key: cord-0851922-brle9guh authors: Salfi, Federico; Lauriola, Marco; D’Atri, Aurora; Amicucci, Giulia; Viselli, Lorenzo; Tempesta, Daniela; Ferrara, Michele title: Demographic, psychological, chronobiological, and work-related predictors of sleep disturbances during the COVID-19 lockdown in Italy date: 2021-06-01 journal: Sci Rep DOI: 10.1038/s41598-021-90993-y sha: fe5235471d0a717c4d1bfcc3176819da35f5b663 doc_id: 851922 cord_uid: brle9guh The first COVID-19 contagion wave caused unprecedented restraining measures worldwide. In Italy, a period of generalized lockdown involving home confinement of the entire population was imposed for almost two months (9 March–3 May 2020). The present is the most extensive investigation aimed to unravel the demographic, psychological, chronobiological, and work-related predictors of sleep disturbances throughout the pandemic emergency. A total of 13,989 Italians completed a web-based survey during the confinement period (25 March–3 May). We collected demographic and lockdown-related work changes information, and we evaluated sleep quality, insomnia and depression symptoms, chronotype, perceived stress, and anxiety using validated questionnaires. The majority of the respondents reported a negative impact of confinement on their sleep and a delayed sleep phase. We highlighted an alarming prevalence of sleep disturbances during the lockdown. Main predictors of sleep disturbances identified by regression models were: female gender, advanced age, being a healthcare worker, living in southern Italy, confinement duration, and a higher level of depression, stress, and anxiety. The evening chronotype emerged as a vulnerability factor, while morning-type individuals showed a lower predisposition to sleep and psychological problems. Finally, working from home was associated with less severe sleep disturbances. Besides confirming the role of specific demographic and psychological factors in developing sleep disorders during the COVID-19 pandemic, we propose that circadian typologies could react differently to a particular period of reduced social jetlag. Moreover, our results suggest that working from home could play a protective role against the development of sleep disturbances during the current pandemic emergency. Lockdown-related consequences on sleep and prevalence of sleep disturbances. The majority of respondents reported a negative impact of the restraining measures on their sleep, delayed bedtime and wake-up time, and maintained unchanged nap habits. According to the PSQI and ISI criteria, over six out of ten of the participants were poor sleepers, and 15% of the respondents had symptoms of moderate/severe clinical insomnia ( Table 1 ). Predictors of sleep disturbances. Significant regression equations were found with PSQI and ISI scores as dependent variables (PSQI: R 2 = 0.30, F 17,8552 = 219.07, p < 0.001; ISI: R 2 = 0.35, F 17,9046 = 285.07, p < 0.001). As shown in Table 2 , older age, female gender, healthcare work, living in southern Italy, and confinement duration were associated with highest PSQI and ISI scores. Moreover, lower education predicted poorer sleep quality. Lower scores of MEQr (pointing to evening chronotype), and a higher level of depression, perceived stress, and anxiety predicted poorer sleep quality and more severe insomnia symptoms. Chronotype differences. According to the MEQr criteria, our sample consisted of 3261 MT subjects (21.3%), 9181 NT (65.6%), and 1547 ET (11.1%). Chi-square tests (Table 3 ) showed significant associations of the chronotype group (MT, NT, ET) with the perceived impact of the restraining measures, with the reported changes in bedtime, wake-up time, and nap frequency, and with the prevalence of poor sleepers and clinical insomnia conditions. In particular, a higher proportion of ET subjects reported a negative impact of the restraining measures, delayed bedtime and wake up time, and changes of nap habits. Additionally, the ET group was marked by a higher prevalence of poor sleepers and clinical insomniacs. MT participants showed the opposite pattern of results. As hypothesized, the MEQr scores and the age variable were highly correlated (R = 0.28; p < 0.001), confirming the assumption of using the age as covariate in the subsequent analyses. One-way ANCOVAs carried out on sleep and psychological questionnaires showed a significant effect of the "chronotype" factor (MT, NT, ET) (PSQI: F 13171 = 152.70, p < 0.001; ISI: F 13985 = 173.01, p < 0.001; BDI-II: F 9978 = 134.17, p < 0.001; PSS-10: F 9278 = 95.01, p < 0.001; STAI-X1: F 9060 = 45.58, p < 0.001). The "age" covariate yielded a significant effect in the analyses of PSQI, BDI-II, and PSS-10 scores (all p < 0.001), while it was not significant for ISI (p = 0.35) and STAI-X1 (p = 0.58). Post hoc comparisons (Fig. 1) showed that the ET group had higher scores in all the