Early childhood development explained

Early childhood development is the period of rapid physical, psychological and social growth and change that begins before birth and extends into early childhood. While early childhood is not well defined, one source asserts that the early years begin in utero and last until 3 years of age.[1]

Milestones

Developmental milestones represent useful markers that medical professionals and families can use to determine the developmental stage of a growing child. The following table contains examples of typical milestones achieved at each time point across al four domains:

Example Milestones of Development!!Gross Motor!Fine Motor!Social!Cognitive/Language
6 monthsRolls overBrings objects to mouthStranger anxietyConsonants while babbling
9 monthsSits without supportPincer graspSeparation anxietyUnderstands "No"
12 monthsStands wellBangs things togetherCries when familiars leaveResponds to simple commands
18 monthsWalks aloneScribbles with crayonHugs familiar peopleSays several individual words
2 yearsStands on tip toesStacks 4+ blocksPlays with other children50% of words intelligible to a stranger
3 yearsRuns easilyTurns pages in a bookCopies others75% of words intelligible to a stranger

Pediatric growth

Pediatric growth is measured in height or length, head circumference (used from 0–2 years of age), weight,[2] and BMI (used starting at 2 years of age).[3] It is determined by multiple factors including genetic, environmental, hormonal, nutritional and psychosocial factors. Some factors, such as maternal nutrition and alcohol, tobacco and drug exposure affect size at birth while other factors, such as genetic syndromes and family members heights have a later influence on size. In addition, different endocrine factors or hormones like growth hormone, insulin-like growth factors, thyroid hormones, glucocorticoids, and reproductive hormones contribute to normal growth.

Normal physical parameters and ranges

Percentile growth charts, such as the figures created by the Centers for Disease Control and Prevention (CDC) shown on this page, are used to track growth by comparing children of similar age and sex. The major percentile lines are the 95th, 90th, 75th, 50th, 25th, 10th, and 5th percentiles. The CDC growth reference charts define the normal range of growth as between the 5th and 95th percentiles.

While it is common for babies to shift percentiles during the first 2 years of life due to shifting from an intrauterine environment to one outside the uterus, shifting percentiles after 2 years of age may be the first sign of an underlying problem. Babies experience the greatest height velocity, or speed of growth, during the first 2 years of life. In addition, the mid parental height (MPH) is used to calculate the expected height potential and interpret the growth curve of a child. The following calculations are used for males and females respectively:

Male = (father’s height + mother’s height + 13 cm)/2

Female = (father’s height-13 cm + mother’s height)/2.

Abnormal/delayed development

Developmental delay occurs when children fail to develop milestones compared to their peers in the population. It is more of a descriptive term of a broad set of physical and psychosocial qualities than a diagnosis.

Growth delay

Children should be evaluated for abnormal linear growth when their charted growth crosses at least 2 percentiles beyond first 2 years of life, being born small for gestational age without signs of catching up to normal size, or abnormal height velocity for a child’s age. In addition, if the child’s height is more or less than 2 standard deviations (SD) below the average height for the child’s age or 2 SD below the MPH, then they should be evaluated for short stature. The cause of short stature can be normal or pathological. Two normal causes of growth delay are familial or genetic short stature and constitutional growth delay. Familial short stature is when the child's estimated final height is appropriate based on their MPH with shorter parental heights in less than 10th percentile. Constitutional growth delay is when the child's delayed puberty causes a delay in growth which will eventually catch up after puberty begins. Measuring the bone age of the child after 3 years of age can be used to distinguish a normal from a pathological cause. Pathological causes in early childhood tend to be malnutrition and failure to thrive which could happen while they were developing in utero or after birth.

Development delay

Developmental delay is divided into Global Developmental Delay (GDD) and Intellectual Disability (ID).[4] Global Developmental Delay is defined as a delay in two or more domains of development, while Intellectual Disability is defined as deficits in reasoning, adaptive functioning, or other intellectual aspects and typically becomes apparent later in life.

Both GDD and ID have a wide range of causes, and range from genetic mutations (Fragile X Disorder, Prader-Willi Disorder, etc.) to exposure to teratogens during gestation (Fetal Alcohol Syndrome). In many cases, the causes of GDD and ID in an individual can be the same.

