Bioscience Journal  |  2022  |  vol. 38, e38057  |  ISSN 1981-3163 
 

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Su-Jung LEE1 , Jong-Hwa JANG2  
 
1 Department of Dental Hygiene, Andong Science College, Andong-si, Gyeongsangbuk-do, Republic of Korea. 
2 Department of Dental Hygiene, College of Health Science, Dankook University, Cheonan-si, Chungnam, Republic of Korea. 

 
Corresponding author: 
Jong-Hwa Jang 
jhj@dankook.ac.kr 
 
How to cite: LEE, S.J. and JANG, J.H. Effect of oral health intervention program on the self oral care of children attending childcare facilities: a 
quasi-experimental study. Bioscience Journal. 2022, 38, e38057. https://doi.org/10.14393/BJ-v38n0a2022-60030 
 
 
Abstract 
This study aimed to conduct a quasi-experimental study for assessing the effects of an oral health 
intervention program (OHIP), on the self-management of oral health in children attending childcare centers. 
The participants recruited were 83 children from two childcare centers, who were allocated to the 
intervention and control groups. The intervention group received the OHIP. At baseline, a self-reported 
survey of parents was conducted. In addition, the oral status of the children at baseline and at 5 weeks was 
evaluated. Their brushing behavior was assessed once a week and every day during the OHIP intervention 
period and at home, respectively. After the follow-up at 12 weeks, dental plaque index (PI) was measured 
and two-way repeated measures analysis of variance was performed. The PI of the intervention group 
significantly decreased at week 5, compared to the baseline (1.90 ± 0.53, p < 0.001). Despite a substantial 
increase in week 12 (2.67 ± 0.08, p < 0.001), the PI was significantly lower than that of the control group 
(3.37 ± 0.60). The OHIP was effective in reducing the PI and modifying the brushing behavior among children. 
It is necessary to develop and expand a systematic oral health education program to promote self-
management of oral health in children. 
 
Keywords: Children Day Care Centers. Dental Health Education. Dental Plaque. Oral Health in Children. Self 
Care. Toothbrushing. 
 
1. Introduction 
 

Increased social activities of parents and family structural changes have augmented the use of 
childcare centers, for infants and pre-school children. Approximately 80.9% children aged 3–5 years used 
childcare centers in Korea in 2019 (Choi 2019). Food provided there comprises several cariogenic products, 
like bread, yoghurt, and beverages, resulting in a high incidence of dental caries. Therefore, appropriate oral 
health management is warranted (Bae et al. 2009).  

Dental caries in the deciduous dentition mostly occurs during pre-school age (Anil and Anand 2017); 
it is associated with dental caries in the permanent dentition, premature tooth loss, decreased masticatory 
function, malocclusion, oral soft tissue disease, and bad oral habits (Choi 2019). Therefore, oral health 
management in pre-school children is crucial (Bae et al. 2009; Masumo et al. 2020). As part of national oral 
health promotion, the National Health Promotion Comprehensive Plan aims to improve the rate of brushing 
after lunch, which is an index for reducing dental caries and facilitating the management of oral health in 
children (Choi and Ma 2020). However, according to the 2018 Child Oral Health Survey, 68.5% of 5-year-olds 

EFFECT OF ORAL HEALTH INTERVENTION PROGRAM ON THE 
SELF ORAL CARE OF CHILDREN ATTENDING CHILDCARE 

FACILITIES: A QUASI-EXPERIMENTAL STUDY 

https://orcid.org/0000-0003-2521-5254
https://orcid.org/0000-0001-9044-0218


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Effect of oral health intervention program on the self oral care of children attending childcare facilities: a quasi-experimental study 

experienced dental caries, and an average of 3.43 teeth of each child developed caries (Choi 2019; You et al. 
2019). 

Pre-school age is important in forming healthy behavior and eating habits (Elidrissi and Naidoo 2016). 
As children spend most of their day in childcare centers, their teachers influence preventive oral health 
promotion (Eden et al. 2019). Moreover, parents play a crucial role in pediatric oral health at home 
(Bozorgmehr et al. 2013). Poor oral health knowledge in parents can negatively affect the oral health 
behavior in children (Barasuol et al. 2021). Thwin et al. (2018) reported the efficacy of comprehensive oral 
health education through an extensive oral health promotion program involving experts, parents, and 
teachers. However, previous studies conducted in Korea have reported the lack of knowledge and interest 
in oral health education among teachers (Kim and Kim 2015).  

