Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic

Năstăsescu, Valentin; Mititelu, Magdalena; Stanciu, Tiberius Iustinian; Drăgănescu, Doina; Grigore, Nicoleta Diana; Udeanu, Denisa Ioana; Stanciu, Gabriela; Neacșu, Sorinel Marius; Dinu-Pîrvu, Cristina Elena; Oprea, Eliza; Ghica, Manuela

doi:10.3390/nu14030504

Open AccessArticle

Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic

by

Valentin Năstăsescu

^1,†,

Magdalena Mititelu

^2,*,†

,

Tiberius Iustinian Stanciu

^3,†,

Doina Drăgănescu

^4,†,

Nicoleta Diana Grigore

^2,†,

Denisa Ioana Udeanu

^2,†

,

Gabriela Stanciu

^5,*

,

Sorinel Marius Neacșu

^6,†,

Cristina Elena Dinu-Pîrvu

¹,

Eliza Oprea

^7,†

and

Manuela Ghica

⁸

¹

Department of Physical and Colloidal Chemistry, Faculty of Pharmacy, University of Medicine and Pharmacy Carol Davila, 020956 Bucharest, Romania

²

Department of Clinical Laboratory and Food Safety, Faculty of Pharmacy, University of Medicine and Pharmacy Carol Davila, 020956 Bucharest, Romania

³

Press Office, Ovidius University of Constanța, 900527 Constanța, Romania

⁴

Pharmaceutical Physics and Informatics Department, Faculty of Pharmacy, Carol Davila University of Medicine and Pharmacy, 020956 Bucharest, Romania

⁵

Department of Chemistry and Chemical Engineering, Faculty of Applied Sciences and Engineering, Ovidius University of Constanța, 900527 Constanța, Romania

⁶

Proffesional Farma Line, 116 Republicii Street, 105200 Baicoi, Romania

⁷

Department of Organic Chemistry, Biochemistry and Catalysis, Faculty of Chemistry, University of Bucharest, 030018 Bucharest, Romania

⁸

Department of Biostatistics, Faculty of Pharmacy, University of Medicine and Pharmacy Carol Davila, 020956 Bucharest, Romania

^*

Authors to whom correspondence should be addressed.

^†

These authors contributed equally to this work.

Nutrients 2022, 14(3), 504; https://0-doi-org.brum.beds.ac.uk/10.3390/nu14030504

Submission received: 24 December 2021 / Revised: 16 January 2022 / Accepted: 19 January 2022 / Published: 24 January 2022

(This article belongs to the Special Issue Modifiable Host Factors to Prevent COVID-19 Pandemic: Diet and Lifestyle)

Download

Browse Figures

Review Reports Versions Notes

Abstract

:

The pandemic caused by the SARS-CoV-2 virus has produced significant changes in socio-cultural life, diet, and interpersonal relationships across the world’s population. The present study aims to identify changes in lifestyle and diet among the Romanian population one year after the onset of the COVID-19 pandemic. An online questionnaire with 58 items (addressing the following aspects: socio-demographic and anthropometric data, current eating habits, and lifestyle changes) was distributed using institutional mailing lists and social media. A total number of 2040 respondents participated in the study, of whom 1464 were women, and 576 men. Among the respondents, 1598 came from urban areas and 442 from rural areas. The processing of the collected data showed significant changes in the behavior of the respondents caused by the pandemic situation with psycho-affective changes in some cases. The number of people who had anxiety, depression and nervousness increased by up to 20%. The majority of respondents (over 57%) were up to 30 years old, either students (43.50%) or employees going to workplaces (33.20%). Analyzing eating habits, we found that diet modification was needed to increase the daily consumption of fruits, vegetables, fish, and seafood. Regarding weight status during the pandemic, we noticed that 34.7% of normal-weight respondents said that they gained weight while 49.7% of overweight people and 52.5% of obese people said that they gained weight (p < 0.0001). Regarding psycho-emotional behavior, 11.81% of the surveyed women stated that they frequently had depressive states during the pandemic period and 11.63% of the men stated that they frequently presented depressive states during the pandemic (p = 0.005).

Keywords:

COVID-19 pandemic; SARS-CoV-2; diet changes; lifestyle changes; social life changes; psycho-affective changes

1. Introduction

The crisis generated by the SARS-CoV-2 virus requires solutions with joint efforts from all states to protect population health and reduce the damage to national economies. In order to avoid catastrophic outcomes for national health systems and reduce the number of casualties, many countries have initiated social distancing policies to slow the spread of the SARS-CoV-2 virus. The COVID-19 pandemic has caused all employees worldwide to suddenly experience significant changes, both in the family and in their professional activity, the most affected being low-wage workers without access to social protection [1,2,3].

The economic impact of the coronavirus crisis varies from one industrial sector to another and depends on a number of factors, including the possibility of adapting to supply chain disruptions, the existence of stocks or dependence on the capacity of production processes. The tourist ecosystem has also been severely affected by traffic and travel restrictions due to the coronavirus crisis [4,5,6].

For many children and parents, the COVID-19 pandemic has changed daily routines. As more and more families are facing social distancing, self-quarantine and the closure of schools and jobs, they may feel stressed. Stress occurs not only because of health concerns, but also because families have to deal with a new reality, when they have suddenly found themselves at home for several days with children whose daily routines were severely affected. Isolation at home and limited interactions with their peers make children anxious. The lack of outdoor activities could make them more agitated and frustrated, stressing their parents even more [7,8].

In all countries of the world, in the conditions of isolation at home, limited contact with members of the social network, working from home, closed schools/universities, the lack of facilities for spending time and financial insecurity, family relationships have become increasingly strained, sometime reaching extreme manifestations [9,10,11,12,13].

The lockdown, travel restrictions, and economic problems have made people feel lonelier in 2020 than ever before. Moreover, a lack of exercise and increased compulsive eating during the pandemic has led to increased obesity among the population, with serious health implications [14,15,16,17].

Romania was facing a health crisis generated by the fourth wave of the COVID-19 pandemic. As of 4 October 2021, 1,274,119 confirmed cases of SARS-CoV-2 virus infection were reported in Romania, of which 1,130,791 (88.75%) were cured patients and 37,677 (2.96%) were deceased patients. Regarding the Vaccination Campaign, as of the same date 10,428,307 doses of SARS-CoV-2 virus vaccine were administered and 5,434,368 people were reported to be immunized, meaning 27.99% of the total population [18].

Despite all of the efforts made by the authorities, the vaccination campaign of the Romanian population did not make much progress; in addition, the government is reluctant to adopt the normative act regulating the implementation of the green COVID-19 certificate at work.

Regarding the support of the population for better access to basic foods, Romania, following the example of Poland, is preparing to take steps within the European Union to approve the reduction of value-added tax to zero for basic products (meat, eggs, products dairy products).

In the current context caused by the COVID-19 pandemic, the population is becoming more and more aware of the need to adopt a healthy lifestyle and a balanced diet, primarily to support the immune system. Strong immunity is the best barrier against virus infections, including those with the new coronavirus. The body’s immunity is affected by a large number of factors. Stress diminishes the body’s immune response to pathogens. Food quality is also an important factor that affects the body’s reserves and endurance. The health of the body depends on the lifestyle that a person adopts. Factors that influence a healthy lifestyle are diet, hydration, sleep time and physical activity. The quality of sleep has an impact on both the state of health and the psyche. Therefore, sleep hours must be monitored, and a balanced sleep program is needed, without excesses and without radical changes. One way to strengthen the body’s endurance is physical exercise, performed consistently. Moreover, exercise also contributes to maintaining a good mental tone. A healthy lifestyle includes following a program that includes three main meals each day, as well as eating healthy foods, rich in vitamins. Additionally, any excess should be avoided, especially when it comes to unhealthy foods or drinks [19,20,21,22].

