key: cord-0954964-cfn5t1dt authors: Declerck, Louise; Loiselet, Céline; Kaux, Jean-François; Lejeune, Thierry; Vanderthommen, Marc; Stoquart, Gaëtan title: Effect of the COVID-19 pandemic lockdown on physical activity of individuals with a spinal cord injury in Belgium: observational study date: 2022-02-28 journal: Ann Phys Rehabil Med DOI: 10.1016/j.rehab.2022.101649 sha: 10794a25cb46d5f92fdd9342ee65d5504fd93b12 doc_id: 954964 cord_uid: cfn5t1dt nan (QoL) [2] . It also prevents the risk of developing secondary complications [2] . Unfortunately, individuals with PD, such as wheelchair users, tend to adopt physically inactive lifestyles [3] , due in part to lack of easily accessible PA opportunities [4] . This access to PA was further complicated during the COVID-19 pandemic: admittance to PAfacilitating environments was constrained worldwide. In Belgium specifically, sport facilities were instructed to close from March 12 to June 8, 2020. They were closed once again in the beginning of November 2020 until May 1, 2021 [5] . Prohibiting this access affected PA-related behaviours. A review identified significant decreases in PA levels among adults worldwide due to the pandemic [6] . However, some authors called for nuance: according to their results, individuals who were physically active before the lockdown actually managed to increase their PA level during confinement [7, 8] . Such findings were observed only among healthy individuals, and no study investigated whether this was also the case among individuals with PD. In fact, in general, little research has examined the impact of the pandemic on PA levels of individuals with PD. To our knowledge, only one study looked at the impact of the COVID-19 pandemic on PA levels of individuals with spinal cord injury (SCI) [9] . This gap of knowledge requires remediation. The primary aim of our study was to investigate how the COVID-19 lockdown affected PA levels of 2 groups: active and inactive Belgians with a SCI. The secondary aim was to identify the effect of the lockdown on social participation, QoL, pain and fatigue in the same population. We hypothesized that the lockdown decreased PA level, especially among inactive individuals; decreased social participation and QoL; and increased pain and fatigue. The study's protocol was approved by the local ethics committee (2020/10MAR/149) and was registered at ClinicalTrials.gov (NCT04625309). The STROBE guidelines were followed. The research sample consisted of 18-to 70-year-old community dwellers with SCI who were living in Belgium and used a manual wheelchair. Moreover, the spinal lesion had to have occurred a minimum of 6 months before enrolment. Participants were recruited via a convenience sampling from adaptive sports associations, physiotherapists, physicians, and associations for individuals with PD. The first meeting took place between September and November 2020, before the second lockdown in Belgium. Participants were contacted again during the second lockdown, between February and April 2021, to participate in a second meeting. Both meetings occurred via an online platform. During the first meeting, participants were asked to provide demographic data, including birth year, weight, height, lesion level, time since SCI, and self-reported minutes of PA per week. They also answered medical questions about health problems encountered in the last 6 months and weekly hours of physiotherapy. Finally, they completed the 6 items of the indoor, outdoor and evensurface mobility of the Spinal Cord Independence Measure (SCIM) to obtain a score ranging from 0 (dependent) to 30 (independent). Participants were then asked to complete the following questionnaires in French: the Physical Activity Scale for Individuals with a Physical Disability (PASIPD), a 10-cm visual analog scale (VAS) to rate upper-limb pain, the Reintegration to Normal Living Index (RNLI), the EUROHIS-QOL 8item and the Fatigue Severity Scale (FSS). These questionnaires were completed once more during the second meeting. For analysis, the participants were divided into 2 groups based on the self-reported number of minutes of PA they performed each week before the lockdown. The active group consisted of participants who practiced a minimum of 150 min/week of moderate-intensity PA (intensity 3 to 6 metabolic equivalent of task [MET]) or 75 min/week of vigorous-intensity PA (intensity > 6 MET), therefore meeting the WHO recommendations for PA [1] . The inactive group consisted of individuals who did not meet the recommendations. The data were analysed with SPSS v27. First, the 2 groups were compared for demographic and medical data. The Shapiro-Wilk test was used to test distribution normality. For quantitative variables, normally distributed data are reported as mean (SD) and non-parametric data as median (interquartile