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Article

Investigating Nutritional Behavior and Oral Health Habits among Adults and Children in Nοrth-Eastern Greece

1
Laboratory of Microbiology, Biotechnology and Hygiene, Department of Agricultural Development, Democritus University of Thrace, 68200 Orestiada, Greece
2
Department of Public Health, Region of Epirus, 47100 Arta, Greece
3
Department of Medicine, Democritus University of Thrace, Alexandroupolis University Hospital Microbiology Laboratory, 68100 Alexandroupolis, Greece
4
Laboratory of Hygiene and Environmental Protection, Department of Medicine, Democritus University of Thrace, 68100 Alexandroupolis, Greece
*
Authors to whom correspondence should be addressed.
Submission received: 6 January 2021 / Revised: 28 February 2021 / Accepted: 22 March 2021 / Published: 2 April 2021

Abstract

:
The importance of the oral microbiota is strictly linked to global human health. When imbalance of the oral microbiota occurs, and it is characterized by shifts in bacterial composition and diversity; a state called dysbiosis is settled. There is an increasing amount of scientific evidence that this condition is associated with oral diseases caries, gingivitis and periodontitis. Diet seems to be a key factor for oral and dental health, impacting upon the oral microbiota. In an attempt to clarify the role of diet, as well as other implicating risk factors predisposing to oral disease, in the present study we enrolled an urban area of north-eastern Greece. Socio-demographical as well as hygienic and nutritional habits of a target group consisting of adult and children were entered in our study through a survey. People of the studied area are less interested in preventive and other dental therapies. Children and adults are less interested in healthy eating, yet they often consume sugary foods and often outside of their main meal. The partial shifting to the standard of the Mediterranean diet and less to the standard of the western type foods is notable. It is important to raise the awareness of both children and adults through strategical campaigns and education on oral health, oral hygiene and the benefits of a balanced diet.

1. Introduction

The human body constitutes a composite network which is characterized by permanent interconnection and provides interesting aspects in the pathogenesis of multiple diseases [1,2]. Recent scientific data reported the importance of oral health for overall health [3,4]. New breakthroughs in technological approaches encompassing genome sequencing methodologies shed more light on the identification of the human microbiotas and their role [4,5].
Oral health is considered an integral part of general health as well as quality of life [6,7,8]. The most common oral diseases are caries and periodontal diseases [9,10], complex diseases of infectious nature, which are caused by the imbalance between the host and the host microorganisms of the biofilm in the oral cavity [11]. Caries and periodontal disease are multifactorial [4,12]. Both diseases present common risk factors, however with different pathophysiology. The most common risk factor for both diseases is nutritional and is related to fermentable carbohydrates, however their mechanisms are different [13].
Other common risk factors for caries and periodontitis are decreased salivary flow [14], rheumatoid arthritis [15], smoking [12], diabetes mellitus [16], mostly undiagnosed or uncontrolled, and obesity [17,18].
Occurrence of dental disease has been registered to be as high as 90% of the global population [19]. Edentulism following periodontal disease showed high prevalence in upper middle-income countries compared to high-income countries [19]. Differences in prevalence seem to be tightly related to hygienic habits, underlying non-treated disease, socio-economic conditions and national oral health public system-associated strategies [19]. Edentulism is also reported in old age [20] due to multiple age-related pathologies in frail elderly people.
Nutrition is closely related to oral health [21]. The World Health Organization (WHO) states the importance of malnutrition in global health [22]. Malnutrition equally includes under and over nutrition [22]. While over-nutrition is associated to metabolic disorders and diabetes, undernutrition seems to be associated to inchoate development of oral tissues and cavity [23]. Diet can induce shifts in the oral and gastrointestinal microbiota [24,25,26]. The profile of the oral microbiome used to identify microbial taxa is related to oral diseases by integrated analysis and host genome/omics information was evaluated in the frame of a global study [5]. Divergence in species diversity between saliva and plaque was observed to increase with dental disease severity [5]. Saliva seems to influence the maintenance of a healthy oral microbiota [5]. As is known, oral plaque upon fermentable carbohydrate intake is characterized by a rapid pH decrease impacting on the oral microbiota [27], which is a dynamic system with interconnected metabolic networks and activities in space and time [2]. While pH decrease after a sugar intake has been known for 80 years already [28], recent research with in vivo and in vitro studies showed that this pH decrease is not, as thought, exclusively related to Lactobacillus acidophilus and Streptococcus mutans but to the global microbiota species that induce excess acid production and tooth demineralization [29].
Oral Health Related Quality Of Life (OHRQOL) is a concept developed by the WHO around 30 years ago, yet it still remains relevant [30]. Since then, multiple conceptual models of improved OHRQOL were developed [31,32], recommending the need for oral health to be appropriately defined as a system contributing to total health; the various variables influencing oral health outcomes need to be thoughtfully considered and methodological issues such as sensitivity, specificity, should properly addressed [33].
However, periodontal disease and dental caries did not match as classic clinical indicators of oral diseases for this new approach of health, as social-demographic issues and living status impact global health [33]. Globally, all the above scientific teams agreed that the absence of perceived need was the main reason for not visiting the dentist [34]. Alternatively, scientists tried to include all different parameters in the form of questionnaires [34].
From another aspect, oro-dental disease services are costly [35], especially when long untreated [36]. It is reported that the cost for treatment of dental caries exceeds those of treating cancer, osteoporosis and cardio-vascular diseases. The total economic burden of dental services expenditures remains as high as 10% of the total health services in developing as well as developed countries [37].
In this frame, our study aimed to clarify risk associated factors predisposing to oral disease based on health, socio-demographical and nutritional habits of adult and child populations in rural and urban Greece.

