Coronaviruses (CoV) is a large family of viruses that can be cause not only mild infections seemed in common cold but also more serious infection symptoms such as Middle East Respiratory Syndrome and Severe Acute Respiratory Syndrome(Reference Huang, Wang and Li1). On 31 December 2019, the WHO China Country Office reported pneumonia cases of unknown aetiology in Wuhan, China’s Hubei province(Reference Huang, Wang and Li1,Reference Johnson2) . On 7 January 2020, the causative agent was identified as a new coronavirus (2019-nCoV) that has not previously been detected in humans. Later, the name of 2019-nCoV disease was accepted as COVID-19, and the virus was named as Severe Acute Respiratory Syndrome-CoV-2 due to its close resemblance to Severe Acute Respiratory Syndrome-CoV(3). COVID-19 causes deaths on a global scale with the number of patients increasing day by day. The number of daily cases shared by the Ministry of Health in Turkey is 5·016·141 in total, 18 052 on May 8(4).
The crucial and frightening feature of COVID-19 is that it can be transmitted from person to person quickly and the infection can be fatal(Reference Pitlik5). Therefore, WHO has underlined that the best way to decrease the spread rate of the virus is to implement some precautions including physical and social distancing, partial or full quarantining(6). Turkish Government has taken various precautions to block virus spread and reduce the number of the patients. Some of these measures in Turkey are the closure of public or crowded places such as schools, universities, cafes, gyms, mosques, quarantine for the elderly and youth, weekend quarantine for everyone and working from home(7). With this pandemic, it has been reported that the time spent at home was consistently increased(Reference Pellegrini, Ponzo and Rosato8,Reference Ryan, Ravussin and Heymsfield9) . Parallel to the increase in the time spent at home, psychological and behavioural alterations may be observed(Reference Pellegrini, Ponzo and Rosato8,Reference Di Renzo, Gualtieri and Pivari10–Reference Sandhu, Kaur and Author14) . Studies on COVID-19 have reported that the prevalence of anxiety disorder, depressive symptoms, perceived stress and post-traumatic stress disorder have increased with the COVID-19 pandemic(Reference Sønderskov, Dinesen and Santini15–Reference Moccia, Janiri and Pepe20). In addition, studies on COVID-19 have indicated that psychological factors and increased stress due to the COVID-19 pandemic may alter eating behaviours and trigger eating disorder symptoms. Changes in eating behaviours have also been associated with increased anxiety about loss of income, restrictive orders to stay at home, fear of catching the virus and fear of losing loved ones(Reference Shen, Long and Shih21–Reference Al-Musharaf24). With this in mind, the psychological changes observed during the COVID-19 pandemic may lead to eating behaviour disorders that may persist after the pandemic.
Emotional eating refers to the eating behaviour triggered by various emotions. Eating behaviours are easily affected by changes in regard to negative or positive situations(Reference Serin25). It is well-documented that humans can consume more food than usual when they are angry or feel under pressure. Likewise, the fact that food restriction during excited or extremely stressful situations also shows the effect of emotional states on eating(Reference Van Strien, Cebolla and Etchemendy26,Reference van Strien, Herman and Verheijden27) . Studies have stated that BMI is closely associated with high stress levels and emotional eating(Reference Yamamoto, Okazaki and Ohmori28–Reference Torres and Nowson31). Several studies have shown that predominantly negative emotions trigger overeating to high-fat and sugary foods, in contrary to less consumption of healthy foods, thus not complying with a healthy eating attitude (vegetables and fruits, not having breakfast, skip daily meals, more caloric food consumption)(Reference Van Strien, Cebolla and Etchemendy26,Reference Konttinen32–Reference Lazarevich, Irigoyen Camacho and Velázquez-Alva34) . People struggling with emotional eating can suppress intense emotions by eating, and in this case, they often prefer appetising foods high in fat and sugar(Reference Tan and Chow30,Reference Konttinen32,Reference Lazarevich, Irigoyen Camacho and Velázquez-Alva34,Reference Conner, Fitter and Fletcher35) . Long-term excessive consumption of foods high in fat or sugar can lead to weight gain, resulting in increased BMI and many health risks such as oxidative stress, inflammation and obesity(Reference Bray36–Reference Stanhope38).