dimensions compared to MT and NT (all p < 0.001). NT showed higher scores compared to MT group for all the variables (all p < 0.001). Control analyses were performed adding the "gender" factor as a further covariate in the ANCOVAs, confirming all the above-reported pattern of results. Finally, exploratory analyses highlighted a significant difference between the three chronotype groups for the reported sleep duration (F 13986 = 14.14, p < 0.001 Working activity changes. A total of 3314 workers (38.9% of the total workers' sample) suspended their working activity during the lockdown. T-tests on PSQI and ISI scores showed significant differences between the group of respondents that suspended and the group that preserved their working activity (PSQI: t 8084 = 2.56, p = 0.01; ISI: t 8523 = 6.18, p < 0.001). The suspension of the working activity was associated with lower sleep quality (mean ± SEM, 7.15 ± 0.07 vs. 6.91 ± 0.05) and more severe insomnia symptoms (8.67 ± 0.10 vs. 7.91 ± 0.08). Among the sample who continued to work (5211 subjects), a total of 3536 respondents worked from home, 2125 reported reduced working time, 1989 maintained unchanged the work duration, and 1097 subjects increased their daily working time. Two-way ANOVAs on PSQI and ISI scores highlighted significant effects of "remote working" (PSQI: F 1,4941 = 45.91, p < 0.001; ISI: F 1,5205 = 17.60, p < 0.001), and "daily working time" factors (PSQI: F 2,4941 = 28.49, p < 0.001; ISI: F 2,5205 = 25.21, p < 0.001). The interactions between the two factors ("remote working" x "daily working time") were significant in both analyses (PSQI: F 2,4941 = 6.23, p = 0.002; ISI: F 2,5205 = 4.13, p = 0.02). Post hoc comparisons (Fig. 2) pointed to lower sleep quality and more severe insomnia symptoms for the participants who increased the daily working time within both remote working and regular working group (all p < 0.01). There were no differences in PSQI and ISI scores between the two groups (remote vs. regular work) when they reduced the working time (both p = 1.00). When the daily working time was the same or increased compared with the pre-outbreak period, the remote workers showed lower scores on PSQI (both p < 0.001) and ISI questionnaires (p = 0.03, p = 0.01; respectively). Notably, the remote workers who increased the daily working time reported the same sleep quality and insomnia symptoms of the regular workers who reduced (PSQI: p = 1.00; ISI: p = 0.25) or maintained unchanged the working duration (PSQI: p = 1.00; ISI: p = 0.85). Exploratory analyses showed that the remote working group went to bed and woke-up later (bedtime: hh:mm ± SEM, 00:01 ± 1 min; wake-up time: 08:17 ± 1 min) and slept more (419 min ± 1 min) compared to the respondents who continued to reach the workplace (bedtime: 23:33 ± 2 min, t 5209 = 11.93, p < 0.001; wake-up time: 07:28 ± 2 min, t 5209 = 19.20, p < 0.001; sleep duration: 392 min ± 2 min, t 5209 = 11.38, p < 0.001). Our study provided a comprehensive description of sleep health during the lockdown in Italy. The majority of respondents (approximately 60%) declared a negative impact of the restraining measure and delayed bedtime and wake-up time. We highlighted an alarming prevalence of poor sleepers and clinical insomniacs within our www.nature.com/scientificreports/ large sample: six out of ten participants were poor sleepers and more than half of the sample presented from subthreshold to severe insomnia symptoms. On the other hand, it is noteworthy that a proportion of the respondents (approximately 16%) declared a positive impact of the lockdown measures on their sleep, supporting the assumption that a loosening of rigorous sleep/wake schedule due to weaker social and working obligations could have a beneficial effect on part of the population 39 . In line with the current literature 4, 16, 21, 22 , we demonstrated a strong relationship between sleep variables and depression, stress, and anxiety. We confirmed the results of other cross-sectional investigations on healthcare workers 19, 20 and women [14] [15] [16] [17] [18] , which appeared as the categories experiencing the most severe sleep problems during lockdown worldwide. Furthermore, advanced age predicted more severe sleep disturbances. An interpretation of the healthcare workers' results is related to the well-known increased stressful workload, accompanied by higher contagion risk. Consistently, several studies demonstrated a high prevalence of post-traumatic stress disorder (PTSD) symptoms and mental health problems among the healthcare operators during the COVID-19 pandemic 20, 40 . On the other hand, we suggest caution in the interpretation of the results on women and elderly population since these two factors were typically associated with the poorest sleep quality 41, 42 and the higher predisposition to insomnia conditions even in the