Teachers are aware of the need for oral health education for children, but it has been found that 
there are not enough educational aids and media, and the oral health education -related programs 
conducted in childcare centers are insufficient (Choi et al. 2013). In previous studies, although there were 
differences in the effects on oral health behaviors depending on the educational method and medium, oral 
health education using appropriate educational media had positive changes in dental plaque control and 
oral health behavior (Lee and Choi 2017; Sharififard et al. 2020). The plaque index (PI) measures the degree 
of coloration of food residues on the tooth surface. Food residue causes dental caries and the PI measures 
oral health and can be managed by toothbrushing (Kang et al. 2008).  

In Korea, the Ministry of Health and Welfare (MHW) and the Korean Oral Health Association (KOHA) 
develops and distributes oral health education media every year (Lee and Choi 2017). Nonetheless, there 
are insufficient oral health educational programs in childcare centers. Oral health intervention program 
(OHIP), developed using a universally distributed audio-visual media with expected definitive effects on 
children, may be used by childcare centers for oral health education. The aim of the study was to evalua te 
the children’s toothbrushing behavior and the changes in PI for 5 weeks by applying the OHIP with the help 
of teachers and parents, and to conduct PI evaluation through a follow-up at 12- weeks. 
 
2. Material and Methods 
 
Study design and participants 
 

The study design was quasi-experimental with a non-equivalent control group and pretest-posttest 
measurement. Participants were children aged 4-6 years, attending two childcare centers in Seosan, Korea. 
A total of 84 children whose parents agreed to participate in the OHIP were selected. Children with two or 
more absences were excluded. The childcare centers were divided into an intervention group and a control 
group, and 44 and 39 participants were selected, respectively. One participant with low attendance  was 
excluded.  
 
Sample size determination 
 

The sample size was analyzed by selecting a number of repeated measurement times of 5, 0.25 effect 
size, 0.05 significance level, and 0.80 power in repeated measures analysis of variance (ANOVA), using the 
G*Power program (Faul et al. 2007). The appropriate sample size calculated was 64. Anticipating drop ou t, 
we included 84 participants.  
 
Ethical considerations 
 

Our study complied with the guidelines of the Declaration of Helsinki and was approved by the 
Institutional Review Board of Dankook University (DKU 2018-09-025-001). Moreover, informed consent was 
obtained from the guardians of pre-school children and from the directors of the participating childcare 
centers. 
 
 



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LEE, S.J. and JANG, J.H. 

Oral health intervention program  
 

The OHIP (Table 1) includes educational materials for children, provided to oral health educators by 
the MHW and KOHA (Lee and Choi 2017). Moreover, its feasibility was verified by consulting early childhood 
educators and oral health experts. 
 
Table 1. Oral health intervention program. 

Session Topic Contents Media Feedback 
Time 
(min) 

1 
Motivation 
Oral care I 

-The importance of teeth 
-How to brush your teeth 

PPT 
Video 1 

Brushing- calendar 15 

2 Oral care II 
-Cause, symptoms, and- management of dental caries 

-How to brush your teeth 
Video 1 
Video 2 

Brushing- calendar 15 

3 Oral care III 

-Oral health and food 
-Cause, symptoms, and- management of dental caries 

-Fluoride use 
-How to brush your teeth 

Video 1 
Video 3 

Brushing- calendar 15 

4 Oral care IV 
-Bad breath 

-Cause, symptoms, and- management of dental caries 
-How to brush your teeth 

Video 1 
Video 4 

Brushing- calendar 15 

5 Oral care V 
-The importance of teeth 

-Cause, symptoms, and- management of dental caries 
-How to brush your teeth 

Video 1 
Video 5 

Brushing- calendar 15 

Video 1 = Let’s brush our teeth as we sing; Video 2 = Tooth decay; Video 3 = The tooth fairy and the tooth witch of the tooth kingdom; Video 4 
= Brush your teeth well; Video 5 = Why do dental caries occur. 