Various clinical studies suggest the need to consume 20–30 different types of food during a week, particularly of plant origin. Food diversity compensates for nutrient deficiencies and reduces the toxic effect that excessive intake of natural or processed compounds from food can have. The intake of proteins, carbohydrates, lipids, vitamins and minerals must cover the body’s energy needs and structural needs. The most important sources of essential amino acids (complete proteins) are milk, meat, eggs, and cheese. The portion of food must be modified to favor the variety of food, in order to cover the dietary needs of the individual [23,24,25,26,27,28].

Additionally, certain drugs affect the body’s immunity. Repeated administration of antibiotics, steroid anti-inflammatory drugs and chemotherapy inhibits the immune system [29,30,31]. Prolonged exposure to toxic substances (air pollution, toxic work environment, various solvents, heavy metals) is another factor that affects the body’s ability to detoxify, regenerate and revitalize [32,33,34,35].

The objective of the paper is to investigate the changes in lifestyle, eating habits and psycho-affective state among the Romanian population one year after the onset of the COVID-19 pandemic.

2. Materials and Methods

2.1. Study Design

Between 3 May and 6 June 2021, a study was conducted among the Romanian population based on a questionnaire disseminated online using the Google Forms web survey platform to identify changes in lifestyle and diet during the first year of the COVID-19 pandemic. The link for the online survey was shared through social media and the institutional mailing lists of students and professional organizations from Romania. Participants were also asked to share the link of a questionnaire with their colleagues and friends. The questionnaire contains 58 items that address the following aspects: socio-demographic data (age, sex, occupation, area of residence, occupation), anthropometric data (height, weight), eating habits, lifestyle and psycho-affective behavior before and during the pandemic. The final database was downloaded as a Microsoft Excel sheet.

The criterion for participation in the study was an age over 18 years. Participation in the study based on the questionnaire was entirely voluntary and anonymous. Respondents were informed from the beginning about the purpose of the study and asked for permission to use and publish the data. The anonymous nature of the web survey does not allow sensitive personal data to be traced in any way.

Individuals who agreed to participate were informed of the purpose of the study and were assured of the confidentiality of the results. Additionally, the completion of the questionnaire was in compliance with GDPR rules.

2.2. Questionnaire Validation

In order to finalize the questions and eliminate the ambiguities, the questionnaire was previously distributed to a group of 200 people aged 18 years and above, in the form of a test together with an additional form with 6 questions related to: clarity of questions in the questionnaire, understanding of the questions asked, the layout of the questionnaire (framing of the questions, the format and size of the letters), the time required to complete the questions in the questionnaire, the relevance of the questions in relation to the purpose of the questionnaire and suggestions for possible improvements to the questionnaire. By addressing it, the aim was to identify any ambiguity in the questions, an ensure the correct completion. The results of testing the pilot phase questionnaire were analyzed by a group of 10 experts for content validation and optimization. Content validity ratio (CVR), and content validity index (CVI) were calculated [36,37]. The necessity of items was assessed using a three-point scale and scores ranged between −1 (not necessary), 0 (useful but not essential), and +1 (essential). The relevance and clarity of each item were also calculated using a four-point Likert scale: (1) not relevant/clear, (2) slightly relevant/clear and needs revision, (3) relevant/clear and needs minor revision, and (4) very relevant/clear. Irrelevant items were removed based on expert opinions and modifications were made to the remaining items to make them more accurate and increase clarity.

Cronbach’s α coefficient was used to determine the internal consistency of the questionnaire. The value of Cronbach’s α for our questionnaire came out to be 0.86, which suggests a good internal consistency and also that the scale in this study is reliable [38].

Finally, the final form of the questionnaire, presented in Appendix A, was designed.

2.3. Statistical Analysis

All the categorical characteristics from our study were analyzed qualitatively and were expressed as a percentage (%) and numbers (n). Additionally, the numerical characteristics were transformed into qualitative variables (such as age and BMI variables) and expressed by percentages (%) and numbers (n).

The Pearson’s chi-square (

χ^{2}

) test was used to analyze the relationship between the categorical variables and thus to find patterns of dietary changes. Additionally, we used two-way analysis of variance (robust ANOVA) and multinomial logistic regression analyses were performed to analyze the factors (gender, age group, BMI group) that influenced the odds of assignment to the healthy diet, moderate healthy diet and unhealthy diet [39,40]. In order to analyze the adherence of the respondents to a healthy diet, the answers from questions 7–10 and 12–18 of the questionnaire were quantified by giving a score from 1 to 5. A healthy diet consisted of a daily intake of fruits and vegetables, a low consumption of saturated fats and the avoidance of the consumption of hydrogenated fats, a consumption of foods rich in valuable nutrients (meat, eggs, fish, seafood, dairy products) according to the body’s energy needs, a low alcohol consumption, and moderate consumption of sweets and bread. The consumption of unhealthy foods or the lowest consumption of healthy foods rich in valuable nutrients was scored with 1, and 5 scored the consumption of the healthiest foods or the high frequency of the consumption of foods rich in valuable nutrients. Based on these answers, we formed a raw score that could then be scaled into a T-score (standardized) with a mean of 50.0 and standard deviation of 10.0 [41]. Finally, the results were divided into three categories: scores under 33.3 became an unhealthy diet, over 66.6 became a healthy diet and the rest of the values were framed as a moderately healthy diet. The results of multinomial logistic regression analyses are expressed as risk ratio (RR) and standard errors.

The dependent variable is “healthy eating”, and the reference group is “moderate healthy diet”.

Independent variables are:

Gender where the reference group is “female”;
BMI group where the reference group is “normal weight”;
Age group where the reference group is young people in the range “[18,19,20,21,22,23,24,25,26,27,28,29,30]”.

For all statistical analyses, p < 0.05 was considered significant. Statistical analysis was implemented using the open-source software R (R version 4.1.1) [42].

3. Results

3.1. Socio-Demographic and Anthropometric Data

Following the dissemination of the questionnaire in the online environment, a total of 2054 responses were obtained, of which 2040 were valid answers (answers with incorrect anthropometric data were eliminated). Of the respondents, 71.61% were women (1464) and 28.39% men (576). According to the registered answers, 1598 (78.14%) of the persons who completed the questionnaire lived in urban areas and 442 (21.86%) in rural areas. The anthropometric data (weight and height) were used to calculate BMI by using the Quetelet equation (body mass (kg)/height (m²)) and interpreted according to the criteria of the World Health Organization [43]. Most of those who participated in the survey were normal weight (57.78%), 7.25% were underweight, 24.97% were overweight and 9.98% were obese [44]. The sociodemographic and lifestyle characteristics of participants are presented in Table 1.

