sleep, for example, polysomnography. Using wearables, for example, actigraphs24 would add complementary information to sleep quality. Lastly, causal inferences about associations cannot be made from cross-sectional studies.

Sleep has a substantial impact on HRQoL, which warrants development of interventions to improve sleep. Interventions must include strategies to manage MS symptoms, sleep complaints and symptom-independent mechanisms of poor sleep. Further work will aid management of poor sleep and development of sleep interventions, including qualitative research, real-time symptom assessments using Apps and wearables, impact of medication use (including disease modifying therapies), and longitudinal studies examining factors associated with change in sleep.

Conclusion

Poor sleep quality did not cluster with common MS symptoms; and was strongly associated with HRQoL, independent of other symptoms. Improving sleep quality and reducing symptom severity may substantially improve HRQoL in PwMS.

Ethics statementsPatient consent for publicationEthics approval

This study involves human participants and was approved by Tasmanian Health and Medical Human Research Ethics Committee (reference number 14183). Participants gave informed consent to participate in the study before taking part.

Acknowledgments

We thank Ms Carol Hurst and Dr Kirsty Hawkes for their expertise and attention to detail in collecting and cleaning the data for the MS Nurses and Sleep Study. We sincerely thank all participants of the Australian MS Longitudinal Study for their ongoing support and willingness to complete surveys.

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