 
The authors planned the OHIP procedures considering the concentration level in children. Audio -

visual education on oral health was provided for less than 15 minutes, once a week for 5 weeks. The 
participants practiced brushing their teeth while watching a music video “Let’s Brush Our Teeth as We Sing” 
every day after lunch at the centers, assisted by their teachers. Besides, the parents were provided with a 
“brushing check calendar” every week with instructions to increase the frequency of tooth brushing at home.  

The children were encouraged to mark the calendar after brushing every day. The control group was 
not provided any specific oral health education during the intervention period and performed brushing after 
lunch as usual. The authors conducted a questionnaire survey and measured the oral health in both the 
groups. Nonetheless, children in the control group received similar oral health education as the intervention 
group, 12 weeks after the completion of the follow-up. 
 
Data collection 
 

The OHIP was conducted from 24 October to 28 November 2018. It also consisted of a questionnaire 
survey of parents, observation of children's brushing behavior, and oral status examination with items based 
on a previous study (Lee 2010). They included the sociodemographic characteristics of children (sex, age, 
and number of siblings), children's oral health behavior as perceived by the parents (number of times of 
brushing daily, brushing time required, and oral health check-up), completion of oral health education, and 
oral health knowledge of the parents. The oral health knowledge was assessed by assigning 1 an d 0 points 
to the correct and incorrect answers, respectively, per question. The highest possible score was 10. A higher 
score indicated greater oral health knowledge. 

Oral health of children was assessed by examining their decayed teeth (dt) and filled teeth (ft), based 
on the criteria proposed by the WHO (Petersen 2009). Moreover, PI, developed by Quigley and Hein (Kang 
2008), was used to assess the levels of self-managed oral hygiene. PI was assessed by applying a disclosing 
solution (Dharma Research, Inc.) over every tooth. Where dental plaque was colored and for no 
discoloration, 1 and 0 points were given, respectively per tooth surface. The highest possible score was 5. 
Higher scores indicated poor oral hygiene self-management. Additionally, the authors observed the brushing 



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Effect of oral health intervention program on the self oral care of children attending childcare facilities: a quasi-experimental study 

behavior (horizontal, vertical, circle, and rolling methods), brushing area (upper and low occlusal and tongue 
surfaces), brushing time, and number of mouth rinses every week during the intervention period. 

After a baseline assessment using parental questionnaire and oral health examination, the same were 
measured at week 5. The PI and brushing behavior were evaluated by a team of a dentist and a dental 
hygienist. The PI was evaluated at 12 weeks of follow-up to confirm the continued effectiveness of OHIP for 
children. 
 
Data analysis 
 

Data were performed for normality, and homogeneity analysis of sociodemographic characteristics 
and oral status between the intervention group and the control group. Before and after comparison of the 
children’s brushing behavior were analyzed using the Chi-square test, Fisher's exact test, and paired t-test. 
The effects of OHIP on PI in children were assessed using the two-way repeated measures ANOVA. Statistical 
analysis was performed using the SPSS 23 program (IBM Corp., Armonk, N.Y., USA), and the significance level 
was set to α = 0.05. 

 
3. Results 
 
Homogeneity test of oral condition and oral health behavior by group 

 
Table 2 summarizes the results of the homogeneity test on the oral conditions and oral health 

behaviors of children at baseline. There were no significant differences between the two groups, thus 
ensuring homogeneity (p > 0.05). 
 
Table 2. Homogeneity test of children's oral health behaviors of perceived parents by group at baseline. 

Variables Category 
CG 

(n = 39) 
IG 

(n = 44) 
p-value* 

Brushing frequency per day 

1 6 (15.4) 6 (13.6) 0.134 

2 26 (66.7) 21 (47.7)  

3 7 (17.9) 14 (31.8)  

4 ≤ - 3 (6.8)  

How long it takes to brush 

30 sec 6 (15.4) 2 (4.5) 0.441 

1 min 11 (28.2) 17 (38.6)  

2 min 17 (43.6) 21 (47.7)  

3 ≤ min 5 (12.8) 4 (9.1)  

Regular oral examination 
yes 29 (74.4) 31 (70.5) 0.692 

no 10 (25.6) 13 (29.5)  

Parents' experience of- receiving oral health education 
yes 16 (41.0) 28 (63.6) 0.117 

no 23 (59.0) 16 (36.3)  

CG = control group, IG = intervention group; * by Chi-square test or fisher’s exact test at α = 0.05; Data are presented as n (%). 