One year after the onset of the pandemic, 39.8% of respondents said they had maintained a constant body weight, 38.4% said they had gained weight and 32.6% said they had an increased appetite. Of the participants in the questionnaire, 62.4% stated that they engaged in sports during the pandemic and 26.4% stated that they were quarantined due to infection with the novel coronavirus. We noted a negative change in the quality of life of the population caused by the COVID-19 pandemic; most respondents said that living standards deteriorated during the pandemic (63.9%) and only 12% said that life improved (Table 1). Of the people surveyed, 38.1% said they played sports at home during the pandemic, 22.5% outdoors and only 6% in the gym. Regarding the frequency of sports activities during the pandemic, the percentage of those who did not exercise at all, or that exercised slightly or very rarely, increased and the percentage of those who used to do sports daily before the pandemic decreased. Thus, 13.4% of respondents stated that they exercised daily during the pandemic and 15.9% stated that they used to exercise daily before the pandemic, while 26.8% stated that they exercised very rarely during the pandemic (compared with 25.6% before the pandemic) and 37.6% that they did not play sports at all during the pandemic (compared with 34.1% before the pandemic). There was a tendency towards a sedentary lifestyle which intensified in the pandemic.

3.2. Current Eating Habits

From the analysis of the data presented in Table 2, a higher tendency among men to consume foods with a lower nutritional value was noticed compared with women. The majority of respondents preferred to consume foods with moderate nutritional value and only a small percentage, less than 6%, frequently consumed foods with high nutritional value. According to the answers, the main type of used dietary fat was sunflower oil (63% of respondents said they use it the most when cooking); in general, most respondents consumed only one serving of vegetables and fruits a day, 65% of respondents stated that they consumed poultry meat the most, 42.5% consumed fish and seafood very rarely or not at all and 41% only once a week, 28.4% consumed sweets and pastries daily and only 15.8% very rarely or not at all, and 40% consumed dairy products daily. Related to food consumption, 27.2% of respondents said they ate excessively during the pandemic and 30% of respondents said that during the pandemic they consumed healthier food. Culinary preferences were dominated by home-cooked food (79.9%), and only 21.5% of respondents declared they consumed ordered food and served at home.

According to the results of logistic regression analyses, presented in Table 3, we noticed a higher adherence to a healthy diet for older age groups compared with younger respondents (older age groups had higher RR values for a healthy diet compared to younger age groups, but they were not statistically significant). At the same time, the logistic regression model confirms a lower adherence of male respondents to a healthy diet compared with female respondents.

After processing the data, we observed that the majority of underweight and normal-weight persons were female respondents, while obese people were mainly male respondents (Figure 1). Regarding the tendency to increase body weight during the pandemic, we noticed that 34.7% of normal weight respondents said that they gained weight, while 49.7% of overweight people and 52.5% of obese people said that they gained weight (p ˂ 0.0001).

Regarding alcohol consumption, the respondents were divided into five groups according to the frequency of consumption: in group 1 were included the people who consumed alcoholic beverages the most frequently (one or more daily servings), while in group 5 were persons who consumed alcoholic beverages very rarely or not at all (Figure 2). We found that females who consumed alcohol the most often were of normal weight, while males who consumed alcohol the most often were from obese people (p = 0.0002). A high alcohol content of alcoholic beverages is correlated with a high caloric intake. In the present study, we could presume that either normal weight people consume low-alcohol drinks daily and in small quantities, or they were very active people so the additional caloric intake of alcohol was not excessive.

Thus, the restrictive measures imposed by the authorities reduced the infection rate, but the psycho-emotional pressure during the pandemic had a negative impact on the physical shape of the population and increased the obesity rate and therefore, the number of vulnerable people (Figure 3a).

From the analysis of the answers related to the appetite changes during the pandemic period (Figure 3b), we found that 32.4% of the normal-weight people stated that they had an increase in appetite, 33.6% of the overweight people and 39.2% of the obese people (p < 0.0001).

3.3. Lifestyle and Psycho-Affective Changes

Regarding a request for psychologist advice during the pandemic, only 8.13% of female respondents (p ˂ 0.02) and 5.2% of male respondents responded positively (Figure 4a).

The pandemic smokers were divided into four groups: in group 1 were included those who reported smoking daily, in group 2 those who smoked 2–3 times a week, in group 3 those who smoked occasionally and in group 4 non-smokers (Figure 4b). The processed data show that 23.77% of female respondents stated that they smoked daily and 35.41% of male respondents (p < 0.0001). From the data processing we found that in general, in all four groups, the most affirmative responses related to the frequent presence of nervousness in the pandemic period were recorded among female respondents.

Depending on the duration of sleep during the pandemic period, the respondents were divided into four groups (Figure 4c): in group 1 were included people who said they had frequent insomnia (7.3% of females and 4.68% of males in the group), group 2 included people who said they slept less than seven hours a night, group 3 included people who said they slept between 7 and 9 h a night (61.47% of females and 56% of males in the group) and group 4 included people who said they slept more than 9 h a night (p = 0.0002). From the analysis of the recorded answers, we found that the people who declared that they presented frequent states of fatigue during the pandemic period were mainly from the female respondents and especially from the groups of those who rested either too much or too little during the night. Overall, 40.23% of female respondents stated that they frequently experienced fatigue during the pandemic and 24.82% of male respondents stated that they frequently had fatigue (p < 0.0001).

Regarding psycho-emotional behavior during the pandemic period (Figure 4d), 23.63% of the female respondents stated that they had frequent states of anxiety and among the male respondents 12.67% stated that they had frequent states of anxiety; 11.81% of the women surveyed stated that they frequently had depressive states during the pandemic period and 11.63% of the men stated that they frequently presented depressive states during the pandemic (p = 0.005). Less than half of the people who frequently presented anxiety and depression sought the advice of specialists. Additionally, from the answers received, we found that the percentage of people who often had anxiety, depression, and nervousness increased during the pandemic by up to 20%.

From the collected data it was noted that 47.47% of females said they did not yet intend to be vaccinated against COVID-19, while 26% said they had been vaccinated with one or two doses (p < 0.0001); 37% of males participating in the survey said they did not currently intend to be vaccinated and 25% said they had been vaccinated with one or two doses (Figure 5a).

Regarding the flu vaccination, 17.34% of female respondents (p = 0.758) and 18.05% of male respondents said they got the flu vaccine (Figure 5b).

Among the most consumed food products in the pandemic compared with the previous period, according to the answers in the questionnaire, were: fresh fruits and vegetables, sweets, coffee and tea, homemade bread and pastries, and dairy products (Figure 6).

On the other hand, among the least consumed food products in the pandemic compared with the previous period were fast food products and snacks, industrial bakery products and soft drinks (Figure 7).

During the pandemic period, 13.8% of the respondents stated that they added one or more main meals, 15.6% added one or more snacks between meals and 57.5% stated that they consumed between one and two liters of water per day.

The purchase of food and household products was mainly made from supermarkets (68.5%) and shops near the house. Although the majority of respondents came from young and active people, we found that only a small percentage (19.9%) said they bought products online (Figure 8).

Among the most purchased products during the pandemic period were: staple foods (sugar, flour, rice, oil, water, bread, pasta), vegetables and fruits, disinfectants and cleaning products, meat and sausages (Figure 9). Related to the decision to buy food 75.1% of the respondents stated that when purchasing a food product, they had taken into account mainly the quality and nutritional value.

Regarding the quality of life during the pandemic, 57.9% of the respondents stated that it was depreciated due to social distance. In fact, 74.7% respondents said that they lacked freedom of movement and 63.3% had difficulties in communication with family and friends (Figure 10). Among the behavioral changes produced by the COVID-19 pandemic, we particularly noted: monitoring health (30.3%) and adopting a more understanding attitude towards others (28.3%). However, there were also people who stated that they were isolated from others (18.3%).

The way of spending the holidays also underwent major changes; 49.3% of the respondents stated that they did not go on vacation and 38.9% said that they traveled much less than in the period before the pandemic.