2. Material and Methods

A total of 576 people were enrolled in our study including 186 children and 390 adults.
As there is no standard questionnaire to assess oral health, we aimed to design an appropriate questionnaire for assessing oral health status in our target population. The questionnaire was designed for both groups: (a) children (completed by the aid of their parents) (Table 1) and (b) adults (Table 2) and distributed to a random sample of these populations. After explanatory discussion with the participants, the questionnaires were fulfilled and collected by us. As stated, questionnaires were completed exclusively by Children’s parents for the very young age (up to 8 years old) and thereafter from 9 to 17 years old in collaboration with the child. We secured anonymity as required by ethical issues as no name or identification data were reported on the questionnaires.
Our study was exclusively based on questionnaires and no clinical examination was performed in our target groups. Caries prevalence was calculated based on the percentage of positive cases and no Decay, Missing, Filled, Teeth (DMFT) and Significant Caries Index (SiC) clinical caries index was calculated as physical clinical examination was not performed.
Considering our objectives, the questionnaire was focused basically on perceiving oral health daily habits (brushing, mouth washing, flossing), oral health medical services (dental check-up at least once a year), oral diseases (gingivitis, periodontitis) and nutritional preferences (consumption of meat, milk, vegetables, fish, fruits, sugar or sugar substitutes, juices, soft drinks, energy drinks, spicy foods, water, gums). In this vein, responses were given in dichotomous questions, as well as multiple choice questions. Results were based on the answer to each specific question. Questionnaire qualitative and quantitative validity was explored initially by a group of university professors with experience in epidemiological and public health issues and later by 10 children with their parents who belong to the non-academic personnel of the department.
The target population includes participants living in the urban Evros areas (Alexandroupolis, Didymoteicho, Orestiada, Soufli). According to the 2011 census the population in Evros prefecture was 147,947. Based on a representative sample size [38] with a 50% population variance, 95% confidence level and 5 as a margin of error would involve at least 384 participants [39]. Respondents were approached in a random manner in public places (local markets, bus stops, schools during the pick-up time). Approximately 2 out of 10 individuals showed willingness to participate in the study. Finally, minors or their guardians with intellectual limitations which may impede correct understanding of the questionnaire were excluded.

3. Statistical Evaluation

We tabulated the data provided by our questionnaires and proceeded with calculations by the use of MS Excel 2010 version 14.0 (Microsoft Corporation, Redmond, WA, USA). We performed statistical analysis (descriptive quantitative research) by the use of SPSS Statistics software version 22.0 (IBM Corp. Released 2013. IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY, USA) at a 95% confidence interval.

4. Ethics

According to article 21 of Greek law 4521/2018 based on the Regulation (EU) 2016/679 of the European Parliament and of the Council of 27 April 2016 and according Directive 95/46/EC (General Data Protection Regulation) each Higher Educational Institute established and operates a Committee on Research Ethics (EHDE).
Since this study was completed before 2018 no approval from the EHDE was required, although all measures were taken to ensure the privacy of respondents (minors and adults). During the survey no data leading to the identification of any person were collected, no physical examination occurred, and minors always accompanied by their guardians.

5. Results

As stated, results of the questionnaires were evaluated based in each specific question. Results for each studied group population (adults and children) were evaluated separately.
Typical demographic and socio-economic characteristics, general health and oral health status as well as idiosyncratic behavioral habits and attitudes in items of oral health and nutritional preferences were evaluated. The resulting characteristics of the above were accompanied by useful correlations.

5.1. Demographics of the Studied Group

As stated, from the demographic data in Section 2 Material and Methods (Table 1), the sample size of children involved in the study was 186 children of which 99 were males (53.2%) and 87 were females (46.8%) aged from 1 to 17 years old. Questionnaires were completed exclusively by children’s parents for the very young age (up to 8 years old) and thereafter from 9 to 17 years old in collaboration with the child. Concerning the adult group, demographic data (Table 2) of 389 adults are reported; 148 males (38.1%), 241 females (61.9%), from 18 to 60 years old participated in our study.

5.2. Frequency and Type of Consumed Food by the Studied Group

In Table 3 the results of our research on the eating habits of the children group are presented. Most children involved in the study consume daily dairy products 73.1% (n = 133) and fruits 47.3% (n = 86), in contrast with low meat consumption 5.5% (n = 10) and rare fish consumption 0.6% (n = 1). Fishes are consumed usually once a week by a 50.8% (n = 92) and meat 2–3 times per week by 66.5% (n = 121). However, a considerable number of them (32.8%, n = 59) consume foods rich in sugars daily.
As shown in Table 4, adults in the study consume vegetables (52.9%, n = 202), fruits (48.4%, n = 185) and dairy products (51.6%, n = 197) daily, in contrast with low meat consumption (8.5%, n = 33) and rare fish consumption (0.5%, n = 2). Fishes are usually consumed once a week by 62.8% (n = 241) and meat 2–3 times per week (35.1%, n = 134). Foods rich in sugars were consumed daily (27.6%, n = 105) by the adult group.
In an attempt to evaluate the possible influence of residence of children with their oral health, we collected data from the questionnaires on their permanent residence comparing the urban Evros area to the other urban areas in Greece.

5.3. Oral Health Status of the Studied Group

It is reported (Table 5) that only 18.8 % (n = 34) of the total studied children residing in the urban Evros area had no oral disease, while dental caries (6.1%, n = 11), gingivitis (1.1%, n = 2) and periodontitis (5.5%, n = 10) were observed (Table 5). Children residing in other urban areas showed no oral disease (41.4%, n = 75), while dental caries (21.5%, n = 39), gingivitis (5.0%, n = 9) and periodontitis (6.1%, n = 11) were found to be increased.
Only 18.6% (n = 70) of the total studied adults residing in the Evros urban area had no oral disease, while dental caries (3.2%, n = 12), gingivitis (4.0%, n = 15) and periodontitis (1.3%, n = 5) were observed (Table 6). Adults residing in urban areas showed no oral disease (39.5%, n = 149), while dental caries (8.8%, n = 33), gingivitis (4.0%, n = 15) and periodontitis (1.3%, n = 5) were found to be increased. Moreover, in adults, orthodontic anomalies (1.6%, n = 6) and edentulism (9.5%, n = 36) were reported.

