All issues > Volume 60(10); 2017
Usefulness of the Korean Developmental Screening Test for infants and children for the evaluation of developmental delay in Korean infants and children: a single-center study
- Corresponding author: Baik-Lin Eun, MD, PhD. Department of Pediatrics, Korea University Guro Hospital, Korea University College of Medicine, 148 Gurodong-ro, Guro-gu, Seoul 08308, Korea. Tel: +82-2-2626-1229, Fax: +82-31-405-1224, bleun@korea.ac.kr
- Received June 07, 2017 Revised August 15, 2017 Accepted September 08, 2017
- Abstract
-
- Purpose
- Purpose
- To evaluate the usefulness of the Korean Developmental Screening Test (K-DST) for infants and children for developmental delay assessment.
- Methods
- Methods
- This study was based on retrospective studies of the results of the K-DST, Preschool Receptive-Expressive Language Scale (PRES), Sequenced Language Scale for Infants (SELSI), Childhood Autism Rating Scale (CARS), Modified Checklist for Autism in Toddlers (M-CHAT), electroencephalography, magnetic resonance imaging, and extensive tests conducted in 209 of 1,403 patients, of whom 758 underwent the K-DST at the Korea University Guro Hospital between January 2015 and December 2016 and 645 were referred from local clinics between January 2015 and June 2016.
- Results
- Results
- Based on the K-DST results, the male children significantly more frequently required further or follow-up examination than the female children in most test sections, except for gross motor. The male children had notably lower mean scores than the female children. The PRES/SELSI results showed that when more further or follow-up evaluations were required in the K-DST communication section, significantly more problems in language delay or disorder emerged. When further or follow-up evaluation was required in the cognitive section in the CARS/M-CHAT, the possibility of autism increased significantly. A child tended to score low in the CARS test and show autism when further or follow-up evaluation was recommended in the K-DST.
- Conclusion
- Conclusion
- This study demonstrated the usefulness of the K-DST as a screening test early in the development of infants and children in Korea. Data of normal control groups should be examined to determine the accuracy of this investigation.
- Introduction
- Introduction
The Korean Developmental Screening Test (K-DST) is a recent screening test developed in September 2014 to verify whether infants in Korea have a standard development in the domains of gross motor, fine motor, cognition, communication, social interaction, and self-control1).A developmental delay, which is a disorder frequently discovered among 5% to 10% of the entire child population, including school-aged children2,3), and 1% to 3% of infants under the age of 5 years4,5,6), is one of the most important health issues among children. However, in cases where the developmental delay is not severe, it is difficult not only to detect such in early stages but also to diagnose the cause in advance. Because early interventions, such as early education and rehabilitation service and treatment, can be provided if an exact cause is diagnosed in advance, it is crucial that an appropriate screening service is provided6,7,8,9,10,11). The Korean government also realized that an early detection of developmental delays among infants and children is crucial for a better prognosis and earlier rehabilitation therapy1,5,12,13). To achieve this purpose, the government has started a national health screening program for infants and children in Korea1,14,15,16) and the K-DST has been used for developmental screening. Therefore, the usefulness of the K-DST was investigated via a cross-tabulation analysis between the K-DST results and those of other tests, such as detailed language tests (Preschool Receptive-Expressive Language Scale [PRES] and Sequenced Language Scale for Infants [SELSI]), Childhood Autism Rating Scale (CARS), Modified Checklist for Autism in Toddlers (M-CHAT), electroencephalography (EEG), and magnetic resonance imaging (MRI); further, the necessity of appropriate specific complete medical examination and follow-up evaluation was examined.
- Materials and methods
- Materials and methods
- 1. Study participants
- 1. Study participants
There were 758 infants and children who visited Korea University Guro Hospital for the National Health Screening Test between January 2015 and December 2016 and 645 who were referred to Korea University Guro Hospital between January 2015 and June 2016 from local clinics due to developmental problems. Among the 1,403 infants and children, 209 (127 boys and 82 girls) were included in this study; they required further evaluations after undergoing the K-DST.- 2. Study design
- 2. Study design
According to the K-DST manual, we categorized the participants into 3 groups: the further evaluation, follow-up evaluation, and peer & high-level groups. A specific complete medical examination was selectively conducted on some patients among the further evaluation or follow-up evaluation group. A specific complete medical examination using an optimized version for each child was conducted on the patient group and was selectively chosen among tests, such as the PRES17), SELSI18), Korean Bayley Scales of Infant Development II, Korean-Wechsler Preschool and Primary Scale of Intelligence, Social Maturity Scale, auditory test, CARS, M-CHAT, MRI, EEG, and chromosome study. This study mainly focused on the PRES/SELSI, CARS, M-CHAT, MRI, and EEG.The PRES/SELSI was conducted on a total of 34 infants and children. This group was categorized into 5 subgroups depending on the test results: relatively high in language development, normal, minor developmental delay, developmental delay, and language disorder. This categorization was cross analyzed using the Pearson chi-square test against the three stages of the K-DST: further evaluation, follow-up evaluation, and peer & high-level groups. Thereafter, the result was further verified using the Fisher exact test.The CARS test was conducted on a total of 24 infants and children. This group was categorized into 3 subgroups depending on the test results: no autism, mild to moderate autism, and severe autism.The M-CHAT was conducted on a total of 24 infants and children. This group was categorized into 2 subgroups depending on the test results: no autism and autism suspected.We reviewed the charts retrospectively and described the quantitative data of the discrete variables as frequencies with percentiles.- 3. Statistics
- 3. Statistics
Each categorization was cross analyzed using the Pearson chi-square test against the 3 stages of the K-DST. Thereafter, the result was further verified using the Fisher exact test. We used the IBM SPSS Statistics ver. 20.0 (IBM Co., Armonk, NY, USA) for the data processing.- 4. Ethics statement
- 4. Ethics statement
The study was approved by the Institutional Review Board of Korea University Guro Hospital (approval number: KUGH17041-001). Informed consent was waived by the board.