The majority of respondents (61.7%) said they were clinically healthy (Figure 11). Of the 2040 who answered the questions, 315 (15.4%) stated that they did not know if they suffered from any disease, which means that they were not used to regularly monitoring their health. Only 5% of those surveyed stated that they were obese but after the processing of anthropometric data we found that the percentage of obese participants was double (Figure 11, Table 1), which means that half of them had not realized that they were not normal weight. During the current pandemic context, 64.8% of respondents said that they feared more for the health of those close to them and only 25.9% said that they feared for their health.

During the pandemic 75.4% of respondents said they spent most of their free time watching movies and TV shows (Figure 12). Among the favorite ways to spend free time during the pandemic were meetings with family or friends, reading and outdoor activities.

4. Discussion

The COVID-19 pandemic brought significant changes in people’s lifestyle, diet, and in psycho-emotional behavior. However, on the other hand, the fear for one’s own health and those close to oneself determined the closer monitoring of one’s health, paying more attention to the quality and nutritional value of food, and also to personal hygiene.

The interest in purchasing fresh fruits and vegetables during the COVID-19 pandemic, as an improvement in nutritional habits, was also highlighted by similar studies carried out in Romania, Italy and Spain. Up to 40% of the respondents stated they had a significant increase in their intake of heathy foods, with positive effects on tone and health [45,46]. Additionally, the studies revealed that the adult population is yet far from attaining, and moreover preserving, healthy eating behaviors. Permanent eating habits are difficult to maintain and there is still a great share of the population that did not report positive consequences in eating behavior.

The viral infection and its consequences are just part of the negative impact of the COVID-19 pandemic. Changes in eating habits related to lockdown, leading to increased intake of sugars, fats, and salt, and also overeating in response to negative feelings, were observed by studies carried out in different countries [47,48].

If in countries with a Mediterranean diet such as Italy and Spain it was found that during the pandemic the population paid special attention to the nutritional quality of food [49,50], realizing the need to improve the diet to strengthen the immune system, the Romanian population needs to improve both nutrition and lifestyle. The present study found a low consumption of vegetables and fruits, well below the ratio recommended by nutritionists, namely a daily consumption of three servings of vegetables and two servings of fruits. The majority of respondents who were accustomed to eating vegetables and fruits daily stated that the ration was one serving per day. Additionally, regarding the consumption of fish or seafood, the data of the study indicated a very low consumption trend, with most of the respondents stating that they usually consumed these foods very rarely or not at all. Nutritionists recommend consuming 2–3 servings of fish or seafood per week [51,52].

One solution would be to implement educational programs in the field of nutrition in schools and universities, as well as to intensify campaigns to promote a healthy lifestyle in the media. However, we note that nutritional counseling is needed to increase the population’s focus on a healthy lifestyle to strengthen immune function and prevent metabolic disorders. In general, people are aware of the need to improve the quality of food, but the application in practice is deficient.

In terms of lifestyle improvement, there is a need to implement programs to combat sedentary lifestyles. The pandemic has generally restricted the possibility of playing sports in gyms [53], but the data collected in this study show a reduced tendency to practice sports both before and during the pandemic. This is all the more worrying as the vast majority of respondents were young and active people. According to the rules of healthy living, it is recommended to practice a minimum of thirty minutes of physical exercise daily. A sedentary lifestyle has now become one of the major causes of obesity and its implications [54].

The restriction of freedom of movement led to social distancing, nervousness, anxiety, depression, and compulsive eating for some people, and therefore to the depreciation of the quality of life. Many people do not realize that they need specialized care for their worsening psycho-emotional state and health.

There is a need for counseling and help for vulnerable people to cope with the new changes, in the current context.

The deterioration of the psycho-emotional state caused by the perceived pandemic in the present study is also highlighted by numerous other similar studies undertaken in various regions of the world [55,56].

From the data collected based on the questionnaire, we found that there was a deterioration of the psycho-emotional state among the respondents caused by the pandemic. Given that the majority of respondents came from the working population, we can draw attention to the need for specialist support, especially in companies with many employees and in universities, to improve mental health, as indicated by similar articles [57,58,59].

The pandemic period also brought significant changes in the way we spend our free time, the vast majority of respondents stating that they usually spend their free time watching TV, and in terms of how they spend their vacation, with almost half saying that they have not traveled.

A lower vaccination rate at national level as well as a reduced adherence to a healthy diet and a reduced tendency to periodically assess the state of health among the Romanian population are one of the important causes that have led to an increase in the mortality rate for infections caused by SARS-CoV-2 virus compared to other European countries [18]. Many patients have stayed at home without contacting a health care professional until the aggravation of the disease. It is necessary to implement educational programs in the medical field at the national level in order to raise awareness among the population of the importance of a healthy lifestyle, a balanced diet and regular monitoring of health to prevent metabolic disorders, strengthen the immune system and functioning of the body in optimal conditions.

The limitations of the study: Although the distribution of the questionnaire did not limit the participation only for persons under 18 years of age, in the sample surveyed the percentage of males and persons over 65 years of age was quite low. In the case of the elderly, the reduced participation is explained by the fact that the dissemination of the questionnaire was carried out among active people through institutional emails. Regarding the low percentage of male respondents, an explanation could be their lower availability to complete the questionnaire.

5. Conclusions

In the present study, which included 2040 respondents, we analyzed several aspects of daily habits among the population of Romania during one year of the pandemic, compared with the period before. The respondents were mainly from the active population, especially young students or employees in private companies. Following data processing, a number of important changes were found, some with a positive impact, and others with a negative impact.

Positive impacts: The increase in home cooking and healthy food consumption, especially vegetables and fruits. Increased attention to the health and well-being of those close to them.

Negative impacts: Increased incidence of overweight or obese, and the limitation of human interactions with psychological consequences. Some respondents declared sleep problems, depression, anxiety, fatigue, increased alcohol consumption, cigarette smoking or compulsive eating. The overloads of the health system have also generated a limitation of the population’s access to basic medical services.

Author Contributions

Conceptualization, V.N. and M.M.; methodology, M.G.; software, T.I.S.; validation, M.M., D.I.U. and N.D.G.; formal analysis, D.D.; investigation, S.M.N.; resources, C.E.D.-P.; data curation, G.S.; writing—original draft preparation, M.M.; writing—review and editing, E.O.; visualization, D.I.U.; supervision, G.S.; project administration, V.N. and M.M.; funding acquisition, S.M.N. and E.O. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Questionnaire regarding changes in lifestyle and eating habits of Romanian population during COVID-19 Pandemic

Personal data

1.: Please mention your age (in years):
2.: Please mention your gender:

Male
Female

3.: Please mention your place of current residence:

Town
Commune/Village

4.: Please mention your employment status during the pandemic:

Unemployed
Socially assisted
Retired
Student
Housewife
I’m going to work as usual
Working from home
Hybrid work (teleworking and commuting)
I had my job temporarily suspended due to the pandemic
Anthropometric data

5.: Please state your weight (in kg):
6.: Please mention your height (in cm):
Current eating habits:

7.: What is the main type of dietary fat used?

Sunflower oil
Olive oil
Lard
Butter
Margarine

8.: How many servings of vegetables (approx. 100 g) do you eat each day?

Very rarely or not at all
One
Two
Three
More than three

9.: How many servings of fruit (approx. 100 g) do you eat each day?

Very rarely or not at all
One
Two
Three
More than three

10.: How often do you eat meat?

Very rarely or not at all
Daily
Once a week
Twice a week
More than two times a week

11.: How often do you consume carbonated or sweetened beverages (1 serving = 330 mL, a glass)?