Stress is considered to be another key factor affecting dietary intake(Reference Tan and Chow30,Reference Jayne, Ayala and Karl39) . Stressful situations can affect diet quality scores in different ways by triggering emotional eating, increasing the consumption of high-fat and sweetened food/beverages and causing uncontrolled eating behaviour. These situations can also trigger emotional eating attacks. Studies have shown that non-obese people use coping mechanisms such as cognitive strategies to cope with psychological problems, while obese individuals may respond to these problems by overeating(Reference Roberts, Troop and Connan40,Reference Lingswiler, Crowther and Stephens41) . Thus, increased stress level can lead to weight gain, overweight and obesity, leading to an increased BMI levels(Reference Richardson, Arsenault and Cates42).
Perceived stress appears to be increasing during the COVID-19 pandemic, and most importantly, it seems that perceived stress may be associated with changes in BMI(Reference Shen, Long and Shih21,Reference Cecchetto, Aiello and Gentili23,Reference Al-Musharaf24) . This situation may affect emotional eating behaviours as well. This research aims to examine perceived stress and emotional eating behaviours during the COVID-19 pandemic partial quarantine based on BMI levels of healthy adults.
Methods
Participants
The data were collected using an online questionnaire created on Google Forms. The questionnaire was randomly distributed among the individuals using social media channels such as Instagram, Twitter and WhatsApp and via e-mail. Participants informed about the purpose of the research to adults in accordance with the inclusion criteria. Individuals between the ages of 20 and 65 who were partially quarantined (in quarantine all weekend for at least 3 months) due to COVID-19 were included in the study. Individuals from thirty-one different cities participated in the study. Seven participants were not included in the study because they were under the age of 18. The online survey data were collected between June and September 2020.
The sample size was calculated by G * power analysis (based on 95 % confidence and 80 % power) according to the report by the American Psychological Association on Stress and Nutrition. This report noted that 38 % of adults developed stress-related binge eating or unhealthy eating behaviour(43). Assuming this rate to be 60 % in our study, it was determined that at least 282 people should be included in the study.
Data collection
The questionnaire consists of four parts and a total of forty questions. The first part includes eleven questions about demographic variables such as age, weight, height, gender, education level, employment status and smoking status. The second part consists of eleven questions that examine nutritional behaviours such as mealtime, food and beverage consumption and changes in meal preparation during quarantine. Food consumption was measured with the question: ‘Which foods did you consume more after COVID-19?’. This question had several responses including whole grains (e.g. whole wheat bread, rye, oats), vegetable and fruits, nuts, meat, fish, dairy, processed foods, milky deserts, chocolate, biscuits and chips that they could chose multiple options. We asked a similar question for beverage consumption. Multiple response options included water, tea, coffee, carbonated drinks, fresh fruit juice, fruit juice, herbal tea, soda water, ayran, kefir and turnip juice. We questioned the tendency of unhealthy food consumption during the partial quarantine period with the following question: ‘Did your consumption of unhealthy foods such as chips, cookies, cakes, sugary cereals and fast food change during your stay at home?’ Participants were categorised as having a tendency to unhealthy foods if they responded, ‘I increased unhealthy food consumption’. The third part includes the Perceived Stress Scale-14 (PSS-14) and the last part includes the Emotional Eater Questionnaire (EEQ). Body weight, height and change in body weight during the partial quarantine period were collected based on the declaration. BMI was calculated using the weight and height obtained from the survey. BMI classification is: <18·5 kg/m2 underweight, 18·5–24·9 kg/m2 normal, 25·0–29·9 kg/m2 overweight, >30·0 kg/m2 obesity(44).
Perceived Stress Scale
PSS-14 consists of fourteen items aimed at determining the perceived stress levels of individuals. PSS-14 is a scale developed by Cohen et al. (Reference Cohen, Kamarck and Mermelstein45), which has been validated in Turkish for use in individuals over the age of 18(Reference Eskin, Harlak and Demirkıran46), and is widely applied to determine perceived helplessness and self-efficacy. This scale is prepared in a 5-point Likert type (0 no, 1, 2, 3, 4 very often), where three items are scored negatively (items 4, 5, 6). The scale is evaluated on the total score (0–32) and a high total score means higher perceived stress level(Reference Cohen, Kamarck and Mermelstein45,Reference Eskin, Harlak and Demirkıran46) .