5.4. Nutritional Habits of the Studied Group

Children’s habits are presented in Figure 1, Figure 2, Figure 3, Figure 4, Figure 5, Figure 6 and Figure 7. In Figure 1, only 44% (n = 80) of the children express an interest in healthy eating and its application, while the remainder seem not to be interested in healthy eating (36.8%, n = 67) or find it difficult to implement (19.2%, n = 35).
Only 3.3% (n = 6) of the children expresses an interest in vegetarian diet, while 96.7% (n = 176) seem to not be interested in such a diet (Figure 2).
Most of the children (79.8%, n = 142) choose their food mostly following their preferences (i.e., everything they want) while the remaining seem to choose food based on their health problems (3.9%, n = 7) or to prevent future health problems (11.8%, n = 21) (Figure 3).
As can be seen from Figure 4, children consume food products following the buying habits of their parents, almost exclusively from local producers (10.4%, n = 19), supermarkets (72%, n = 131), or both (17.6%, n = 32).
A total of 28.9% (n = 52) of the children express an interest in organic foods while most of them (38.9%, n = 70) or rarely (32.2%, n = 58) do not consume such foods (Figure 5).
An increased number of children (75.6%, n = 136) have breakfast while only a few have breakfast occasionally (13.9%, n = 25) or none (10.6%, n = 19) (Figure 6).
Additionally, a high number of children (69.5%, n = 123) have a morning snack prepared from home, while only a few take snacks from canteens (15.3%, n = 27) or food kiosks (11.9%, n = 21) (Figure 7).
The dietetic habits and attitude of adults are reported in Figure 8, Figure 9, Figure 10, Figure 11, Figure 12 and Figure 13. The majority of adults (61.2%, n = 237) adopt a healthier nutrition (low fat, low sugar, more vegetables) while only a few are not interested (6.2%, n = 24) or have constraints to adopting it (32.6%, n = 126) (Figure 8).
A high number of adults (96.1%, n = 370) are not interested in a vegetarian diet while only a few are interested (3.9%, n = 15) (Figure 9).
In Figure 10, a high number of adults (70.1%, n = 272) have breakfast while only a few do have (13.9%, n = 54) or rarely have breakfast (16%, n = 62).
A considerable number of adults (46%, n = 178) have three meals per day, while only a few have one (2.6%, n = 10) or two (20.4%, n = 79) or more (31%, n = 120) (Figure 11).
The majority of adults choose their food based on their preferences (75.3%, n = 287), while 9.4% (n = 36) follow their health issues or choose in order to prevent a possible health issue (11.3%, n = 43) (Figure 12).
Most adults rarely consume organic food products (45.1%, n = 173) while only a few select them (30.2%, n = 116) and 24.7% (n = 95) never choose to buy such foods (Figure 13).

6. Discussion

As stated previously, the concept of OHRQOL is of an angular stone to shape oral health [35], dental practice and education [30]. The most popular approach is the one based on questionnaires as is the case of our research. The target group in our study was a randomly selected population of minors and adults from an area in NE-Greece.