 
Table 3 shows the results of the comparative analysis of the oral health levels of the groups. We 

observed no significant differences in the oral health status between the groups. 
 
Level of oral health knowledge in parents of preschool children 
 

Table 4 summarizes the analysis of the oral health knowledge of the parents in both groups at 
baseline. The highest possible score was 10. Parents in the control group had a slightly higher level of oral 
health knowledge than those in the intervention group (6.92 ± 1.40 vs. 6.64 ± 1.48, p = 0.369). The rate of 
correct answer for the question 'water fluoridation is a safe and effective way to prevent tooth decay' was 
extremely low in both the control (20.5%) and the intervention (11.4%) groups. Moreover, both the control 



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LEE, S.J. and JANG, J.H. 

(38.5%) and intervention (27.3%) groups revealed poor knowledge for the question 'the teeth fall out 
because of aging'. 
 
Table 3. Homogeneity test of oral health level of preschool children by group at baseline. 

Variables 
CG (n = 39) IG (n = 44) 

p-value 
Mean ± SD, % Mean ± SD, % 

df rate (%) * 28.2 38.6 0.120 

dt rate (%) * 65.9 32.8 0.060 

ft rate (%) * 34.1 67.2 0.060 

PI** 3.15 ± 0.54 3.37 ± 0.60 0.081 

CG = control group, IG = intervention group; Mean ± SD: Mean ± Standard deviation; * by Chi-square test or fisher’s exact test, **by the 
independent test at α = 0.05; df = decayed teeth + filled teeth; dt = decayed teeth; ft = filled teeth; PI = dental pla que index. 

 
Table 4. Level of oral health knowledge of the parents of preschool children at baseline. 

CG = control group, IG = intervention group; Mean ± SD: Mean ± Standard deviation; *by the Chi-square test or fisher’s exact test at α = 0.05; 
**by the independent t-test at α = 0.05; Data are presented as %. 

 
Effects of OHIP on self-management of oral health 
 

Table 5 depicts the changes in the brushing behavior of children in the intervention group. The 
brushing time increased by 50.2% after 5 week (175.2 s) of OHIP application, compared to baseline (88.0 s). 
This increase continued for almost 5 weeks. The rate of tongue brushing increased from 13.6% at baseline 
to 70.5% after 5 weeks, respectively. Despite the rate of rolling method being 0% at baseline, it increased 
continuously after 5 weeks at a rate of 50.0%, respectively. The mandibular posterior occlusal surface was 
predominantly brushed at baseline. However, starting at week 5, at least 79.5% children brushed the 
maxillary posterior occlusion surface and both the maxillary and mandibular posterior lingual surfaces.  
 
Table 5. Changes in self-care behavior after applying OHIP for 5 weeks. 

Variables Groups Baseline After 5 wks p-value 

Toothbrushing time (sec)* 
CG 66.72 ± 32.44 71.03 ± 26.98 0.217 

IG 87.95 ± 27.16 175.20 ± 27.73 < 0.001 

Tongue brushing (%)** 
CG 10.3 5.1 0.675 

IG 13.6 100.0 < 0.001 

Tooth brushing method (%)**     

Horizontal 
CG 79.5 84.6 0.769  
IG 97.7 86.4 0.049 

Vertical 
CG 51.3 43.6 0.650  
IG 50.0 72.7 0.029 

Circle CG 7.7 10.3 1.000  

Variables 
CG 

(n = 39) 
IG 

(n = 44) 
p- value* 

Tooth decay is a bacterial infection (O) 71.8 75.0 0.862 

Consumption of sweet foods such as sugar causes tooth decay (O) 100.0 97.7 0.344 

If you don't treat tooth decay in your teeth, you can get tooth decay in your permanent teeth (O) 82.1 90.9 0.490 

Fluoride prevents tooth decay (O) 66.7 68.2 0.582 

Water fluoridation is a safe and effective way to prevent tooth decay (O) 20.5 11.4 0.254 

Periodontal disease is a disease caused by infection by bacteria (O) 74.4 84.1 0.474 