Emotional Eater Questionnaire
EEQ consists of ten items and three sub-dimensions. The three sub-dimensions of the EEQ are entitled as: (1) not being able to prevent eating desire-disinhibition (items 4, 5, 6, 8, 9, 10), (2) types of food type of food (items 2, 3) and (3) feeling guilty-guilt (items 1, 7). The EEQ is scored with a 4-point Likert scale (‘0’ Never, ‘1’ Sometimes, ‘2’ is generally answered and ‘3’ is always). The EEQ was used to assess emotional eating behaviour in individuals. The questionnaire developed by Garaulet et al. (Reference Garaulet, Canteras and Morales47) has been proven to be valid in Turkish for individuals over 20 years of age(Reference Arslantaş, Dereboy and Yüksel48). With the highest score obtained from the scale is ‘30’, higher scores indicate higher emotional eating behaviours(Reference Garaulet, Canteras and Morales47,Reference Arslantaş, Dereboy and Yüksel48) .
Statistical analyses
The data collected were evaluated using the SPSS 25 statistics software (IBM). Data were tested to investigate whether they were normally dispersed using visual (probability plots and histograms) and analytical methods (Kolmogorov–Smirnov/Shapiro–Wilk test). Demographic variables and eating habits analysed with Pearson χ 2 and independent t-tests. Pearson correlation coefficients were calculated to examine the interaction between BMI, EEQ and PSS-14. After checking the assumptions of the multiple linear regression analysis (linearity, covariance, independence and normality) to ensure its fit, a multiple linear regression analysis model was run to determine whether weight gain during the partial quarantine period was associated with EEQ, PSS-14, overeating and unhealthy food consumption during this period. Model fit was determined using appropriate residual and goodness of fit statistics. P < 0·05 was accepted as statistically significant.
Results
Descriptive characteristics of the participants are presented in Table 1. A total of 506 participants, including 119 men (mean age: 38·59 ± 11·75 years, mean BMI: 27·28 ± 3·76 kg/m2) and 387 women (mean age: 30·64 ± 10·75 years, mean BMI: 23·28 ± 4·12 kg/m2) volunteered to participate in the study. Mean weight gain during COVID-19 was reported as 1·20 ± 1·70 kg in men and 0·91 ± 1·40 kg in women. Investigating the weight gain according to BMI, it was founded that obese participants had more weight gain than normal and overweight participants (1·76 ± 2·06 kg v. 1·14 ± 1·52 kg and 0·88 ± 1·48 kg in men; P = 0·006, 1·47 ± 1·97 kg v. 0·83 ± 1·27 kg and 1·10 ± 1·53 kg in women; P = 0·004, respectively). The EEQ and PSS-14 scores were indicated that women had significantly higher scores than men (men v. women; mean EEQ: 9·39 ± 5·37 v. 11·17 ± 5·85; mean PSS-14: 24·67 ± 8·32 v. 27·99 ± 7·34).
* P < 0·05.
† Independent-t-test.
‡ Pearson chi-square test.
** P < 0·001.
Table 2 shows the EEQ and PSS-14 scores according to BMI. The findings revealed that participants with higher BMI had higher EEQ and lower PSS-14 scores. Correlation analysis between BMI results, EEQ and PSS-14 scores revealed that BMI was positively correlated EEQ (r 0·205, P = 0·001) and negatively correlated with PSS-14 (r -0·125, P = 0·001) (Table 3).
EEQ, Emotional Eater Questionnaire; PSS-14: Perceived Stress Scale 14.
* P < 0·05.
† Independent t test.
** P< 0·001.
EEQ, Emotional Eater Questionnaire; PSS-14, Perceived Stress Scale 14.
* P < 0·05.
Food consumption according to the BMI during the COVID-19 pandemic is represented in Fig. 1. Data showed that people mostly preferred to consume vegetables and fruits (56·1 %), pastries (42·9 %) and nuts (37·1 %) in all BMI groups.
Beverage consumption according to BMI during COVID-19 is shown in Fig. 2. Water (in underweight: 59·30 %, in normal: 66·80 %, in overweight: 62·80 %, in obese: 77·30%), tea and coffee were found to be the most preferred drinks in all BMI groups (in underweight: 70·40 %, in normal: 78·50 %, in overweight: 86·10 %, in obese: 75·80 %). While consumption of tea, coffee, fresh fruit juice and carbonated beverages increased, consumption of water, ayran, kefir, fruit juice and sugary beverage decreased in underweight participants. In overweight individuals, while the consumption of water, carbonated drinks, fresh fruit juice, fruit juice, sweetened drinks, soda and ayran increased, tea and coffee consumption decreased. The consumption of sweetened and carbonated drinks increased twice in obese participants in those compared with other BMI groups.
We ran a regression analysis to identify whether weight gain during the partial quarantine period could be predicted using data on EEQ, PSS-14, overeating and unhealthy food choice during this period (Table 4). The regression model showed that 29 % of weight gain during the partial quarantine period could be explained by emotional eating, eating more while at home and unhealthy eating behaviours at home. In contrast, perceived stress was not associated with weight gain.