6.1. Children Group

In our survey, from a total of 186 Greek children aged 1–17 years (99 boys and 87 girls) 91.8% showed excellent health, while only 1.5% received medication. Regarding the oral health in children, we observed that 18.8% of the target group had no disease, while 6.1% developed caries, 5.5% periodontitis and 1.1% gingivitis. Our results differ from those of another Greek study [40], where children aged 5 years had caries at a rate of 29%, children aged 12 years at a rate of 68% and children aged 15 years at a rate of 78%.
Sociodemographic parameters, residence area and parents’ education seem to maintain a capital role in the development of healthy eating habits, oral hygiene and prevalence of caries in children [40,41]. In a survey in 2004, gingivitis was observed in 5-year-old children (15.7%), 12-year-old children (41.5%) and 15-year-old children (30%) [40]. However, in 2013, an increase was observed in the 5-year-old children (28.6%), while a decrease was stated for the 12-year-old children (22.2%) and 15-year-old children (21%) [40]. Observed differences could be attributed to the fact that our research concerns only urban areas, where there is greater access to dental services and more information on oral health and oral hygiene. Our target children group had successfully implemented sealing (35.8%), teeth extractions (9.5%), denervation (4.7%) and cleaning cure (20.4%).
Prevalence of caries (50.3%) was reported under mixed dentition of twelve-year-old children [41], while a decrease was observed under permanent dentition (44.5%) as well as gingivitis at an increased rate (77%) [42] in 12-years-old children in north-western rural Kenya. Improper irregular oral hygiene and services due to the remote area and distance from medical services is stated together with missing education in oral health [42].
Research showed the high rate of dental caries in 6-year-old girls (68%) and boys (60%) but it was slightly lower in 12-year-old girls (63.6%) and boys (57.9%) due probably to oral health education and successful dental services.
Children involved in our study received fluoridation therapies (21.9%) and preventive coverings of holes and slits (7.7%). In addition, the educational level of the parents (50.5%) and the high (3.3%) or median family income (72%) were evaluated. Most children were informed on oral hygiene rules either by their doctors (70.4%), schools (13.3%), the internet (3.4%) or other (2.5%). Only 4.4% of children had absolutely no information.
Regarding the adoption of oral hygiene rules, children brushed their teeth 2–3 times a day (23%), once a day (55.2%), 1–3 times a week (12.6%) and never 3.3%. There is evidence that the female population show more interest in oral hygiene than the male population without fully applying all oral hygienic rules.
Another study which enrolled a rural child population showed that children who rarely brush their teeth (7.7%) have a similar rate to that in our study, but children that of who never brush is higher (12.6%) compared to our results [43]. High caries prevalence was associated with manganese and low iron concentrations in drinking water [43], independently of social and demographic status.
Slightly higher than ours results, 10-years old children were shown to brush their teeth (58.64%) twice a day [44], while these rates were lower in 12-year-old children (31%) and 15-year-old children (40.4%) in another study [45].
Preschool children of Sri Lanka recorded increased rates of brushing frequency as 80% brush their teeth twice a day, 15% once and 5% more than twice [46]. Despite this fact and the use of toothpaste with fluoride at a rate of 84%, caries’ prevalence appears high (65% in 5-year-old children). This has been attributed to poor eating habits and the absence of oral health promotion programs.
In our study children use fluoride toothpaste (69.8%) which provides protection against tooth decay by promoting the demineralization of the damaged enamel as well as inhibiting bacterial metabolism of sugars. However, additional oral hygiene measures such as dental solution (boys 28.7% and girls 32.9%) were limited. Studies [44] reported children using dental floss in much higher rates than our study (36.84%), while research has shown the complete absence of fluoride products on a daily basis [45].
Focusing on the dietetic habits, we perceive that the participating children (14.3% girls and 7.3% boys) skip breakfast, although this meal is considered the most important meal of the day, as it supplies the body with energy and nutrients to maintain our functions and activities. The famous words of the nutritionist and author Adelle Davis (1904–1974) are well-known: “Eat breakfast like a king, lunch like a prince and dinner like a poor man”. Breakfast intake is still associated with increased brain activity, school performance, attention, memory and mental health. The proportion of children in our survey who occasionally have breakfast (15.6% of boys and 11.9% of girls) is lower compared to those receiving regularly their breakfast meal (77.1% of boys and 73.8% of girls). Similarly, 81% of Brazilian children regularly have breakfast, 12% occasionally and only 7% do not receive any breakfast [47]. However, in this study, no difference was found in terms of gender or weight of children in contrast to our study, where girls skip breakfast more often than boys, probably due to improper habits for losing weight. Swedish adolescents are reported to skip breakfast at higher rates than in our country (20% of boys and 32% of girls) [48], while, similarly, in Switzerland (27% of boys and 24% of girls) young children skip breakfast [49]. Urban adolescents skip breakfast more frequently than children living in rural areas, as well as adolescents coming from families with low socioeconomic status.