range). Nominal and categorical data are reported as number (%). Then, data were analysed by using independent-samples Student t test and Mann-Whitney and chi-squared tests. Second, to evaluate the effect of the lockdown in each group, the questionnaire data before and during the second lockdown were analysed by using the Wilcoxon test for dependent samples. Indeed, the discrete nature of the questionnaire data warranted the use of non-parametric tests. Effect sizes were estimated by the correlation coefficient (r), where ⁄ . According to Cohen's guidelines, the effect size was large with r > 0.5, medium with r = 0.3-0.5, and small with r <0.3 [10] . P<0.05 was considered statistically significant. In total, 34 participants were recruited: 20 in the active group and 14 in the inactive group. All but one participant participated in both meetings. This participant, in the inactive group, did not respond to the call-back for the second meeting. Except for age and proportion of recent health issues, the demographic data were similar in both groups ( [9] . Similarly, other populations of individuals with PD also showed reduced PA level due to the lockdown: adults with Parkinson's disease reduced their total PA level by > 2000 MET min/week [11] and patients with neuromuscular disease reported a decrease of 500 MET min/week [12] . Our findings were further able to identify that PA levels of individuals with SCI who were active before the second lockdown in Belgium were more affected than were levels for individuals who were inactive. To our knowledge, this is the first study to investigate PA levels during the lockdown in a sample of participants with PD. Although these findings agree with Chambonnière et al., who found that active older French adults showed greater decrease in PA during the lockdown than their inactive peers [13] , it contradicts other trials of healthy populations, observing an increase in PA level among active individuals [7, 8] . The different results obtained in the present study could suggest that populations with mobility impairments more strongly depend on PA-facilitating environments to be active. Healthcare professionals should be aware of this situation to contemplate ways to provide PA to their patients with PD during (potential) future lockdowns. Social participation decreased evenly in the active and inactive groups, which confirms the results from a previous study of participants with chronic SCI, showing a significant decrease in the social dimension of the community integration questionnaire [14] . Of note, QoL remained high during the lockdown in both groups. Other trials of individuals with PD also did not find reduced QoL due to the lockdown [14, 15] . In contrast, a review reported a decrease in QoL in healthy adults worldwide, owing to social distancing [16] . This finding indicates that individuals with PD may have had greater resilience to the lockdown. Indeed, past experience with life-altering events possibly enables better coping with the lockdown situation [15] . Finally, upper-limb pain and fatigue were not affected by the lockdown in both groups. Regarding pain, this trial is the first to evaluate this factor among patients with SCI. Miro et al. found increased pain intensity during the late stages of the lockdown among individuals with chronic pain in Spain [17] . However, although pain is the primary symptom of these patients, this is rarely the case for SCI. Therefore, pain measurement in people with SCI may be less subject to variations. Although we found no difference in fatigue with and without activity, other trials of adults with The results should be considered with caution. The restricted sample size, recruitment procedure, and uneven participants in the groups raise issues of external validity. The age gap between the groups, and greater presence of recent medical complications in the less active group potentially affected the results. Moreover, 2 individuals in the less active group practiced lightintensity PA, which may have mitigated the differences between the groups. Lastly, the use of questionnaires raises concerns of social desirability bias. However, such patient-reported outcome measures are validated for research. To conclude, the COVID-19 lockdown significantly decreased PA levels of individuals with SCI in Belgium. The effect size was greater for individuals who were active before the second lockdown in Belgium than their less active peers. Healthcare professionals should take this finding into consideration and monitor PA levels of their patients with PD during future lockdowns. Furthermore, social participation decreased in equal measure for active and less active individuals with SCI. The lockdown did not affect pain, fatigue or QoL in this population. Funding. 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