- Results
- Results
Of the 209 patients, 127 (60.8%) were boys, and 82 (39.2%) were girls (Table 1). Each case was categorized into 7 groups by the national health screening program for infants and children in Korea: 1st (4–6 months), 2nd (9–12 months), 3rd (18–24 months), 4th (30–36 months), 5th (42–48 months), 6th (54–60 months), and 7th (66–71 months). According to the K-DST results, we divided the entire group into 3 categories: further evaluation, follow-up evaluation, and peer & high-level. Approximately half of the group was categorized into the peer & high-level group. The remaining children required further or follow-up evaluation (Table 2). The percentage of the patients who required follow-up evaluations was ~30% in all the six K-DST sections.The proportion of the male patients who required further evaluation and follow-up evaluation was significantly high compared with that of the female patients in the areas of fine motor, cognition, communication, social interaction, and self-control (Table 3). For the ratio of patients who required further evaluations, the number of the male children was 4 to 7 (communication) times higher than that of the female children.The scores of the female patients in the areas of fine motor, cognition, communication, social interaction, and self-control were significantly high compared with those of the male patients (Table 4). The average score of the female patients was 2 to 5 points (communication and social interaction) higher than that of the male patients.In the K-DST and combined language in the PRES/SELSI, the grade of communication showed significant results in combined language (Table 5) (P<0.05). Although not illustrating a significant result in combined language via the Fisher exact test, the grade of cognition showed a decreasing linear trend as a follow-up or further evaluation requirement was drawn on the basis of the K-DST results (P=0.103; Linear-by-Linear Association, 0.003).In the K-DST and expressive language in the PRES/SELSI, the grade of communication showed significant results in expressive language (Table 6) (P<0.05). Although not illustrating a significant result in expressive language via the Fisher exact test, the grade of cognition showed a decreasing linear trend as a follow-up or further evaluation requirement was drawn on the basis of the K-DST results (P=0.143; Linear-by-Linear Association, 0.005).In the K-DST and receptive language in the PRES/SELSI, the grade of cognition and communication showed significant results in receptive language (Table 7) (P<0.05).In the CARS test, the grade of cognition showed a decreasing linear trend as a follow-up or further evaluation requirement was drawn on the basis of the K-DST results, without illustrating a significant result in the Fisher exact test (Table 8) (P=0.471; Linear-by-Linear Association, 0.078).The grade of social interaction showed a decreasing linear trend as a follow-up or further evaluation requirement was drawn on the basis of the K-DST results, without also illustrating a significant result in the Fisher exact test (P=0.464; Linear-by-Linear Association, 0.077).The grade of cognition showed a significant result in the M-CHAT (Table 9) (P<0.05). The grade of social interaction showed a decreasing linear trend as a follow-up or further evaluation requirement was drawn on the basis of the K-DST results, without illustrating a significant result in the Fisher exact test (P=0.070; Linear-by-Linear Association, 0.038).Eight children who underwent test showed abnormal EEG. Moreover, 5 out of 8 was diagnosed epilepsy and one with infantile spasm. Six children showed abnormal MRI, such as brain tumor or ventriculomegaly.As for the patients who required detailed examinations due to abnormal findings, the implementation rate was very low (92 of 209) owing to follow-up loss. This may be because of the costs of the detailed examinations and transfers to other medical institutes and nonmedical centers.