Almost half of the studied children in our survey (53% boys and 46.8% girls) have a morning snack. The most common snacks are toast (34.6%) and fruit (21.4%), followed by cheese pie (8.8%) and, to a lesser extent, other types of products (cakes, buns, juice, pizza, sweets, etc.). It is encouraging that our children have adopted healthier choices as they have healthy snacks mostly prepared from home (73% of boys and 66.3% of girls) and less from the canteen (16.8% of boys). In contrast, morning snacks in the Scandinavian countries are common however unhealthy (soft drinks, cakes, buns, chips and ice cream) [50]. Another Greek survey [51] states that 85% of preschool children have a snack daily, 14% rarely and 1% never. Their results are in accordance with our study, as the snack is home-prepared (78%), while only few children (12%) have their snack from the canteen. As for the nature of the snack, they have mainly milk (37%), fruit (29%), juice (28%), toast (25%) and to a lesser extent other foods such as toast (55%), egg (51%), bread with honey (50%), a bun (48%), pie or fruit (43%) on a daily basis. Besides the differences in dietary preferences of children from those involved in our study, we must accept the healthy quality of their snacks.
Children involved in our study consume on dairy products a daily basis (73.1%), followed by fruits (47.3%), vegetables (35.2%) and sugary foods (32.8%). At lower rates, children consume nuts (14.9%), soft drinks (7.2%), meat (5.5%), fast food (2.2%) or fish (0.6%) daily. Meat is consumed in most cases 2–3 times a week (66.5%), fish once a week (50.8%), vegetables 2–3 times a week (39.6%), fast food products once a week (34.8%), nuts once a week (26%), sweets 2–3 times a week (38.3%) and finally soft drinks once a month (21.5%). Without any doubt, the high consumption of dairy products on a daily basis is encouraging which, due to their ingredients (calcium, phosphorus, casein, fats), protect against caries by inhibiting the attachment of Streptococcus mutans to dental surfaces, and also inhibit bone loss in periodontal disease.
Swiss teenagers seem to consume dairy products daily (80%), which is not far from our results. The same adolescents consume a very low percentage of fish every day (2% for girls and 3% for boys), however this is slightly higher than the proportion of children in our survey (0.6%). Consumption of vegetables is higher in dietetic habits of children in Switzerland (76% of girls and 59% of boys) compared to children in our study (35.2%). The same applies to the daily consumption of fruit (70% of girls and 45% of boys) compared to the children in our study (47.3%). Our results are almost in line with a Swedish study [50], in which fruits and vegetables make up 40% of the daily intake of 15-year-olds. In part, our findings are in agreement with those of another Greek team [52]. The study was undertaken on a national level and adolescents at least 40% were shown to consume of vegetables daily and 75% fruits, following the standards of the Mediterranean diet [52].
In the countries of Southern Europe, fast food products are consumed no more than once a week, while in the USA 20% of children consume such foods almost every day in restaurants. In our research only 2.2% of children consume fast food, however this is slightly higher compared to another study in our country (1%) [51]. According to this latter study, Greek children consume fast food 3–4 times a week (5%), 1–2 times a week (63%) and not at all (33%). In our research, children who do not consume such foods at all are found in a lower amount (16%), while they consume them 2–3 times a week (18.2%), once a week (34.8%) and once month (28.7%) as shown. Eating fast food has been implicated in the development of caries, but also many other health problems such as obesity, hypertension and cardiovascular disease. Undoubtedly, children are exposed to high intakes of sugars, fats and sodium.
Concerning sugary foods, in our study children consume lower sugar (32.8%) when compared with other Greek studies (53.2%) [43]. Moreover, 6.1% of the children in our survey do not consume any sugary food which is also lower compared to the mentioned study (10%). In accordance with our study, in Spain [53] children that never consume sugar are few (6.1%), while they do so during gathering with friends (73.8%) and on other occasions (17.8%). According to a Nestle Research Center study [54], the daily intake of sugary foods is close to our findings (27% of girls and 27% of boys). However, Swiss adolescents rarely consuming sugar foods (15% of girls and 10% of boys) are found in higher rates than in our study.
The consumption of sugary foods in our sample seems to be irrelevant to the main meal (66.3%), while children consume such foods after the meal (32.6%). This is detrimental, as proven studies have shown that sugary foods cause more caries when eaten between meals than immediately after a main meal. The amount and frequency of consumption of sugary foods play an important role in the development of caries. It is noteworthy that caries have a cumulative character with age and the effect of sugars on dental tissues is lifelong. Childhood is crucial for determining caries levels throughout a person’s life. In Romania [54], children seem to usually have meals with moderate carbohydrate intake (43.71%) more often than meals with high carbohydrate intake (30.31%). In fact, only 13.32% of the children consume carbohydrates more than seven times a day. It is stated that replacement of sucrose in foods and beverages by substitutes such as xylitol and other polyols which are reported to not cause carries could be a good dietary strategy. Without any doubt, it is crucial to raise the awareness of children, but also of parents on issues of healthy eating and oral hygiene.
In terms of eating habits, children outside Evros consume products rich in sugar 2–3 times a week or even daily, more frequent compared to the children in Evros. However, sugary foods consumption is not done during their meal. This explains the appearance of caries to a greater extent in children outside Evros. Sugar substitutes are not among the preferences of children both in Evros and outside Evros and they are consumed rarely inside Evros or outside Evros.
Children outside Evros have dairy products and fruits-vegetables included daily or 2–3 times a week in their diet compared to that of Evros. Fish is usually eaten once a week or less, while meat is consumed much more frequently. Children outside Evros living in bigger towns are always “ahead”, coupling healthy habits with unhealthy ones! Fast food products are consumed more frequently by children outside Evros, while children prefer healthy choices that refer to the model of the traditional Mediterranean diet; as a result of their education, they turn in parallel to Western eating habits promoted by advertisements and Western culture.