Physical Development

Physical development refers to the development of movement, the brain and all other relevant stages of development that contributes to locomotion.[5] In early childhood, children develop the ability to gradually control movement, achieve balance and coordination and fine and gross motor skills.[6] Physical development milestones in early childhood include:

  1. Growth and control of muscles, joints, limbs etc
  2. Fine and gross motor skills
  3. Mastery of dynamic skills, locomotion, agility, physical literacy, manipulating tools and a range of other physical skills
  4. Sensory development
  5. Inhibition of primitive reflexes. [7]

A child’s health and ability to thrive and flourish are linked to physical development.Providing adequate physical play experiences, opportunities for physical activity and movement in early years can enhance physical development in children.Many health and behavioural issues including difficulties with toilet training and postural disorders are strongly linked to the children’s lack of physical activity.[8]

Early Childhood Education and Physical Development

Early childhood education and care (ECEC) play a crucial role in early childhood physical development. With the high rates of children attending early childhood education, the task of raising healthy and strong children is equally the responsibility of both parents and preschool institutions.[9] The incidence and quality of physical activity education in early childhood education have a strong positive effect on the cognitive, social and physical development of young children.[10] Early childhood is a stage of rapid growth, development and learning and each child makes progress at different speeds and rates.[11] It is essential to integrate physical training designed in accordance with the anatomical characteristics andage-related characteristics of a child's development, to ensure the normal physical development of preschool children.[12]

The importance of physical space in early childhood education and care is increasing rapidly due to the significant influence of physical space on numerous developmental outcomes including behavioural, cognitive and emotional.[13]

Cognitive Development

Early childhood is the most intensive period of brain development in human life.[14] Ensuing optimal cognitive development in the early childhood is crucial to the future academic and cognitive accomplishment of the child.[15] Cognitive development refers to the growth and advancement of mental abilities, thinking processes, and problem-solving skills. Sensory skills and visual perception during early infancy facilitate young children to quickly learn, perceive, process, and understand information from their surroundings and experiences.[16] Studies that examine the cognitive development of children stress the importance of brain development and the presence of a stimulating environment to develop cognitive skills.[17] The rapid brain development in the first years of life is primarily responsible for the infants' ability to process visual information, tactile information, auditory and olfactory information and movement control and planning.

The social background, family context,[18] early childhood education and care[19] and physical activities[20] are important factors that influence the cognitive development of young children.

Language and Communication Development

Newborn babies communicate primarily through their cries and their cries vary depending on their requirements such as hunger, pain or even boredom.[21] By 2nd and 3rdmonth of their life, babies develop early consonant sounds like /k/ and /g/. The second half of the first year is the babbling phase where babies begin with repeated sounds like babababa or mamamama. Infants vocalising more tend to develop stronger communication skills. Early communication skills vary from child to child. Numerous factors influence early language and communication development including the cultural context, lived experiences, and individual differences, general progressions of development.

Appropriate methods and favourable environments play a crucial role in early communication and language development. [22] There are several methods to promote early language and communication development. Turn and Talk approach is a widespread method to promote language development in young children. Under this method, children are encouraged to talk with their peers about a topic to develop their language.

Social and Emotional Development

Social competence is defined as a behaviour that leads to successful social functioning.[23] Although children develop social competence from a very young age, the display of social competence and the process of becoming socially competent becomes at a later stage. Childcare settings that provide regular care arrangements by adults other than parent figures give a safe atmosphere to develop peer relationships under the watch of adults. The social interaction needs and interests of toddlers and young children can be similar such as playing games like run-chase, throwing balls and jumping off step. Children who have the opportunity to interact with individuals other than parent figures have more opportunities to experience social interactions. There is empirical evidence indicating that more time spent with peer groups makes children more socially skilful at friendships and interactions. [24] Negative social interaction experiences leads to maladaptive behaviours. One maladaptive category of social behaviours is aggression or bullying and another type of maladaptive category of social behaviour is avoidance, withdrawal or passive acquiescence.

Emotional Development

Emotional development is a lifelong process and these skills develop at an early age.[25] In the early years, children develop basic emotions such as joy,fear, sadness, anger, interest and surprise.[26] The relationship with the primary caregivers plays a crucial role in the emotional development of young children. They try to imitate the facial expression of primary caregivers shortly after birthand it is the first form of communication. Children gradually learn to regulate emotions with healthy interaction with parents and primary caregivers.[27]