- Discussion
- Discussion
The development of a child can be evaluated by assessing 5 major categories: physical development (gross motor and fine motor), language and communication, social interactions-emotions, cognition, and self-control (activities of daily living). This development is predictable and further progresses as follows: physical development to gross and fine motor training; language development to receptive and expressive language development; social interaction-emotion development to fine motor adaptive ability, overall communication ability, and cognitive function development; and cognitive development to visual-perception, visual-motor, and problem-solving ability development. Among these categories, language development is the basis of examining the overall cognitive development19).The patients among whom a problem was detected in the K-DST and who were referred from other medical institutes visited Korea University Guro Hospital with distinctive issues according to their age. In early infancy, the patients mainly undergo a physical develop-mental delay. Among 2- to 3-year-old children, language development and social interaction delays are the most typical. In preschool stage, patients mainly come to hospitals with cognitive delay or activity problems19,20,21). As for the target subject of this study, language developmental delay and physical developmental delay were the most frequently observed.The developmental screening test is very important in the early diagnosis of developmental delay12,13,14,22,23). Some of the developmental delays could resolve to an almost normal status with early interventions and rehabilitation programs12,13,14,22,23). Early detection of developmental delay needs comprehensive judgment of developmental status evaluation, medical history, and physical and neurological examination with a developmental screening test12,13,14,15,22,23).The Korean government launched the Korea National Health Screening Program for Infants and Children on November 20071,14,15,16). The previous original screening tools were the K-ASQ and DDST II. The K-ASQ is a modified version of the Ages and Stage Questionnaires-II designed in America and is more convenient to use than the DDST II; therefore, most clinicians used the K-ASQ for screening13,14,16,23). However, this tool had a disadvantage in that it could not exactly reflect the Korean culture and infant care environments. Further, several questions related to problem-solving and personal-social sections were inappropriate14). The same questions were included in questionnaires in different age groups16). This caused a high false-negative rate, especially in the 60-month-old age group13). The last screening test age was 60 months, and children had a 1-year gap before entering elementary schools13). Moreover, the difficulty levels of some questions were not appropriate for suspicious developmental delay detection1,13). To compensate for these insufficiencies, a new screening tool, the K-DST, was designed in 2014, which was suitable for Korean infants and children1,13,14,24).Even though the K-DST has been adopted for the last 2 years, only few examinations on the adequacy of this screening test by correlating it with other types of detailed examinations have been conducted. This study focused on 758 infants and children who visited Korea University Guro Hospital for the National Health Screening Test (K-DST) between January 2015 and December 2016 and 645 infants and children referred to Korea University Guro Hospital between January 2015 and June 2016 from local clinics due to developmental problems. Of them, 209 (127 boys and 82 girls) were included; they required further examinations after undergoing the K-DST.The significant result that male children underperform against female in each section of the K-DST, especially in communication area, may come from the fact that female children tend to develop faster, especially in language area, than male children in that age level or from the characteristic of research population.The usefulness of the K-DST could be significantly verified via a cross-tablulation analysis of the results of the K-DST, CARS and M-CHAT, which aim to measure the autism degree, and PRES/SELSI, which is a detailed language test. No patients in peer and high group showed mild to moderate autism, severe autism, or suspicious autism in both the K-DST and CARS and the K-DST and M-CHAT. This result would imply that the K-DST can be viewed as a useful screening test.Eight children who underwent test showed abnormal EEG. Moreover, 5 out of 8 was diagnosed epilepsy and 1 with infantile spasm. Many of them showed an underperforming result in the K-DST in overall. Six children showed abnormal MRI, such as brain tumor or ventriculomegaly. Most of them showed an underperforming result in motor section of the K-DST. Based on the results of the cross-tablulation analysis with abnormal EEG and abnormal MRI, it could be concluded that if delay findings were reported on certain test sections in the K-DST, additional tests must be required.Based on these results, it can be concluded that the K-DST is an appropriate screening tool; it is also important that an adequate treatment is provided and developmental delays are diagnosed in advance through detailed examinations when further evaluation and follow-up evaluation are recommended.Since this study was based on retrospective data, identical tests were not applied among the patients; further, there were some follow-up losses, and a limitation exists in the statistical analysis owing to the small sample size; there can also be differences in the patient group characteristics and regional characteristics owing to the single-center analysis of this study. We also need to examine the data of normal control groups to determine the accuracy of the investigation.Owing to frequent rotations of fosterer, mainly because of increased dual-career families, long usage hours of electronic devices, such as cell phones, and other reasons, attention to children's development and its importance are increasingly becoming significant. Because the K-DST is effective in detecting developmental issues, we should encourage its use in every infant and child in a timely manner.Because children differ in speed and balance of their development, many develop normally even when a developmental delay is suspected; further examinations are then recommended. Therefore, an appropriate follow-up examination is essential based on the accurate analysis of experts. When detailed examinations are required, adequate early detection and intervention are very important for subsequent treatments. Since follow-up loss frequently occurs mainly owing to high examination costs and transfers to other institutes, setting up a standardized diagnostic tool, protocol, and official healthcare program can be effective in subsequent diagnoses and treatments and in tracing the results.