6.2. Adult Group

In our survey, from a total of a stratified cluster sample of 390 adults (148 men and 242 women) aged from 18 to more than 50 years old, 62.4% of them show excellent, 35% moderate, while only 2.6% serious health status. The most common diseases are diabetes, hypertension and thyroid disease and only 39.4% receive medication for different disease states. Regarding oral health in adults, we observed that 18.6% of our target group had no disease, while 3.2% developed caries, 4 % gingivitis and a lower percentage of 1.3% periodontitis or orthodontic abnormalities (1.6%). It is of note that the extracted teeth rate not replaced by prosthetic work (9.5%) was found to be considerable.
Nevertheless, in divergence with our study, research in adults aged 35–44 years and 65–74 years shows caries (99.3% and 99.9%, respectively) [40], while periodontitis and edentulism increase with aging, as shown similarly in our study.
High rates of caries are highlighted in Kosovan adults (72.80%) [55]. More specifically, the caries prevalence rates are 44.2% for adults 18–34 years old, 18.3% for 35–44 years old, 17.2% for 45–64 years old, 17.3% for 65–74 years old and finally 2.9% for 75 years old.
Prevailing caries rates observed in a Jordanian population reach 24%, which is comparable to our results [56], while 85% show one or more missing teeth, a significantly higher percentage than that observed in our research.
The rate of periodontitis in adults and the elderly in Germany seems to be higher than our study [57]. Those adults suffer from moderate periodontitis at a rate of 52.7% and severe periodontitis at a rate of 20.5%, while the corresponding rates for the elderly are 48% and 39.8%, respectively. Yet, the average number of missing teeth is 2.7% for adults and 14.2% for the elderly.
The oral health status in our adult target group appears to be better compared to other surveys either in our country or in other countries. As we have already pointed out, our research concerns only urban areas, where there is greater access to dental services and more information on oral health and oral hygiene. On one hand, 50.4% of the target adult group does not present any dental problem but, on the other hand, the interest of adults for dental therapy is remarkable, since 38.8% of occlusions, 12.3% of denervations, 14% of extractions and 20.4% of cleanings had been implemented. In addition, patients had undergone fixed prosthetic restorations with a predominance of bridges (50.3%) or crowns (23%) or implants (15.8%), while the percentage of removable dentures is lower (partial dentures at a rate of 7.3% and total dentures at a rate of 3.6%). Similarly, in most European countries half of the adult population wear any type of denture (removable or fixed). The percentage of adults who have removable dentures ranges from 13–29% with 3–13% of them having full dentures in both jaws, while the percentage who have fixed dentures ranges from 34% (Switzerland) to 45% (Sweden) [58]. In an adult study in France [58], it was found that fixed dental works (crowns, bridges) were required at a slightly higher rate (51.9%). Undoubtedly, in recent decades there has been an interest in preserving natural teeth as much as possible, resulting in reduced tooth decay, reduced use of complete dentures and a higher frequency of fixed prosthetic work.
In addition, the educational level of the adults’ target group was evaluated as high (40.6%), upper (25.1%) and average (23.7%) as well as the median family income (78.1%). These factors contribute positively to the improved picture of the oral health of adults included in our study. Yet, most adults were informed on oral hygiene rules either by their doctors (64.3%) or to a lesser extent by scientific speeches, the press, the internet and other sources. Lastly, only 5.7% of our adult target group had absolutely no information.
Regarding the adoption of oral hygiene rules [59], in our research adults brush their teeth 2–3 times a day (41.4%; women 46.7% vs. men 32.6%), once a day (50.3%; men 56.3% vs. women 46.7%) and 1–3 times a week (5.5%), rarely (2.1%) or never (0.8%). Women seem to be more interested in oral hygiene practices than men; however, despite adequate information, the sample does not fully apply the rules of oral hygiene. Research on young adults in Turkey [60] showed that they brush their teeth at a similar frequency to us of twice a day (44.2%), while a lower rate is reported for young adults brushing their teeth (30.8%) once a day. Women seem to care for their oral hygiene more frequently than men. The same conclusion was reached in a Polish study [61]; adults brush their teeth once a day (77%) which is much higher than our study group or never (20%). In Germany [57], a considerable sample of adults usually brush their teeth twice a day (72.8%) followed by the elderly (60.6%).
In our study, adult used fluoride toothpaste (78.6%); this provides protection against tooth decay. Notwithstanding, supplementary oral hygiene measures (47.2%) were limited. However, a study in Turkey [62] reported that adults never use additional oral practices such as dental floss (81%) or mouthwash (3%).
Regarding the frequency of visits to the dentist in our research, only 48.2% of the target adult group visit the dentist mainly when there is a serious oro–dental problem or pain and it was rarer for preventive reasons (25.3%). As in the case of children, this attitude indicates negligence or dentist fear and lack of awareness of the value of prevention or even inability to cover the cost of dental treatment due to the financial crisis. Our results are in line with those of another Greek study [40], which report that adults visit the dentist upon pain (47.4%), while few adults come to the dentist for preventive reasons (22.7%).
Another study stated [60] that Turkish adults visit the dentist when there is a problem (82.9%) and much less for preventive reasons (11.3%) every semester or every year (5.8%). In contrast, Polish adults [61] are more consistent in their visits to the dentist as they regularly visit their dentists every year (72%), every 6-11 months (17%) and rarely every six months (5%). However, both adults and the elderly in a German survey [55] appear to be in compliance with the schedule of visits to the dentist once a year at a rate of 76.1% and 72.2%, respectively.
Regarding the dietary habits of our adults’ group, most of them have breakfast daily (70.1%) or sometimes (16%), while 13.9% skip it. Similarly, most adults in the United States [63] seem to have breakfast daily (80.3%) and only few of them skip it (19.7%). UK adults showed a slightly different image [64]. Despite the assumption that English people consume “big fatty” breakfast, it is reported that only 64% have a breakfast daily, while 30% occasionally have breakfast and 6% never. As is known, skipping breakfast has been linked to poor nutrition, poor cognitive function [63] and health problems such as type 2 diabetes [65], obesity [66] and cardiovascular disease [67].
In our research, adults prefer to consume vegetables (52.9%), dairy (51.6%), fruits (48.4%), sugary foods (27.6%) and to a lesser extent other food on a daily basis. Besides sugary foods, foods included in their daily diet are considered healthy choices rich in nutrients with positive benefits for both oral health and overall health. In particular, their diet is based on meat (66.3%), nuts (29.1%) and foods rich in sugar (33.9%) which are consumed 2–3 times a week, while fish (62.8%) is consumed one time per week and less frequently fast-food products (35.1%) with soft drinks (20.9%) once a month.
Similarly, adults in Kenya consume daily vegetables (50.9%) but the daily consumption of fruits is quite low (15.3%) [68]. Adults in Ethiopia equally consume low amounts of fruits [69]. Lower fruits consumption is also stated for adults in Thailand (36.5%) in contrast to the percentage consumed of vegetables (68%), which is higher [70]. In an attempt to understand this attitude, as those countries are fruits-producers, we believe that low consumption of fruits in Africa and Asia must be explained by the high cost for local residents due to their low income and also to the need for “stuffy” feed for nutrition. Moreover, it seems to be correlated with sociodemographic factors and lack of education [69].
In contrast, older adults in Brazil seem to consume fruits and vegetables more than four times a week (south; 77.6%, north-east; 71.5%), as well as to consume dairy products every day (south; 86.3%, northeast; 65.7%) [71]. However, meat or fish consumption is listed as high—at least three times a week (98.7% and 90.7%, respectively) [71].
Finally, the consumption of sugary foods in our target group is independent to the main meal (68.3%), while adults equally consumed sugary foods after the meal (30.6%) or did not (1.1%). As we have already pointed out, the consumption of food regardless of the meal is detrimental for oral health. However, the development of caries is closely associated to the quantity and frequency of the intake of sugary foods. In this vein, the low rate of caries in adults can be justified (a) by the use of fluoride toothpaste, which consists of an effective measure for the prevention and control of caries and (b) by more frequent visits to the dentist (25.9%), during the last semester (31.4%) or the last year (22.8%). It is of note that the use of sucrose substitutes would be a good choice against caries, but only few people have acquired this habit in general (11.2%). It is then conceivable that more awareness of adults on issues of healthy eating and oral hygiene must be raised.
In terms of eating habits, adults outside Evros consume products rich in sugar more frequently compared to adults in Evros. Consumption does not occur during the main meal. This explains the appearance of caries to a greater extent in adults outside Evros. Sugar substitutes are not the favorite among the preferences of adults both in Evros and outside Evros.
Adults outside Evros consume dairy products on a daily basis compared to the adults of Evros. Similarly, fruits and vegetables are consumed more frequently by non Evros residents. Fish is consumed more rarely in both groups. Fast food products are consumed mainly once a month from adults outside Evros. Adults prefer healthy options in line with the traditional Mediterranean diet and are less likely to turn to Western-style eating habits like children.