pre-outbreak period 43, 44 . Consistently, our recent longitudinal study 45 showed that the time course of sleep disturbance was different between men and women, and the male gender appeared as the most vulnerable to the prolongation of the restraining measures. We highlighted more severe sleep disturbances in southern Italy, and this result is inconsistent with the available literature on sleep and COVID-19 in the Italian population 17 , which identified a higher prevalence of sleep problems in northern Italy. However, differences in the period under consideration might explain the different results. The previous investigation 17 was referred to the first weeks of the outbreak, when the geographic propagation of the contagion in Italy was extremely unbalanced towards northern regions 46 . Our study covered the entire confinement period instead, providing a more reliable overview of the effect of the pandemic propagation www.nature.com/scientificreports/ in southern Italy. Moreover, we hypothesize that our results could also reflect the pandemic's economic consequences since southern Italy was the territorial area most affected economically by the COVID-19 crisis 47 . Finally, the confinement duration was a predictive factor of sleep disturbances, corroborating the hypothesis of a cumulative detrimental effect of the protracted lockdown period. However, scarce evidence had been provided worldwide, with only a few studies addressing this question through longitudinal investigations across the confinement period 5,45,48 . Chronotypes under lockdown. As far as the influence of chronotypes is concerned, according to the initial hypothesis, ET respondents reported the most prevalent delay of the sleep phase. These results are consistent with another Italian cross-sectional study carried out during the lockdown 49 . However, the ET participants reported suffering more from the confinement situation than the other circadian typologies. Coherently, this group showed the lowest sleep quality and the highest level of insomnia, depression, perceived stress, and anxiety. Meanwhile, MT showed the opposite pattern of results, declaring a lower negative impact of the restraining measures and a higher prevalence of preserved sleep schedule. This finding was exemplified by the highest sleep quality, less marked insomnia and depression symptoms, and the lowest perceived stress and anxiety levels. The present results pointed to a particular vulnerability of the ET group, although the lockdown was a favourable period to reduce the mismatch between internal and social clocks. Of note, the present results are consistent with those obtained during the pandemic period in an adolescent clinical population 50 . www.nature.com/scientificreports/ Our findings suggest that the well-known higher predisposition to sleep disturbances of the ET people 29-31 should not be considered only as a consequence of the accumulated sleep debt due to social and working obligations. In fact, during an unprecedented condition that unlocked time for sleep 27 , the ET respondents paradoxically reported a slighty longer sleep time althought they typically slept less than other circadian typologies in the workdays of pre-pandemic period 28 , however preserving the more severe sleep problems. This evidence suggests that the evening-individuals' sleep disturbances may instead originate from the misalignment of the delayed sleep pattern to the biological night 51 , which became more pronounced during the lockdown. On the other hand, morning chronotype emerged as a protective factor, both on the sleep and psychological sides. Recent studies demonstrated that the three chronotype groups differ for resilience level [52] [53] [54] and perceived stress 55 . The morning chronotype seems to be more able to cope with challenging situations, while ET individuals are more predisposed to develop PTSD 56, 57 . Our findings confirm this assumption, even in a context of reduced social jetlag, such as during the lockdown. Finally, several studies showed that circadian typologies are associated with particular personality traits and social behavior 58, 59 , which could interact with the period of restraining measures 60 , contributing in explaining our pattern of results. Working during pandemic. As expected, a substantial percentage of participants suspended the working activity during the lockdown (38.9%), leading to a lower sleep quality and more severe insomnia symptoms. We believe that these findings can be ascribable to the economic repercussions of the work interruption, although this dimension was not assessed in the present study. However, the possibility of maintaining a regular working activity during the confinement could have had a direct positive impact on preserving sleep health. The absence of a daily activity routine could emphasize the sense of boredom, leading