PSS-14, Perceived Stress Scale-14; EEQ, Emotional Eater Questionnaire.
* P < 0·001.
Discussion
In this paper, we present the changes related to eating behaviours, weight-gain patterns and perceived stress according to BMI during the COVID-19 pandemic lockdown. Our main findings were that BMI was positively associated with EEQ scores, suggesting that people with higher BMI are more prone to emotional eating. Additionally, weight gain during quarantine was associated with increased eating tendency and consumption of unhealthy foods at home. However, the hypothesis that people with higher BMI during quarantine would have higher stress levels was rejected due to findings suggesting that BMI was negatively correlated with PSS-14 scores.
We observed a positive correlation between BMI and EEQ scores. Several studies have reported that obese individuals tend to eat emotionally and BMI is positively associated with EEQ scores(Reference van Strien, Herman and Verheijden27,Reference Lazarevich, Irigoyen Camacho and Velázquez-Alva34,Reference Nolan, Halperin and Geliebter49–Reference Péneau, Ménard and Méjean52) . The researchers argued that certain strong emotions, such as anxiety, restlessness, anger, fear, joy and sadness, can cause significant changes in eating behaviours by increasing the motivation to eat and the amount of food consumed, and changing food choices towards unhealthy foods. People with emotional eating symptoms often react to overwhelming conditions by increasing their food intake and altering food choices with high in fat and sugar, while others do not alter or reduce their food consumption in these situations. Increased food consumption can also increase the tendency to binge-eating(Reference Järvelä-Reijonen, Karhunen and Sairanen29–Reference Torres and Nowson31,Reference Konttinen33–Reference Conner, Fitter and Fletcher35,Reference Richardson, Arsenault and Cates42,43,Reference Diggins, Woods-Giscombe and Waters50,Reference Leigh Gibson53–Reference Sproesser, Schupp and Renner57) . Because we know that COVID-19 creates enormous stress and pressure in our lives and changes almost the entire lifestyle, it is inevitable to affect eating behaviours, especially for individuals who already tend to eat a lot. For this reason, obese people, especially those who notice an increase in food consumption or emotional eating attacks during the COVID-19 quarantine, should consider seeking professional support to endure this negative and uncertain process and prevent unwanted weight gain.
Consistent with other COVID-19 studies, weight gain during home quarantine was observed in both men and women (39·5 and 39·3 %, respectively). Men reported an average weight gain of 1·20 kg, whereas women stated about 0·91 kg of increase in weight. A study by Górnicka et al. (Reference Górnicka, Drywień and Zielinska58) showed that staying at home during COVID-19 decreased physical activity levels and resulted in undesirable eating behaviours such as snacking and overeating, thus causing a disruption in energy balance and weight gain. Another study conducted in Obesity Unit examined the weight changes and BMI before and after COVID-19 lockdown(Reference Pellegrini, Ponzo and Rosato8). They found that after the COVID-19 lockdown, weight gain and BMI increased by about +1·51 kg and + 0·58 kg/m2, respectively(Reference Pellegrini, Ponzo and Rosato8). It was stated that 43·7 % of women and 30·3 % of men were changed their daily eating habits and the time spent in the kitchen increased. Additionally, Di Renzo et al. (Reference Di Renzo, Gualtieri and Pivari10) investigated the lockdown impact on eating habits and lifestyle changes throughout four different parts of Italy. Researchers stated that 48·6 % of the participants reported weight gain. The frequency and habits of meals changed and the time they spent in the kitchen increased in 57·8 % of the participants However, unlike other studies, no change was observed in the mealtime in our study(Reference Di Renzo, Gualtieri and Pivari10). This is probably due to differences in lockdown. While several countries such as Italy applied a full-time lockdown strategy, the lockdown in Turkey was limited by weekends. Therefore, it is an expectable situation that there is no change in mealtime as people continue their normal work schedule on weekdays.
We found that PSS-14 scores negatively correlated with BMI. This result is probably due to the different stress responses of individuals(Reference Yau and Potenza59). Although the stress response varies according to the severity and duration of the stress, it can be quite challenging(Reference McEwen60). While mild stress creates positive results by increasing the attention of individuals(Reference Selye61), chronic stress can lead to serious physiological and psychological consequences(Reference McEwen60,Reference Pasquali62) . It is very frustrating not knowing when the COVID pandemic will end and what the definitive treatment is, which can lead to chronic stress in individuals. In addition, although it is well known that stress can affect eating habits, how it affects it is controversial. Some people respond to high-stress situations by reducing their food intake, while others increase their food consumption to suppress undesirable emotions(Reference Tan and Chow30,Reference Leigh Gibson53) . The fact that perceived stress was higher in participants with low BMI suggests that COVID stress may also lead to shut down appetite.