7. Conclusions

Bacteria species typically associated with the oral microbiota have been found to be present in oral disease, which is a major public health challenge worldwide today. The most common oral diseases are caries and periodontal disease. At the end of the second decade of the 21st century, a decrease in the prevalence of caries and periodontal diseases was observed in Greek children and adults’ nutrition which seems to be in line with the standard of the Mediterranean diet which facilitates healthy choices (dairy, fruits, vegetables) on a daily basis. Foods rich in sugar are consumed exceptionally on a daily basis by few individuals. Sucrose substitutes are not used by a large sample of the population. Yet, Greek preferences are not focused on vegetarian diets or organic foods. Foods are purchased from local markets mostly in rural areas while in towns people use supermarkets.
The educational level of our sample was mostly higher or median education, while the family income was average. Both factors contribute to the improved clinical image of oral health. Regarding the adoption of oral hygiene rules, both adults and children brush their teeth daily and a small proportion 2–3 times a day. However, additional oral hygiene measures are taken by few individuals. Women are more interested in oral hygiene than men.
It is encouraging that fluoride toothpaste is used, which protects against caries. Nevertheless, preventive dental treatments such as fluoridation, preventive occlusion and sealing are rare and visits to the dentist are made when a problem or pain appears.
Evros people show less interest in preventive and other dental therapies. In terms of eating habits, children and adults outside Evros are more interested in healthy eating than children and adults in Evros, although they often consume sugary foods and often outside of their main meal. The partial shifting to the standard of the Mediterranean diet and less to the standard of Western type foods is of note.
In this light, in order to promote oral health and prevent disease, it is a requisite to raise the awareness of both children and adults, especially in the remote area of Evros, through informational campaigns and educational programs on oral health, oral hygiene and the benefits of a balanced diet.
Limitations: Caries prevalence was calculated based on the percentage of positive cases and no DMFT (Decay, Missing, Filled, Teeth) and SiC (Signifi-111 cant Caries Index) clinical caries index were calculated as physical clinical examination was not performed.

Author Contributions

Conceptualization, E.B. and A.M.; methodology, E.B. and A.M.; formal analysis, A.A. resources, E.B., A.M., I.M., S.P., C.V. and C.T.; data curation A.A.; writing—original draft preparation, E.B. and A.M.; writing—review and editing, E.B., I.M., S.P., C.V. and C.T.; visualization, E.B., C.T. and A.M.; supervision, E.B.; project administration, E.B.; funding acquisition, E.B. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Since this study completed was before 2018 no approval from the EHDE was required, although all measures were taken to insure the privacy of respondents (minors and adults). During the survey no data leading to the identification of any person were collected, no physical examination occurred, and minors always accompanied by their guardians.

Informed Consent Statement

The informed consent was obtained from all subjects by filling in the questionnaire.

Data Availability Statement

Questionnaire and Data are available upon reasonable request.

Conflicts of Interest

The authors declare no conflict of interest.