Very rarely or not at all
Daily
Once a week
Twice a week
More than 2 times a week

12.: How often do you drink alcohol (1 glass of wine = 125 mL, 1 glass of spirit = 50 mL)?

Very rarely or not at all
One serving daily
More than one serving a day
Once a week
Twice a week
More than 2 times a week

13.: How often do you eat fish or seafood?

Very rarely or not at all
Daily
Once a week
Twice a week
More than 2 times a week

14.: How often do you consume sweets/pastries?

Very rarely or not at all
Daily
Once a week
Twice a week
More than 2 times a week

15.: How often do you eat pasta, rice or other cereals?

Very rarely or not at all
Daily
Once a week
Twice a week
More than 2 times a week

16.: How much bread do you eat each day?

Very rarely or not at all
4 slices
5–7 slices
8–12 slices
More than 12 slices

17.: How often do you consume dairy products?

Very rarely or not at all
Daily
Once a week
Twice a week
More than 2 times a week

18.: How many eggs do you eat per week?

Very rarely or not at all
1–2 eggs
3–5 eggs
More than 5 eggs

19.: Did you change your lifestyle and eating habits during the pandemic?

Not
Yes, they got worse
Yes, they improved

20.: Which of these foods and beverages have you been consuming more during the pandemic, than before?

Fresh fruits and vegetables
Pasta and cereals
Homemade bread/homemade pizza/homemade pastries
Commercial bakery products
Fast food products
Snacks
Sweets
Ham and processed meat (sausages)
Dairy products/cheese/milk and yogurt
Eggs
Fish/seafood
Frozen products
Cans
Meat
Coffee/Tea
Natural juices
Sugar or sweeteners
Carbonated or sweetened non-alcoholic beverages
Alcoholic beverages: sparkling drinks/wine, beer, etc.
None

21.: Which of the following foods and beverages have you been consuming less during the pandemic, than before?

Fresh fruits and vegetables
Pasta and cereals
Homemade bread/homemade pizza/homemade pastries
Commercial bakery products
Fast food products
Snacks
Sweets
Ham and processed meat (sausages)
Dairy products/cheese/milk and yogurt
Eggs
Fish/seafood
Frozen products
Cans
Meat
Coffee/Tea
Natural juices
Sugar or sweeteners
Carbonated or sweetened non-alcoholic beverages
Alcoholic beverages: sparkling drinks/wine, beer, etc.
None

22.: Have you changed the number of daily meals during the pandemic?

No
Yes, I missed one or more main meals (breakfast, lunch, dinner)
Yes, I missed one or more snacks between meals
Yes, I added one or more of the main meals
Yes, I added one or more snacks between meals

23.: How much water do you drink a day?

Under 1 L
1 L–2 L
Over 2 L
Lifestyle changes

24.: How do you mainly buy your food and essential products during the pandemic?

I don’t go shopping, I turn to other people
Central Market/Supermarket
Grocery store near the house
Online shopping

25.: Which of the following products do you most frequently buy during the pandemic?

Vegetables and fruits
Basic foods: oil, sugar, flour, rice, bread, water, pasta
Fast food products
Canned and frozen products
Meat and sausages
Fish and seafood
Alcoholic beverages
Cigarettes
Coffee
Sweets/snacks
Disinfectants/cleaning products

26.: When you buy food, what matters most?

The price
Nutritional value and quality
Promotional offers

27.: Do you think that during the COVID-19 pandemic you eat more than necessary?

No, I consume rationally enough
No, I eat less
Yes, I overeat

28.: Do you consider that you eat healthier foods during the COVID-19 pandemic?

No, due to lack of money
No, due to lack of food or inability to get it
No, because I haven’t changed my eating behaviour at all
No, because of the fast pace of life
Yes

29.: During the COVID-19 pandemic, you consumed more than before:

Home cooked food
Cold food: canned food, sausages
Food ordered and served at home
Fast food products
Pastry

30.: Did you smoke before the pandemic?

No
Yes, every day
Yes, 2–3 times a week
Yes, occasionally

31.: Do you currently smoke?

No
Yes, every day
Yes, 2–3 times a week
Yes, occasionally

32.: How many hours a night did you usually sleep before the COVID-19 pandemic?

7–9 h a night
Over 9 h a night
Less than 7 h a night
I had frequent insomnia

33.: How many hours a night you currently sleep?

7–9 h a night
Over 9 h a night
Less than 7 h a night
I have frequent insomnia

34.: Did you exercise/practice sports before the COVID-19 pandemic?

No
Yes, every day
Yes, 2–3 times a week
Yes, rarely

35.: During the COVID—19 pandemic do you exercise/practice sports?

No
Yes, every day
Yes, 2–3 times a week
Yes, rarely

36.: Where do you exercise/play during the COVID-19 pandemic?

At home
Outdoor
Gym
I don’t exercise/practice sports

37.: Are you tired during the pandemic?

Yes, frequently
Yes, rarely
No

38.: Have you noticed any changes in your feeling of hunger or satiety during the pandemic?

No
Yes, I have less appetite
Yes, I have more appetite

39.: Did you notice a change in weight during the COVID-19 pandemic?

No, my weight is stable
Yes, I think I lost weight
Yes, I think I gained weight
I don’t know

40.: Do you have anxiety during the pandemic?

Yes, frequently
Yes, rarely
No

41.: Did you have anxiety before the COVID-19 pandemic?

Yes, frequently
Yes, rarely
No

42.: Have you been feeling depressed during the pandemic?

Yes, frequently
Yes, rarely
No

43.: Had you been feeling depressed before the COVID-19 pandemic?

Yes, frequently
Yes, rarely
No

44.: Have you been experiencing nervousness, irascibility during the pandemic?

Yes, frequently
Yes, rarely
No

45.: Were you nervous before the COVID-19 pandemic?

Yes, frequently
Yes, rarely
No

46.: Do you need the advice of a psychologist or psychiatrist during the pandemic?

Yes
No

47.: How do you think the quality of life changed during the pandemic?

It improved
It depreciated due to declining revenues
It depreciated due to job loss
It depreciated due to social distancing
It has deteriorated due to impaired health
It hasn’t changed at all

48.: What did you miss most during the pandemic?

Freedom of movement
Access to quality food
Access to medical services
Communication with loved ones
Nothing

49.: Have you been infected with COVID-19?

Yes
No
I don’t know

50.: Have you self-isolated (quarantined) due to COVID-19 infection?

Yes
No
I was not infected with COVID—19

51.: Have you had the flu shot in the last 6 months?

Yes
No

52.: Did you get the vaccine against COVID-19?

Yes, a dose
Yes, one dose but I refused the second dose
Yes, two doses
No, because I didn’t have access to it
No, because I don’t want to get vaccinated right now

53.: Were you satisfied with the quality of medical services during the pandemic?

No, I was dissatisfied with the quality of medical services
No, I was unhappy with the limited access to medical services
Yes, I was satisfied with the quality of medical services
I did not need medical services during the pandemic
I avoided access to medical services during the pandemic even though I needed to

54.: What do you think are the most important changes caused by the COVID-19 pandemic on your lifestyle?

I consider that I have started to adopt a healthier lifestyle, I rest more, I eat healthier
I monitor my health more closely
I became more sympathetic with people around me
I isolated myself from those around me
My health has been deteriorated
The quality of life has been deteriorated
Nothing changed during the pandemic

55.: Are you afraid of COVID-19 infection?