Do not brush the swollen area due to periodontal disease (X) 66.7 50.0 0.238 

Scaling can damage teeth (X) 76.9 59.1 0.025 

Smoking has nothing to do with oral health (X) 94.9 100.0 0.315 

The teeth fall out due to aging as the age increases (X) 38.5 27.3 0.510 

All (Mean ± SD) 6.92 ± 1.40 6.64 ± 1.48 0.369 ** 



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Effect of oral health intervention program on the self oral care of children attending childcare facilities: a quasi-experimental study 

IG 6.8 34.1 0.003 

Rolling 
CG 10.3 5.1 0.675  
IG 0 50.0 < 0.001 

Tooth brushing area (%)**     

Max. post occlusion 
CG 46.2 41.0 0.820  
IG 18.1 79.5 < 0.001 

Man. post occlusion 
CG 100.0 100.0 -  
IG 97.7 100.0 1.000 

Max. post lingual 
CG 20.5 23.1 1.000  
IG 9.1 90.9 < 0.001 

Man. post lingual 
CG 35.9 41.0 0.816  
IG 15.9 93.2 < 0.001 

CG = control group, IG = intervention group; Max = maxillary, Man = Mandible; * by the paired t-test at α = 0.05; ** by the Chi-square test or 
fisher’s exact test at α = 0.05. 

 
Table 6 shows the effects of OHIP on PI. We conducted a univariate analysis after establishing the 

sphericity assumption. There were significant differences between the two groups (p < 0.001) and the two 
time points (p < 0.001). Moreover, the two groups showed different changes over time. Additionally, there 
was a significant interaction between the groups and the time points (p < 0.001). Therefore, we conducted 
the analysis at a controlled state. The PI in the control group increased after 5 weeks (M = 3.15), compared 
to a slight decrease after 12 weeks (M = 3.09). Nonetheless, the difference was insignificant (p > 0.05).  

Contrarily, in the intervention group, PI was substantially lower after 5 weeks (M = 1.90), compared 
to baseline (M = 3.37). Furthermore, it slightly increased after 12 weeks (M = 2.67), showing a significant 
difference, compared to the baseline (p < 0.001). 
 
Table 6. Changes of plaque index according to oral education program. 

Groups 
Baseline After 5 wks After 12 wks 

p-value* 
Mean ± SE Mean ± SE Mean ± SE 

Control group (n = 39) 3.15 ± 0.09a 3.40 ± 0.09b 3.09 ± 0.09a 
< 0.001 

Intervention group (n = 44) 3.37 ± 0.09a 1.90 ± 0.08b 2.67 ± 0.08c 

M ± SE: Mean ± Standard error; * by two-way repeated measures ANOVA test; a,b,c statistically significant difference at α = 0.05. 

 
4. Discussion 

 
Poor oral health is a public health problem. Dental caries in pre-school children significantly effects 

their health and development. It causes pain, eating disorders, speech impairment, and financial burden to 
families and societies (Gilchrist et al. 2015). Children attending childcare centers are given meals and snacks, 
and they brush their teeth every day at the centers. They are exposed to oral health problems and are 
directly or indirectly motivated to maintain oral hygiene. Therefore, although oral health education for 
children in childcare centers is very necessary, systematic education is insufficient. Most of the teachers 
reported that they needed the help of other experts such as child nurses for health management of childcare 
centers (Murray et al. 2013), and it was reported that parents’ satisfaction with health, safety, and nutrition 
management in childcare centers was low (Han and Kim 2007). A study of oral health education programs in 
schools revealed that brushing education performed by dentists and teachers was both effective (Eden et 
al. 2019).  

In this study, by applying the OHIP to children, children’s awareness of oral health improved and they 
practiced proper brushing habits. The OHIP used in our study comprised educational goals that inc luded 
comprehensive oral health education, such as the role of teeth in oral health, the occurrence of dental caries, 
brushing, and oral health based on the growth and development of children. Additionally, the program was 
constructed by analyzing previous studies to induce interest and attention in the learners (Lee and Choi 
2017). In this study, the providers who supported OHIP for children were parents and teachers, but there 
was a limitation that there was no separate education for them. Nevertheless, the teachers helped the 
children to brush while watching the video “Let’s Brush Our Teeth as We Sing” every day after lunch. 