In this study, EEQ scores were positively correlated with PSS-14 scores (r 0·275 in males, r 0·279 in females) regardless of BMI levels (P < 0·001). With the prolonged COVID-19 outbreak, people feel more stressed out of an increased fear of infection, the loss of loved ones or financial loss(Reference Sønderskov, Dinesen and Santini15–Reference Liang, Ren and Cao17,Reference Serafini, Parmigiani and Amerio19,63,Reference Cullen, Gulati and Kelly64) . Increased stress can change food and beverage consumption in individuals. A longitudinal study evaluating the effect of natural disasters on emotional eating stated that the tendency of unhealthy foods increases during stressful periods(Reference Kuijer and Boyce55). In the present study, vegetables, fruits and pastries were found to be mostly preferred foods. While vegetables and fruits are considered beneficial foods with their specialties rich in phytochemicals, vitamins, minerals and fibre for maintaining health and boosting the immune system during the pandemic, increased consumption of pastries can create undesirable consequences such as weight gain. Further, sweetened beverage consumption has doubled in obese individuals. These findings show that eating habits change towards unhealthy foods, especially in obese patients, during COVID-19 pandemic. This finding is supported by another study that showed that during the COVID-19 outbreak, the consumption of sweetened and carbonated drink decreased while the consumption of homemade desserts, pizza and bread increased(Reference Pellegrini, Ponzo and Rosato8). Cohort studies in the Netherlands, Finland, France, USA and Korea reported that weight gain as a consequence of emotional eating is a crucial risk factor for obesity(Reference Koenders and Van Strien65–Reference Vittengl69). Therefore, there is an urgent need to develop some public health strategies to reduce obesity risks, attenuate perceived stress and improve well-being during COVID-19.
In good agreement with several studies, the regression analyses of this study indicated that increased weight gain during the COVID-19 lockdown significantly increased the risk of emotional eating behaviours, including eating more at home and consuming unhealthy foods at home. However, no association was found between weight gain and perceived stress during COVID-19. One possible explanation is that stress can cause hypophagia that restricts eating behaviour for some people.
This study had some limitations. First, we were unable to evaluate food and beverage consumption prior to the COVID-19 outbreak. Second, emotional eating and perceived stress were studied using self-reported survey data. Third, although we tried to reach more male participants, sex distribution is not balanced. In addition, anthropometric measurements and weight gain were taken according to the declaration. On the other hand, the strength of this study is that, to our knowledge, this is the first study to evaluate the interaction of emotional eating and perceived stress to BMI during the COVID-19 pandemic. With the study, we highlighted that the COVID-19 lockdown does not only affect physical health but also influences psychological well-being, which can pose a greater burden on public health, such as increased obesity and obesity-related disorders.
Conclusion
Our results suggest that staying home during the COVID-19 pandemic may cause emotional eating, snacking and overeating, and therefore lead to weight gain. Additionally, individuals with higher BMI have been associated with a higher propensity to emotional eating. For this reason, the change in eating behaviour and the increase in the time spent at home may create a huge burden, especially for obese individuals.
The lockdown is a good precaution to stop the spread of the virus, but there are some health risks associated with physical inactivity, weight gain, behavioural changes and social isolation. Further studies should focus on the impact of the COVID-19 outbreak on eating behaviour and perceived stress. As we know that the lockdown process will continue for a while, some public health strategies focusing on healthy eating and physical activity at home should be developed to eliminate the health risks associated with increased obesity during the lockdown.
Acknowledgements
Acknowledgements: The authors thank all participants included this study. Financial support: No financial support was received for this article. Conflict of interest: No conflicts of interest between authors. Authorship: The authors’ responsibilities were as follows – H.K.B.G. and A.D.L.: designed the research, analysed data and conducted the statistical analysis and wrote paper; H.K.B.G.: had primary responsibility for final content; and all authors: were involved in critical revisions and read and approved the final manuscript. Ethics of human subject participation: This study was conducted according to the guidelines laid down in the Declaration of Helsinki, and all procedures involving research study participants were approved by the Istanbul Medeniyet University Social and Humanities Research and Publication Ethics Committee. Written informed consent was obtained from all subjects/patients.