Yes, I’m afraid for those close to me
Yes, I’m afraid for my health
I’m not afraid at all

56.: What type of chronic conditions do you have? (several variants)

Hypertension
Cardiovascular diseases
Diabetes
Obesity
Lung diseases
Kidney disease
Autoimmune diseases
Gastric disorders
Liver disease
Other
I’m clinically healthy
I don’t know

57.: How did you spend your free time during the pandemic?

Watching movies and TV shows
Reading
DIY
With family or friends
Outdoor activities
Other

58.: Did you leave for vacations during the pandemic?

Yes, as usual
Yes, more than before the pandemic
Yes, less than before the pandemic

References

Baldwin, R.; Weder di Mauro, B. Introduction. In Economics in the Time of COVID-19; Baldwin, R., Weder di Mauro, B., Eds.; CEPR Press: London, UK, 2020. [Google Scholar]
Eichenbaum, M.S.; Rebelo, S.; Trabandt, M. The Macroeconomics of Epidemics; NBER Working Paper Series; Working Paper 26882; National Bureau of Economic Research: Cambridge, MA, USA, 2020; Available online: https://www.nber.org/papers/w26882.pdf (accessed on 4 October 2021).
World Bank. Europe and Central Asia Economic Update, Spring 2020: Fighting COVID-19; World Bank: Washington, DC, USA, 2020; © World Bank. License: CC BY 3.0 IGO; Available online: https://openknowledge.worldbank.org/handle/10986/33476 (accessed on 4 October 2021).
ILO. Monitor 1st Edition, COVID-19 and the World of Work: Impact and Policy Responses, 18 March 2020. Available online: www.ilo.org (accessed on 4 October 2021).
ILO. Social Protection Responses to the COVID-19 Crisis around the World: Updated on 06 April 2020. Available online: https://www.ilo.org (accessed on 6 October 2021).
IMF. World Economic Outlook, April 2020: Chapter 1. Available online: https://www.imf.org (accessed on 6 October 2021).
Gadermann, A.C.; Thomson, K.C.; Richardson, C.G.; Gagne, M.; McAuliffe, C.; Hirani, S.; Jenkins, E. Examining the impacts of the COVID-19 pandemic on family mental health in Canada: Findings from a national cross-sectional study. BMJ Open 2021, 11, e042871. [Google Scholar] [CrossRef]
Lancet Child Adolescent Health. Pandemic school closures: Risks and opportunities. Lancet Child Adolesc. Health 2020, 4, 341. [Google Scholar] [CrossRef]
Bradbury-Jones, C.; Isham, L. The pandemic paradox: The consequences of COVID-19 on domestic violence. J. Clin. Nurs. 2020, 29, 2047–2049. [Google Scholar] [CrossRef] [Green Version]
Jackson, D.; Bradbury-Jones, C.; Baptiste, D.; Gelling, L.; Morin, K.; Neville, S.; Smith, G.D. Life in the pandemic: Some reflections on nursing in the context of COVID-19. J. Clin. Nurs. 2020, 29, 2041–2043. [Google Scholar] [CrossRef] [Green Version]
Biroul Regional al Fondului Naţiunilor Unite pentru Copii (UNICEF). Pentru Europa şi Asia Centrală 2020—Crearea unor Sisteme de Educaţie Reziliente în Contextul Pandemiei de COVID-19: Considerente Pentru Factorii de Decizie de la Nivel Naţional, Local şi de Unitate Şcolară. Available online: https://www.unicef.org/romania/ (accessed on 7 October 2021).
National Agency for Equal Opportunities for Women and Men. Available online: https://anes.gov.ro/?s=covid (accessed on 7 October 2021).
Onyeaka, H.; Anumudu, C.K.; Al-Sharify, Z.T.; Egele-Godswill, E.; Mbaegbu, P. COVID-19 pandemic: A review of the global lockdown and its far-reaching effects. Sci. Prog. 2021, 104, 00368504211019854. [Google Scholar] [CrossRef]
Singh, S.; Roy, D.; Sinha, K.; Parveen, S.; Sharma, G.; Joshi, G. Impact of COVID-19 and lockdown on mental health of children and adolescents: A narrative review with recommendations. Psychiatry Res. 2020, 293, 113429. [Google Scholar] [CrossRef]
Usher, K.; Bhullar, N.; Jackson, D. Life in the pandemic: Social isolation and mental health. J. Clin. Nurs. 2020, 29, 2756–2757. [Google Scholar] [CrossRef] [Green Version]
Rippe, J.; Foreyt, J.P. COVID-19 and Obesity: A Pandemic Wrapped in an Epidemic. Am. J. Lifestyle Med. 2021, 15, 364–365. [Google Scholar] [CrossRef]
Belanger, M.J.; Hill, M.A.; Angelidi, A.M.; Dalamaga, M.; Sowers, J.R.; Mantzoros, C.S. COVID-19 and disparities in nutrition and obesity. N. Engl. J. Med. 2020, 383, e69. [Google Scholar] [CrossRef]
COVID-19 DATE LA ZI. Available online: https://datelazi.ro/ (accessed on 11 October 2021).
Stults-Kolehmainen, M.A.; Sinha, R. The effects of stress on physical activity and exercise. Sports Med. 2014, 44, 81–121. [Google Scholar] [CrossRef]
The Association of Physicians of Indian Origin (AAPI). AAPI’S Nutrition Guide to Optimal Health Using Principles of Functional Medicine & Nutritional Genomics Part III. 2017. Available online: https://www.aapiusa.org/wp-content/uploads/2020/04/ (accessed on 11 October 2021).
EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA). Guidance on the scientific requirements for health claims related to the immune system, the gastrointestinal tract and defence against pathogenic microorganisms. EFSA J. 2016, 14, 4369. [Google Scholar]
Calder, P.C. Nutrition, immunity and COVID-19. BMJ Nutr. Prev. Health 2020, 3, 74–92. [Google Scholar] [CrossRef]
Calder, P.C. Feeding the immune system. Proc. Nutr. Soc. 2013, 72, 299–309. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Gombart, A.F.; Pierre, A.; Maggini, S. A review of micronutrients and the immune System—Working in harmony to reduce the risk of infection. Nutrients 2020, 12, 236. [Google Scholar] [CrossRef] [Green Version]
Maggini, S.; Pierre, A.; Calder, P. Immune function and micronutrient requirements change over the life course. Nutrients 2018, 10, 1531. [Google Scholar] [CrossRef] [Green Version]
Cena, H.; Calder, P.C. Defining a healthy diet: Evidence for the role of contemporary dietary patterns in health and disease. Nutrients 2020, 12, 334. [Google Scholar] [CrossRef] [Green Version]
US Department of Health and Human Services; U.S. Department of Agriculture. 2015–2020 Dietary Guidelines for AMERICANS, 8th ed.; 2015. Available online: http://health.gov/dietaryguidelines/2015/guidelines/ (accessed on 11 October 2021).
Mititelu, M.; Stanciu, T.I.; Udeanu, D.I.; Popa, D.E.; Drăgănescu, D.; Cobelschi, C.; Grigore, N.D.; Pop, A.L.; Ghica, M. The impact of COVID-19 lockdown on the lifestyle and dietary patterns among romanian population. Farmacia 2021, 69, 1–11. [Google Scholar] [CrossRef]
Grivennikov, S.I.; Greten, F.R.; Karin, M. Immunity, inflammation, and cancer. Cell 2010, 140, 883–899. [Google Scholar] [CrossRef] [Green Version]
Ioniţă, A.C.; Ghica, M.; Moroşan, E.; Nicolescu, F.; Mititelu, M. In vitro effects of some synthesized aminoacetanilide n’-substituted on human leukocytes separated from peripheral blood. Farmacia 2019, 67, 684–690. [Google Scholar] [CrossRef]