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LEE, S.J. and JANG, J.H. 

Furthermore, the parents encouraged their children to regularly check the calendar, thus ensuring their oral 
health. The level of the parents’ oral health knowledge and the brushing behavior of the children were poor 
at baseline. However, after applying the OHIP, the intervention group changed to appropriate brushing 
behavior, and the PI decreased from the baseline at 3.37 points to 1.90 points after 4 weeks compared with 
the control group.  

Our results were consistent with studies on repeated brushing education for pre-school children (Lee 
and Choi 2017), multimedia education (Sharififard et al. 2020), education through theory and dental model 
practice (Eden et al. 2019), and 'smart brushing system' (Kim and Lee 2015). Another study (Sharififard et al. 
2020) applied an educational program containing various multimedia educational activities, like fairy tales 
and animation videos, four times, which lowered PI. Despite evaluating the short-term effects of the 
educational program, the researchers could not verify its effectiveness in a follow-up survey, and they could 
not assess the continued effects of oral health education after the intervention period. In this study, PI was 
found to be lower even at 12 weeks after application of the OHIP compared to the baseline assessment. 
Therefore, OHIP is effective in improving oral health care and practice and the ability of maintaining oral 
hygiene among pre-school children. Despite the difference in the teaching methods and participants, the 
necessity of oral health education has been sufficiently demonstrated in studies, including our study.  

Oral health education methods are expected to gradually incorporate media in the form of app-game 
learning (Subhash and Cudney 2018) and YouTube (Duman 2020) using smartphones or tablet PCs. They can 
be easily accessible with an enjoyable learning experience. Oral health education is relatively better in 
elementary, middle, and high schools where health teachers serve than in childcare centers attended by pre-
schoolers, like day-care centers and kindergartens. Moreover, research and development is extensive in oral 
health education programs for school-going students compared with pre-school children (Eden et al. 2019; 
Duman 2020). Various oral intervention studies are being taken to improve oral health (Gilchrist et al. 2015; 
Bhatti et al. 2021). However, oral health education should be prioritized to cultivate appropriate lifestyle 
habits by promoting awareness.  

Our study had a limitation since the educational media used were previously developed conservative 
materials, and not recent materials reflecting the latest trends in the field. There may also have been a 
selection bias as only two daycare centers were selected for the study. In addition, the results do not reflect 
the influence of various factors such as children's eating habits and parental education. Nevertheless, it is 
provided by public institutions of the country, and experts have confirmed its validity. Moreover, our study 
contributes to literature as our results confirmed the effects of OHIP while considering the characteristics of 
children in the centers.  

Therefore, this study is significant as it has prepared a basis for the use of OHIP as children’s oral 
health promotion program. The OHIP helped improve the children's brushing habits and significantly 
decrease the PI. Interventional studies that can assess the effects of programs using a variety of educational 
media and long-term longitudinal studies are necessary in future. Moreover, there is a need to strengthen 
the support and improve the system to vitalize oral health education for pre-school children with weak 
educational environments. 
 
5. Conclusions 
 

The application of OHIP reduces PI by promoting correct brushing behavior in children attending 
childcare centers. Considering the effectiveness of OHIP in improving self oral healthcare among pre -school 
children, it is necessary to develop and expand systemic oral health education programs using a teaching-
learning model. 
 
Authors' Contributions: J.H.J: conception and design, analysis and and interpretation of data, drafting the manuscript, critical review of 
important intellectual content, final approval; S.J.L: acquisition of data, analysis and and interpretation of data, drafting  the manuscript, critical 
review of important intellectual content, final approval. 
 
Conflicts of Interest: The authors declare no conflicts of interest. 
 
Ethics Approval: Approved by the Institutional Review Board of Dankook University. DKU: 2018-09-025-001. KCT 0005914. 
 



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Effect of oral health intervention program on the self oral care of children attending childcare facilities: a quasi-experimental study 

Acknowledgments: We would like to thank Editage (www.editage.co.kr) for English language editing. 
 
 
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Received: 25 March 2021 | Accepted: 20 July 2021 | Published: 12 August 2022 
 
 

 
 
  

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, 
distribution, and reproduction in any medium, provided the original work is properly cited. 

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