to a slowing of the felt pace of the time flow 61 . Consistently, a recent study demonstrated a relationship between the increase of sleep difficulties and the feeling of time dilatation during the lockdown period 21 . Coherently, in our study, the unemployed participants were the only group that did not differ from the healthcare workers for sleep disturbances. On the other hand, within the group of respondents that continued to work, remote working seemed to be a protective factor. During this particular historical period, working from home was strictly associated with a reduced likelihood of contagion, and thus to a lower perception of risk. Moreover, the higher flexibility of the working schedule could encourage a better organization of the sleep/wake rhythms, favouring longer sleep duration. Consistently, the remote workers slept almost half an hour more than those who continued to reach the workplace. The changes in daily working time emerged as an essential predictor of sleep disturbances, and the increased work hours were associated with significant sleep problems. This result is consistent with other studies showing an adverse effect of the increased work routine on sleep quality and quantity 62, 63 . Interestingly, when working time was reduced, there was no benefit of remote working. On the other hand, when the working schedule was maintained or increased, participants who worked remotely showed better sleep quality and fewer insomnia symptoms. However, when the remote workers increased their daily working time, they reached the sleep disturbance level of the regular workers who maintained/reduced the working hours. Therefore, working remotely during the current pandemic should be encouraged as a protective factor, focusing on avoiding extra working time. When the regular working day is not punctuated by fixed starting and ending time point, a common consequence could be the increase of daily working duration, with negative consequences on sleep. To the best of our knowledge, the present is the most extensive investigation aimed at understanding the pandemic-related consequences on the general population's sleep. However, it should be acknowledged that we used a non-probabilistic sampling technique, with a higher representativity of the female gender and the young population, and the information was collected via self-report questionnaires. Moreover, no data referred to the pre-pandemic period are available, and the cross-sectional nature of the present study precludes causal conclusions regarding the relationship between the examined dimensions. The results confirmed the hypothesis that the lockdown due to the COVID-19 outbreak had significant repercussions on the sleep quality of the general population 3 . The restraining measures had a cumulative cost, and our results confirm the need to avoid over precautionary approaches, keeping the home confinement period as short as possible to limit its long-term negative consequences for sleep and mental health 64 . Our results are consistent with the current literature suggesting a higher predisposition of the female gender to develop sleep problems. In addition, the healthcare workers emerged again as an at-risk category. Moreover, our results showed that the differences in individual daily activity pattern preferences could represent a crucial predictor of sleep and psychological health during the pandemic period. We demonstrated a particular vulnerability of the ET people, while the morning chronotype seems to be a protective factor during the current challenging period. In light of this evidence, the vulnerable categories should be placed at the center of preventive interventions to avoid the exacerbation of sleep disturbances and mental health problems in the long run. Chronobiological interventions, such as melatonin, light exposure, and social rhythm regulation, could be effective strategies for ET people to hinder the onset or exacerbation of depression symptoms during the period of restraining measures 28 . In conclusion, we propose some guidelines for working during the COVID-19 pandemic. Individuals who suspended the working activity should maintain a regular daily activity to counteract the development and exacerbation of sleep disturbances. Remote working should be encouraged, as long as the overall daily activity duration does not increase, establishing fixed starting and ending times of the workday. This aspect should be regulated since remote working and teleworking could become increasingly widespread modalities regardless of the pandemic's conclusion 65 . In this view, the results of the present investigation could be generalizable to non-emergency periods. Furthermore, the subjects who work in telematic modality should avoid exposure to backlit screens of electronic devices before falling asleep since the increased evening