Varlas, V.N.; Borș, R.G.; Năsui, B.A.; Mititelu, M.; Gheorghiu, A.R.A.; Pop, A.L. Key points in fertility preservation treatment strategies during covid-19 pandemic. an update on pharmacological therapies. Farmacia 2021, 69, 189–199. [Google Scholar] [CrossRef]
Tchounwou, P.B.; Yedjou, C.G.; Patlolla, A.K.; Sutton, D.J. Heavy metal toxicity and the environment. Exp. Suppl. 2012, 101, 133–164. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Ali, H.; Khan, E.; Ilahi, I. Environmental Chemistry and Ecotoxicology of Hazardous Heavy Metals: Environmental Persistence, Toxicity, and Bioaccumulation. J. Chem. 2019, 2019, 6730305. [Google Scholar] [CrossRef] [Green Version]
Năstăsescu, V.; Mititelu, M.; Goumenou, M.; Docea, A.O.; Renieri, E.; Udeanu, D.I.; Oprea, E.; Arsene, A.L.; Dinu-Pîrvu, C.E.; Ghica, M. Heavy metal and pesticide levels in dairy products: Evaluation of human health risk. Food Chem. Toxicol. 2020, 146, 111844. [Google Scholar] [CrossRef] [PubMed]
Mititelu, M.; Ghica, M.; Ionita, A.C.; Moroşan, E. The influence of heavy metals contamination in soil on the composition of some wild edible mushrooms. Farmacia 2019, 67, 398–404. [Google Scholar] [CrossRef]
Lawshe, C.H. A quantitative approach to content validity. Pers. Psychol. 1975, 28, 563–575. [Google Scholar] [CrossRef]
Yusoff, M.S.B. ABC of Content Validation and Content Validity Index Calculation. Educ. Med. J. 2019, 11, 49–54. [Google Scholar] [CrossRef]
Deniz, M.S.; Alsaffar, A.A. Assessing the validity and reliability of a questionnaire on dietary fibre-related knowledge in a Turkish student population. J. Health Popul. Nutr. 2013, 31, 497–503. [Google Scholar] [CrossRef] [Green Version]
Hlavac, M. Stargazer: Well-Formatted Regression and Summary Statistics Tables. R Package Version 5.2.1. 2018. Available online: https://CRAN.R-project.org/package=stargazer (accessed on 15 July 2021).
Mair, P.; Wilcox, R. Robust Statistical Methods in R Using the WRS2 Package. Behav. Res. Methods 2020, 52, 464–488. [Google Scholar] [CrossRef]
Zhang, X.; Oluyomi, A.; Woodard, L.; Raza, S.A.; Adel Fahmideh, M.; El-Mubasher, O.; Byun, J.; Han, Y.; Amos, C.I.; Badr, H. Individual-Level Determinants of Lifestyle Behavioral Changes during COVID-19 Lockdown in the United States: Results of an Online Survey. Int. J. Environ Res. Public Health 2021, 18, 4364. [Google Scholar] [CrossRef]
R Core Team. R: A Language and Environment for Statistical Computing; R Foundation for Statistical Computing: Vienna, Austria, 2019; Available online: https://www.R-project.org/ (accessed on 15 July 2021).
Branca, F.; Nikogosian, H.; Lobstein, T. (Eds.) The Challenge of Obesity in the WHO European Region and the Strategies for Response; WHO Regional Office for Europe: Copenhagen, Denmark, 2007; ISBN 9789289014083. Available online: https://wellcomecollection.org/works/rxvygnsr (accessed on 15 July 2021).
Ashwell, M.; Gibson, S. Waist-to-height ratio as an indicator of early health risk: Simpler and more predictive than using a matrix based on BMI and waist circumference. BMJ Open 2016, 6, e010159. [Google Scholar] [CrossRef] [Green Version]
Nitu, I.; Rus, V.A.; Sipos, R.S.; Nyulas, T.; Cherhat, M.P.; Ruta, F.; Nitu, C.C. Assessment of Eating Behavior During the COVID-19 Pandemic Period. A Pilot Study. J. Interdiscip. Med. 2021, 6, 67–73. [Google Scholar] [CrossRef]
Mignogna, C.; Costanzo, S.; Ghulam, A.; Cerletti, C.; Donati, M.B.; de Gaetano, G.; Iacoviello, L.; Bonaccio, M. Impact of Nationwide Lockdowns Resulting from the First Wave of the COVID-19 Pandemic on Food Intake, Eating Behaviors, and Diet Quality: A Systematic Review. Adv. Nutr. 2021, nmab130. [Google Scholar] [CrossRef] [PubMed]
Pérez-Rodrigo, C.; Citores, M.G.; Bárbara, G.H.; Ruiz-Litago, F.; Sáenz, L.C.; Arija, V.; López-Sobaler, A.M.; Martínez de Victoria, E.; Ortega, R.M.; Partearroyo, T.; et al. Patterns of Change in Dietary Habits and Physical Activity during Lockdown in Spain Due to the COVID-19 Pandemic. Nutrients 2021, 13, 300. [Google Scholar] [CrossRef]
Filip, R.; Anchidin-Norocel, L.; Gheorghita, R.; Savage, W.K.; Dimian, M. Changes in Dietary Patterns and Clinical Health Outcomes in Different Countries during the SARS-CoV-2 Pandemic. Nutrients 2021, 13, 3612. [Google Scholar] [CrossRef]
Di Renzo, L.; Gualtieri, P.; Pivari, F.; Soldati, L.; Attina, A.; Cinelli, G.; Leggeri, C.; Caparello, G.; Barrea, L.; Scerbo, F.; et al. Eating habits and lifestyle changes during COVID-19 lockdown: An Italian survey. J. Transl. Med. 2020, 18, 229. [Google Scholar] [CrossRef] [PubMed]
Navarro-Pérez, C.F.; Fernández-Aparicio, Á.; González-Jiménez, E.; Montero-Alonso, M.A.; Schmidt-RioValle, J. Effects of COVID-19 lockdown on the dietary habits and lifestyle in a population in southern Spain: A cross-sectional questionnaire. Eur. J. Clin. Nutr. 2021. [Google Scholar] [CrossRef]
Agudo, A. Measuring Intake of Fruit and Vegetables. In Proceedings of the Joint FAO/WHO Workshop on Fruit and Vegetables for Health, Kobe, Japan, 1–3 September 2004; ISBN 9241592826. Available online: https://www.who.int/dietphysicalactivity/publications/f&v_intake_measurement.pdf (accessed on 11 January 2022).
Advice about Eating Fish. Available online: https://www.fda.gov/food/consumers/advice-about-eating-fish (accessed on 11 January 2022).
The Impact of COVID-19 on Sport, Physical Activity and Well-Being and Its Effects on Social Development. Available online: https://www.un.org/development/desa/dspd/2020/05/covid-19-sport/ (accessed on 11 January 2022).
Kaur, H.; Singh, T.; Arya, Y.K.; Mittal, S. Physical Fitness and Exercise During the COVID-19 Pandemic: A Qualitative Enquiry. Front Psychol. 2020, 11, 590172. [Google Scholar] [CrossRef]
Vuillier, L.; May, L.; Greville-Harris, M.; Surman, R.; Moseley, R.L. The impact of the COVID-19 pandemic on individuals with eating disorders: The role of emotion regulation and exploration of online treatment experiences. J. Eat. Disord. 2021, 9, 10. [Google Scholar] [CrossRef]
Dixit, A.; Marthoenis, M.; Arafat, S.M.Y.; Sharma, P.; Kar, S.K. Binge watching behavior during COVID 19 pandemic: A cross-sectional, cross-national online survey. Psychiatry Res. 2020, 289, 113089. [Google Scholar] [CrossRef]
Pedrosa, A.L.; Bitencourt, L.; Fróes, A.C.F.; Cazumbá, M.L.B.; Campos, R.G. Emotional, Behavioral, and Psychological Impact of the COVID-19 Pandemic. Front. Psychol. 2020, 11, 566212. [Google Scholar] [CrossRef]
Dutheil, F.; Mondillon, L.; Navel, V. PTSD as the second tsunami of the SARS-CoV-2 pandemic. Psychol. Med. 2020, 51, 1773–1774. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Zaka, A.; Shamloo, S.E.; Fiorente, P.; Tafuri, A. COVID-19 pandemic as a watershed moment: A call for systematic psy-chological health care for frontline medical staff. J. Health Psychol. 2020, 25, 883–887. [Google Scholar] [CrossRef] [PubMed]