- Notes
Conflict of interest: No potential conflict of interest relevant to this article was reported.
- References
- 1. Moon JS, Lee SY, Eun BL, Kim SW, Kim YK, Shin SM, et al. One-year evaluation of the national health screening program for infants and children in Korea. Korean J Pediatr 2010;53:307–313.
[Article]2. Hoekelman RA. Primary pediatric care. St. Louis (MO): Mosby Year Book, 1992.3. Shevell M, Ashwal S, Donley D, Flint J, Gingold M, Hirtz D, et al. Practice parameter: evaluation of the child with global developmental delay: report of the Quality Standards Subcommittee of the American Academy of Neurology and The Practice Committee of the Child Neurology Society. Neurology 2003;60:367–380.
[Article] [PubMed]4. Petersen MC, Kube DA, Palmer FB. Classification of developmental delays. Semin Pediatr Neurol 1998;5:2–14.
[Article] [PubMed]5. Yeargin-Allsopp M, Murphy CC, Oakley GP, Sikes RK. A multiple-source method for studying the prevalence of developmental disabilities in children: the Metropolitan Atlanta Developmental Disabilities Study. Pediatrics 1992;89(4 Pt 1): 624–630.
[PubMed]6. Silove N, Collins F, Ellaway C. Update on the investigation of children with delayed development. J Paediatr Child Health 2013;49:519–525.
[Article] [PubMed]7. First LR, Palfrey JS. The infant or young child with developmental delay. N Engl J Med 1994;330:478–483.
[Article] [PubMed]8. Shonkoff JP, Hauser-Cram P. Early intervention for disabled infants and their families: a quantitative analysis. Pediatrics 1987;80:650–658.
[Article] [PubMed]9. Shevell MI, Majnemer A, Rosenbaum P, Abrahamowicz M. Etiologic yield of subspecialists' evaluation of young children with global developmental delay. J Pediatr 2000;136:593–598.
[Article] [PubMed]10. Glascoe FP. Early detection of developmental and behavioral problems. Pediatr Rev 2000;21:272–279.
[Article] [PubMed]11. Developmental surveillance and screening of infants and young children. Pediatrics 2001;108:192–196.
[Article] [PubMed]12. Edwards SL, Sarwark JF. Infant and child motor development. Clin Orthop Relat Res 2005;(434): 33–39.
[PubMed]13. Chung HJ, Eun BL, Kim HS, Kim JK, Shin SM, Lee JH, et al. The validity of Korean Ages and Stages Questionnaires (K-ASQ) in Korean infants and children. J Korean Child Neurol Soc 2014;22:1–11.
[Article]14. Eun BL, Chung HJ, Cho S, Kim JK, Shin SM, Lee JH, et al. The Appropriateness of the Items of Korean Ages and Stages Questionnaires (K-ASQ) Developmental Screening Test in Korean infants and children. J Korean Child Neurol Soc 2014;22:29–41.15. Eun BL, Kim SW, Kim YK, Kim JW, Moon JS, Park SK, et al. Overview of the national health screening program for infant and children. Korean J Pediatr 2008;51:225–232.
[Article]16. Moon JS. Review of National Health Screening Program for infant and children in Korea. J Korean Med Assoc 2010;53:377–385.
[Article]17. Kim YT, Lee YK. Preschool receptive-expressive language scale. Seoul: Seoul Community Rehabilitation Center, 2003.18. Kim YT, Yoon HR, Kim HS. Sequenced language scale for infants. Seoul: Special Education Publisher, 2003.19. Patel DR. Basic concepts of developmental diagnosis. In: Patel D, Greydanus D, Omar H, Merrick J, editors. Neurodevelopmental disabilities. Dordrecht: Springer, 2011:15–27.20. Shevell M. Global developmental delay and mental retardation or intellectual disability: conceptualization, evaluation, and etiology. Pediatr Clin North Am 2008;55:1071–1084. xi
[Article] [PubMed]21. Patel D, Greydanus D, Omar H, Merrick J. A neurodevelopmental perspective on the continuum of developmental disabilities. In: Accardo PJ, editor. Capute and Accardo's neurodevelopmental disabilities in infancy and childhood. 3rd ed. Baltimore: Paul H Brookes, 2008:3–26.22. Im SH, Han EY, Song J. Clinical application of neurodevelopmental assessment for infants and toddlers. J Korean Acad Child Adolesc Psychiatry 2012;23:175–180.
[Article]23. Eun BL, Chung HJ. Korean development screening test for infants and children. Cheongju: Korea Centers for Disease Control and Prevention, 2014.24. Eun BL, Moon JS, Eun SH, Lee HK, Shin SM, Sung IK, et al. The current child and adolescent health screening system: an assessment and proposal for an early and periodic check-up program. Korean J Pediatr 2010;53:300–306.
[Article]