Notes and References

  1. Book: Alderman . Harold . Behrman . Jere R. . Glewwe . Paul . Fernald . Lia . Walker . Susan . Disease Control Priorities, Third Edition (Volume 8): Child and Adolescent Health and Development . Evidence of Impact of Interventions on Growth and Development during Early and Middle Childhood . https://www.ncbi.nlm.nih.gov/books/NBK525234/#pt2.ch7.sec2 . Child and Adolescent Health and Development . The International Bank for Reconstruction and Development / The World Bank . 2017. 79–98 . 10.1596/978-1-4648-0423-6_ch7 . 30212122 . 978-1-4648-0423-6 .
  2. 2020-03-01. Normal and Abnormal Growth in the Pediatric Patient. Current Problems in Pediatric and Adolescent Health Care. en. 50. 3. 100771. 10.1016/j.cppeds.2020.100771. 1538-5442. Nejedly. Nicole. 32291183. 215772466.
  3. Web site: 2019-01-11. Growth Charts - Educational Materials. 2021-09-13. www.cdc.gov. en-us.
  4. Bélanger. Stacey A. Caron. Joannie. September 2018. Evaluation of the child with global developmental delay and intellectual disability. Paediatrics & Child Health. 23. 6. 403–410. 10.1093/pch/pxy093. 1205-7088. 6234423. 30919832.
  5. O'Connor, A. and Daly, A. (2016) “what is physical development and why is it so important,” Understanding physical development in the early years: Linking bodies and Minds. London: Routledge, pp. 1–8.
  6. Archer, C. and Siraj, I. (2015) Encouraging physical development through movement-play. London: SAGE Publications Ltd.
  7. O'Connor, A. and Daly, A. (2016) “what is physical development and why is it so important,” in Understanding physical development in the early years: Linking bodies and Minds. London: Routledge, pp. 1–8.
  8. O'Connor, A. and Daly, A. (2016) “what is physical development and why is it so important,” in Understanding physical development in the early years: Linking bodies and Minds. London: Routledge, pp. 1–8.
  9. Gimazutdinov, R. (2020) “Theoretical basis of physical education of children of preschool age.,” Academic research in educational sciences, 1(4), pp. 871–876.
  10. Stork, S. and Sanders, S. (2008) “Physical Education in Early Childhood,” The elementary school journal, 108.
  11. Woodfield, L. (2004) Physical Development in the early years. London: Continuum
  12. Gimazutdinov,, R. (2020) “Theoretical basis of physical education of children of preschool age.,” Academic research in educational sciences, 1(4), pp. 871–876.
  13. Berti, S., Cigala, A. and Sharmahd, N. (2019) “Early childhood education and care physical environment and child development: State of the art and reflections on future orientations and methodologies,” Educational Psychology Review, 31(4), pp. 991–1021. Available at: https://doi.org/10.1007/s10648-019-09486-0.
  14. Carson, V. et al. (2015) ‘Systematic review of physical activity and cognitive development in early childhood’, Journal of Science and Medicine in Sport, pp. 1–6. doi:http://dx.doi.org/10.1016/j.jsams.2015.07.011.
  15. Khan NA, Hillman CH. The relation of childhood physical activity and aerobic fitness to brain function and cognition: a review. Pediatr Exerc Sci 2014; 26:138–146.
  16. Book: McGonigle-Chalmers, Maggie . Understanding Cognitive Development . Sage . 2015 . London.
  17. Book: Goswami, Usha . Blackwell Handbook of Childhood Cognitive Development . Blackwell Publishing . 2004 . United Kingdom.
  18. Barreto, F.B. et al. (2017) ‘Family context and cognitive development in early childhood: A longitudinal study’, Intelligence, 65, pp. 11–22. doi:10.1016/j.intell.2017.09.006
  19. Burger, K. (2010) ‘How does early childhood care and education affect cognitive development? an international review of the effects of early interventions for children from different social backgrounds’, Early Childhood Research Quarterly, 25(2), pp. 140–165. doi:10.1016/j.ecresq.2009.11.001.
  20. Carson, V. et al. (2015) ‘Systematic review of physical activity and cognitive development in early childhood’, Journal of Science and Medicine in Sport, pp. 1–6. doi:http://dx.doi.org/10.1016/j.jsams.2015.07.011.
  21. Romano . Mollie . Brown . Jennifer A. . Coogle . Christan . Ottley . Jennifer R. . Emily M. . Rose . 2023 . What to Teach Before Talking: Developing Communication Skills Across Home and Early Learning Contexts . YC: Young Children . 74–81 . EBSCO.
  22. Hindman . Annemarie H. . Wasik . Barbara A. . Kate . Anderson . 2022 . Using Turn and Talk to Develop Language: Observations in Early Classrooms . The Reading Teacher . 76 . 1 . 6–13. 10.1002/trtr.2113 .
  23. Book: Smith . Peter . Blackwell Handbook of Childhood Social Development . Craig . Hart . Blackwell . 2002 . 137–155.
  24. Howes . Carollee . 1988 . Peer interaction in young children . Monographs of the Society for Research in Child Development . 53 . 1 . i–92. 10.2307/1166062 . 1166062 .
  25. Thümmler, R., Engel, E.-M. and Bartz, J. (2022) ‘Strengthening emotional development and emotion regulation in childhood—as a key task in early childhood education’, International Journal of Environmental Research and Public Health, 19(7), p. 3978. doi:10.3390/ijerph19073978.
  26. Petermann, F.; Wiedebusch, S. Emotionale Kompetenzen bei Kindern; Hogrefe: Göttingen, Germany, 2016; Volume 3
  27. Thümmler, R., Engel, E.-M. and Bartz, J. (2022) ‘Strengthening emotional development and emotion regulation in childhood—as a key task in early childhood education’, International Journal of Environmental Research and Public Health, 19(7), p. 3978. doi:10.3390/ijerph19073978.