Figure 1. BMI according to gender and age.

Figure 2. Alcohol consumption according to BMI and gender.

Figure 3. Perceptions regarding the changes in BMI during pandemic (a) and appetite changes (b) during pandemic according to BMI.

Figure 4. Lifestyle and psycho-affective changes. Persons requiring psychologist advice according to gender (a); smokers according to gender and nervousness/irascibility (b); tiredness related to sleeping habits according to gender (c); anxiety/depression according to gender (d).

Figure 5. Vaccination among individuals according to gender: COVID-19 (a) and flu (b).

Figure 6. Food consumed more in the pandemic time.

Figure 7. Food consumed less in the pandemic time.

Figure 8. Ways of purchasing food and household products in the pandemic time.

Figure 9. Products frequently purchased in the pandemic time.

Figure 10. Deficiencies caused by the pandemic restrictions.

Figure 11. Distribution of chronic diseases of respondents in the pandemic time.

Figure 12. Ways to spend free time in the pandemic period.

Table 1. Socio-demographic and lifestyle characteristics of participants (n = 2040).

Characteristics	n	%
Gender
Male	576	28.3
Female	1464	71.6
Age (years)
18–30	1166	57.5
31–50	684	33.5
51–65	155	7.6
>65	36	1.8
Residence areas
Urban areas	1598	78.1
Rural areas	442	21.9
Employment status
Unemployed	20	1.0
Socially assisted	0	0.0
Retired	65	3.2
Student	888	43.5
Housewife	43	2.1
I am going to work as usual	677	33.2
Working/studying from home	122	6.0
Hybrid work (teleworking and commuting)	180	8.8
I had my job temporarily suspended due to the pandemic	42	2.1
Body mass index (BMI)
Normal limits (18.5–24.9)	1179	57.7
Overweight category (25–29.9)	509	24.9
Underweight category (<18.5)	148	7.2
Obese (≥30)	204	9.9
Weight change during COVID-19
Weight is stable	811	39.8
Lost weight	328	16.1
Gained some weight	784	38.4
Do not know	117	5.7
Appetite change during COVID-19
No	1065	52.2
Less appetite	309	15.1
More appetite	666	32.6
Smokers during COVID-19
Yes	713	35.0
No	1327	65.0
Sports practitioners during COVID-19
Yes	1272	62.4
No	768	37.6
Alcohol consumer
Very rarely or not at all	1443	70.7
Daily	69	3.3
Moderate	528	26.00
Quarantined due to COVID-19 infection
Yes	539	26.4
No	1501	73.6
Quality of life changed during COVID-19
Improved	245	12.0
No changed	491	24.1
Deteriorated	1304	63.9
Diet
Healthy diet	102	5.0
Moderately healthy diet	1836	90.0
Unhealthy diet	102	5.0

Table 2. Adherence to a healthy diet according to gender in the pandemic time.

Variables	n	%
Gender—diet
Male—healthy diet	18	3.1
Male—moderately healthy diet	515	89.4
Male—unhealthy diet	43	7.4
Female—healthy diet	81	5.5
Female—moderately healthy diet	1328	90.7
Female—unhealthy diet	55	3.7

Table 3. Multinomial logistic regression expressed by risk ratio and standard error.

	Dependent Variable
	Healthy Diet (1)	Unhealthy Diet (2)
Age Group 31–50	1.176	0.708
Age Group 31–50	(0.232)	(0.249)
Age Group 51–65	1.302	0.309 *
Age Group 51–65	(0.393)	(0.611)
Age Group > 65	1.496	0.304
Age Group > 65	(0.760)	(1.033)
Gender Male	0.584 *	1.948 ***
Gender Male	(0.275)	(0.224)
BMI Group 1 Underweight	0.470	1.724
BMI Group 1 Underweight	(0.526)	(0.365)
BMI Group 3 Overweight	0.730	1.320
BMI Group 3 Overweight	(0.278)	(0.257)
BMI Group 4 Obese	0.854	1.380
BMI Group 4 Obese	(0.365)	(0.374)
Constant	0.063 ***	0.043 ***
Constant	(0.163)	(0.182)
Akaike Inf. Crit.	1572.672	1572.672

Note: * p < 0.1; *** p < 0.01.

Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

© 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).

Share and Cite

MDPI and ACS Style

Năstăsescu, V.; Mititelu, M.; Stanciu, T.I.; Drăgănescu, D.; Grigore, N.D.; Udeanu, D.I.; Stanciu, G.; Neacșu, S.M.; Dinu-Pîrvu, C.E.; Oprea, E.; et al. Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic. Nutrients 2022, 14, 504. https://0-doi-org.brum.beds.ac.uk/10.3390/nu14030504

AMA Style

Năstăsescu V, Mititelu M, Stanciu TI, Drăgănescu D, Grigore ND, Udeanu DI, Stanciu G, Neacșu SM, Dinu-Pîrvu CE, Oprea E, et al. Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic. Nutrients. 2022; 14(3):504. https://0-doi-org.brum.beds.ac.uk/10.3390/nu14030504

Chicago/Turabian Style

Năstăsescu, Valentin, Magdalena Mititelu, Tiberius Iustinian Stanciu, Doina Drăgănescu, Nicoleta Diana Grigore, Denisa Ioana Udeanu, Gabriela Stanciu, Sorinel Marius Neacșu, Cristina Elena Dinu-Pîrvu, Eliza Oprea, and et al. 2022. "Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic" Nutrients 14, no. 3: 504. https://0-doi-org.brum.beds.ac.uk/10.3390/nu14030504

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Menu

Food Habits and Lifestyle of Romanians in the Context of the COVID-19 Pandemic

Abstract

1. Introduction

2. Materials and Methods

2.1. Study Design

2.2. Questionnaire Validation

2.3. Statistical Analysis

3. Results

3.1. Socio-Demographic and Anthropometric Data

3.2. Current Eating Habits

3.3. Lifestyle and Psycho-Affective Changes

4. Discussion

5. Conclusions

Author Contributions

Funding

Institutional Review Board Statement

Informed Consent Statement

Data Availability Statement

Conflicts of Interest

Appendix A

References

Share and Cite

Article Metrics

Article Access Statistics

Further Information

Guidelines

MDPI Initiatives

Follow MDPI