exposure was suggested as a causal factor in developing sleep disturbances during lockdown 5 . An adequate sleep quality/quantity is essential to deal with stressful events 66 and preserve mental health 67 , emotional regulation 68, 69 , as well as the proper functioning of the immune system 70 . Consequently, the present results have a broad-spectrum of implications. Our study's findings could be essential in the present period, where the second contagion wave has become a reality, hundreds of thousands of people are subjected to restraining measures worldwide, and the impact of current emergency on sleep and mental health of general population persists 71 . All the insights provided in this study should be considered from the institutions to design public campaigns aimed to promote sleep health and general well-being during the current unprecedented situation. Participants and experimental procedure. A web-based survey has been disseminated through social media (Facebook, WhatsApp, Instagram, Twitter) from the third week to the end of the confinement period (25 March-3 May 2020), using a snowball sampling technique. A total of 13,989 Italian citizens (mean age ± standard deviation, 34.8 ± 12.2 years, range 18-86, 3223 males) participated in the present investigation. The survey started with demographic questions (age, gender, education, occupation, geographic location) and COVIDrelated information (infection or forced quarantine). Demographic informations are reported in Table 4 . Then, we asked to rate the perceived impact of the lockdown on sleep quality (positive, none, negative), and the occurred changes of bedtime (delayed, maintained, advanced), wake-up time (delayed, unchanged, advanced), and nap habits (increased, unchanged, reduced). Then, the survey comprised an evaluation of the working activity changes. In particular, we collected information on the suspension of the working activity (yes, no), the beginning of the remote working modality (yes, no), and the changes of the daily working time (increased, unchanged, reduced). Subsequently, we evaluated sleep quality, insomnia severity symptoms, and chronotype, through a set of validated questionnaires (see next paragraph for a detailed description): the Pittsburgh Sleep Quality Index (PSQI 6,7 ), the Insomnia Severity Index (ISI 8, 9 ) , the reduced version of the Morningness-Eveningness Questionnaire (MEQr 10 ). Finally, we assessed depression symptoms, perceived stress, and anxiety using (in order of presentation) the Beck Depression Inventory-second edition (BDI-II 11 ), the 10-item Perceived Stress Scale (PSS-10 12 ), and the state-anxiety subscale of the State-Trait Anxiety Inventory (STAI-X1 13 ), respectively. Participation in the entire survey required approximately 25 min, and the compilation of the last three questionnaires (BDI-II, 10-PSS, STAI-X1) was optional to avoid false/unreliable responses in the final part of the survey. A total of 9982 respondents (71.4%) compiled the BDI-II, 9282 also the 10-PSS (66.5%), and 9064 completed all the questionnaires (64.8%). The study was approved by the institutional review board of the University of L' Aquila (protocol n. 43066/2020) and carried out according to the principles established by the Declaration of Helsinki. Online informed consent to participate in the research was obtained from all the respondents. Questionnaires. The PSQI is a 19-item questionnaire widely used to evaluate sleep quality 6, 7 www.nature.com/scientificreports/ use of sleeping medications, daytime dysfunctions) is scored between 0 and 3, and higher scores (range, 0-21) point to more severe sleep difficulties. Scores higher than 5 represent a valid indicator of poor sleep quality 6 . The ISI is a screening instrument to assess the severity of clinical insomnia 8, 9 . It comprises an evaluation of seven dimensions: difficulty falling asleep, difficulty staying asleep, waking too early, sleep satisfaction, sleep interference with daytime functioning, noticeability of sleep problems by others, and worry about sleep. Respondents rate each item using a 5-point Likert scale (0-4), yelding a total score ranging from 0 to 28. Validated cut-off scores can be used to identify clinical insomnia conditions (0-7: no insomnia; 8-14 subthreshold insomnia; 15-21: moderate insomnia; 22-28: severe insomnia) 8 . The MEQr is a 5-item questionnaire comprising a self-report evaluation of ideal rising time and bedtime, personal efficiency peak time, morning freshness, and self-evaluation of chronotype 10 . It represents a short version of the original 19-item mixed-format scale developed by Horne and Östberg 72 , which is the most widely used self-report instrument in chronopsychological research to identify circadian typologies 28 . Discriminating power of the Italian version of MEQr to identify circadian typologies was confirmed