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Figure 1. Distribution of the answers given by children regarding healthy eating.
Figure 1. Distribution of the answers given by children regarding healthy eating.
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Figure 2. Distribution of the answers given by children regarding vegetarian diet.
Figure 2. Distribution of the answers given by children regarding vegetarian diet.
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Figure 3. Distribution of the answers given by children regarding food selection.
Figure 3. Distribution of the answers given by children regarding food selection.
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Figure 4. Distribution of the answers given by children regarding food purchased.
Figure 4. Distribution of the answers given by children regarding food purchased.
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Figure 5. Distribution of the answers given by children regarding organic products.
Figure 5. Distribution of the answers given by children regarding organic products.
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Figure 6. Distribution of the answers given by children regarding breakfast products.
Figure 6. Distribution of the answers given by children regarding breakfast products.
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Figure 7. Distribution of the answers given by children regarding morning snacks.
Figure 7. Distribution of the answers given by children regarding morning snacks.
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Figure 8. Distribution of the answers given by children regarding healthy nutrition.
Figure 8. Distribution of the answers given by children regarding healthy nutrition.
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Figure 9. Distribution of adult according to the adoption or not exclusively vegetarian diet in Evros.
Figure 9. Distribution of adult according to the adoption or not exclusively vegetarian diet in Evros.
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Figure 10. Distribution of adults following breakfast intake in Evros.
Figure 10. Distribution of adults following breakfast intake in Evros.
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Figure 11. Distribution of the answers given by children regarding number of meals.
Figure 11. Distribution of the answers given by children regarding number of meals.
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Figure 12. Distribution of the answers given by children regarding food preference.
Figure 12. Distribution of the answers given by children regarding food preference.
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Figure 13. Distribution of children according to their interest in the consumption of biological products in Evros.
Figure 13. Distribution of children according to their interest in the consumption of biological products in Evros.
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Table 1. Age range and gender in the children group.
Table 1. Age range and gender in the children group.
Age RangeSexTotal
MaleFemale
1–4 years1 (1.01%)1 (1.01%)2 (1.08%)
5–8 years12 (12.12%)15 (17.24%)27 (14.52%)
9–12 years38 (38.38%)31 (35.63%)69 (37.10%)
13–17 years48 (48.48%)40 (45.98%)88 (47.31%)
Total99 (100.0%)87 (100.0%)186 (100.0%)
Table 2. Age range and gender in the adult group.
Table 2. Age range and gender in the adult group.
Age RangeSexTotal
MaleFemale
18–24 years20 (13.51%)46 (19.09%)66 (16.97%)
25–34 years25 (16.89%)27 (11.20%)52 (13.37%)
35–40 years14 (9.46%)23 (9.54%)37 (9.51%)
41–49 years34 (22.97%)56 (23.24%)90 (23.14%)
>50 years55 (37.16%)89 (36.93%)144 (37.02%)
Total148 (100.0%)241 (100.0%)389 (100.0%)
Table 3. Frequency and type of foods and drinks consumed by children.
Table 3. Frequency and type of foods and drinks consumed by children.
Type of FoodDaily2–3 Times a WeekOnce a WeekOnce a MonthNone
Soft drinks13 (7.2%)30 (16.6%)29 (16%)39 (21.5%)70 (38.7%)
Dairy products133 (73.1%)37 (20.3%)8 (4.4%)1 (0.5%)3 (1.6%)
Meat10 (5.5%)121 (66.5%)47 (25.8%)3 (1.6%)1 (0.5%)
Vegetables4 (35.2%)72 (39.6%)19 (10.4%)6 (3.3%)21 (11.5%)
Nuts7 (14.9%)36(19.9%)47 (26%)32 (17.7%)39 (21.5%)
Foods rich in sugar59 (32.8%)69 (38.3%)36 (20%)5 (2.8%)11 (6.1%)
Fruits86 (47.3%)59 (32.4%)19 (10.4%)4 (2.2%)14 (7.7%)
Fishes1 (0.6%)18 (9.9%)92 (50.8%)41 (22.7%)29 (16%)
Fast Food4 (2.2%)33 (18.2%)63 (34.8%)52 (28.7%)29 (16%)
Table 4. Frequency and type of foods and drinks consumed by adults.
Table 4. Frequency and type of foods and drinks consumed by adults.
Type of FoodDaily2–3 Times a WeekOnce a WeekOnce a MonthNone
Soft drinks13 (3.4%)50 (13.1%)70 (18.3%)80 (20.9%)169 (44.2%)
Dairy products197 (51.6%)134 (35.1%)32 (8.4%)7 (1.8%)12 (3.1%)
Meat33 (8.5%)258 (66.3%)81 (20.8%)10 (2.6%)7 (1.8%)
Vegetables202 (52.9%)141 (36.9%)25 (6.5%)9 (2.4%)5 (1.3%)
Nuts57 (14.7%)113 (29.1%)96 (24.7%)73 (18.8%)49 (12.6%)
Foods rich in sugar105 (27.6%)129 (33.9%)73 (19.2%)46 (12.1%)27 (7.1%)
Fruits185 (48.4%)120 (31.4%)42(11%)27 (7.1%)8 (2.1%)
Fishes2 (0.5%)47 (12.2%)241 (62.8%)81 (21.1%)13 (3.4%)
Fast food3 (0.8%)45 (11.8%)101 (26.4%)134 (35.1%)99 (25.9%)
Table 5. Place of residence of children (Evros/other areas) in relation to the condition of oral health.
Table 5. Place of residence of children (Evros/other areas) in relation to the condition of oral health.
Oral Health Status aResidence Evros Urban Area
N (%)
Other Urban Areas
N (%)
Total
N (%)
Absence of oral pathol ogy34 (18.8%)75 (41.4%)109 (60.2%)
Dental Caries11 (6.1%)39 (21.5%)50 (27.6%)
Gingivitis2 (1.1%)9 (5.0%)11 (6.1%)
Periodontitis10 (5.5%)11 (6.1%)21 (11.6%)
Total56 (30.9%)56 (30.95)125 (69.1%)
a Percentages and totals are based on respondents.
Table 6. Place of urban residence of adults (Evros/other areas) in relation to the condition the oral health.
Table 6. Place of urban residence of adults (Evros/other areas) in relation to the condition the oral health.
Oral Health Status aResidence Evros Urban Area
N (%)
Other Urban Areas
N (%)
Total
N (%)
Absence of oral pathology70 (18.6%)149 (39.5%)219 (58.1%)
Dental Caries12 (3.2%)33 (8.8%)45 (11.9%)
Gingivitis15 (4.0%)43 (11.4%)58 (15.4%)
Periodontitis5 (1.3%)14 (3.7%)19 (5.0%)
Orthodontic anomaly6 (1.6%)14 (3.7%)20 (5.3%)
Edentulism *36 (9.5%)38 (10.1%)74 (19.6%)
Total128 (34.0%)128 (34.0%)249 (66.0%)
a Group; percentages and totals are based on respondents. * the clinical word for being wholly or partially toothless or having one or more missing teeth.
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Melissari, A.; Alexopoulos, A.; Mantzourani, I.; Plessas, S.; Voidarou, C.; Tsigalou, C.; Bezirtzoglou, E. Investigating Nutritional Behavior and Oral Health Habits among Adults and Children in Nοrth-Eastern Greece. Oral 2021, 1, 56-74. https://0-doi-org.brum.beds.ac.uk/10.3390/oral1020007

AMA Style

Melissari A, Alexopoulos A, Mantzourani I, Plessas S, Voidarou C, Tsigalou C, Bezirtzoglou E. Investigating Nutritional Behavior and Oral Health Habits among Adults and Children in Nοrth-Eastern Greece. Oral. 2021; 1(2):56-74. https://0-doi-org.brum.beds.ac.uk/10.3390/oral1020007

Chicago/Turabian Style

Melissari, Alexandra, Athanasios Alexopoulos, Ioanna Mantzourani, Stavros Plessas, Chrissoula Voidarou, Christina Tsigalou, and Eugenia Bezirtzoglou. 2021. "Investigating Nutritional Behavior and Oral Health Habits among Adults and Children in Nοrth-Eastern Greece" Oral 1, no. 2: 56-74. https://0-doi-org.brum.beds.ac.uk/10.3390/oral1020007

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