using physiological measures (body temperature) and recorded motor activity as external criterion 10, 73 . Total score ranging from 4 to 25 is used to classify the chronotype (ET: 4-10; NT: 11-18; MT: [19] [20] [21] [22] [23] [24] [25] . The BDI-II is a 21-item self-report inventory designed to measure the severity of depression assessing affective, somatic, and cognitive symptoms according to diagnostic criteria listed in the Diagnostic and Statistical Manual for Mental Disorders 74 . Respondents rate the severity of each symptom using a 0 to 3 scale, and higher scores indicate more severe depression symptomatology (range, 0-63). The PSS-10 is a reduced version of the widely used PSS 75 . It is a 10-item questionnaire evaluating thoughts and feelings referred to stressful events. Respondents are asked how often they felt a certain way on a 0-4 Likert scale regarding six negatively stated and four positively stated (reverse score) items. Higher scores point to higher Data analysis. We performed frequencies analyses to show the proportion of the reported impact of the lockdown period on sleep (negative, none, positive), and the changes of bedtime (advanced, unchanged, delayed), wake-up time (advanced, unchanged, delayed), and nap habits (increased, unchanged, reduced). The analyses involving PSQI score were carried out excluding 814 participants due to compilation errors (i.e., respondents declared longer total sleep time compared with the reported total time in bed). According to the validated criteria of PSQI and ISI questionnaires, we calculated the prevalence of poor sleepers and clinical insomniacs in order to provide a descriptive overview of the entire sample. Multiple regression analyses were carried out with PSQI and ISI scores as dependent variables. The regression models comprised the following continuous and categorical predictors: age (continuous variable), gender (man, woman), education (middle school, high school, graduated, over-graduated), occupation (healthcare work, other work, student, unemployed), geographic location (norther Italy, central Italy, southern Italy), the experience of the forced quarantine (yes, no, no response), duration of the confinement period (based on the day of participation to the survey), and the MEQr, BDI-II, PSS-10, and STAI-X1 questionnaire scores (continuous variables). We did not include the COVID-19 infection factor (yes, no, no response) due to the low number of infected subjects (only 44 participants). We calculated the chronotype composition of our sample (MT, NT, ET) according to the MEQr cut-off scores. Then, we performed chi-square tests to evaluate the association of the three circadian typology groups with the perceived impact of the lockdown period on sleep, the reported changes of bedtime, wake-up time, and nap habits, and the prevalence of poor sleepers and clinical insomnia conditions. To evaluate differences in sleep quality, insomnia severity symptoms, depression, perceived stress, and anxiety, between MT, NT, and ET, we carried out ANCOVAs on the scores of the five questionnaires (PSQI, ISI, BDI-II, PSS-10, STAI-X1), with chronotype (MT, NT, ET) as three-level between factor. The current literature supports a strong relationship between age and chronotype 28, 77 . Therefore, the analyses controlled for the effect of age (continuous variables) used as a covariate. Finally, we applied a t-test analysis to compare the PSQI and ISI scores of the respondents who suspended or maintained the working activity. In order to evaluate the effect on sleep quality and insomnia symptoms due to the changes in the modality (remote working) and duration of the daily working activity, the PSQI and ISI scores were submitted to two-way ANOVAs, with "remote working" (yes, no) and "daily working time" (increased, unchanged, reduced) as two-level and three-level between factors, respectively. In some cases, further exploratory analyses were performed, using the information of interest (i.e., bedtime, wake-up time, sleep duration) derived from the PSQI (see "Results" paragraph). All the analyses were two-tailed, and Bonferroni post hoc comparisons were performed in case of significant effects. p-value < 0.05 was considered significant. When the data did not appear normally distributed or looked like heteroscedastic, "robust" or nonparametric techniques were used to check for bias in the inferential tests that could have led to misleading conclusions. Because these control analyses produced almost identical results to those obtained using the standard parametric tests, we concluded that violations of parametric assumptions were of negligible importance and we reported only the parametric test results. The datasets analysed during the current study are available from the corresponding author on reasonable request. 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