This systematic review and meta-analysis considered evidence of guided play com-
pared to direct instruction or free play to support children's learning and devel-
opment.
Learning Through Play at School – A Framework for Policy and Practicevideosplay360
Learning through play has emerged as an important strategy to promote student engagement, inclusion, and holistic skills development beyond the preschool years. Policy makers, researchers and educators have promoted the notion that learning though play is developmentally appropriate—as it leverages school-age children’s innate curiosity while easing the often difficult transition from preschool to school. However, there is a dearth of evidence and practical guidance on how learning through play can be employed effectively in the formal school context, and the conditions that support success. This paper addresses the disconnect between policy, research and practice by presenting a range of empirical studies across a number of well-known pedagogies.
Impact of play based learning on the development.pdfvideosplay360
Play-based learning is a pedagogical approach that emphasises the use of play in promoting multipleareas of children’s development and learning. Free play and guided play are two types of play-basedlearning which guide early learning. The children acquire concepts, skills, and attitudes that lay thefoundation for lifelong learning through play pedagogies.
A Critical Analysis Of The Cognitive Constructivist And Socio-Cultural Theori...Tracy Hill
This document provides a summary and analysis of cognitive constructivist and socio-cultural theories as frameworks for kindergarten education. It discusses how both theories view how young children learn and construct knowledge. Specifically:
- Piaget's cognitive constructivism sees the child as a solitary learner constructing knowledge based on their experiences, while Vygotsky's socio-cultural theory emphasizes social interactions and cultural practices as important for knowledge acquisition.
- The kindergarten curriculum in Ghana draws on both theories by giving children opportunities to construct their own knowledge through interacting with materials and peers.
- Key principles of constructivist teaching outlined include creating a cooperative learning environment, provoking children's interests, and selecting challenging content to
Learning through play, a review of the evidencevideosplay360
This white paper summarises current evidence on
the role and importance of children’s learning through
play. We first consider what it takes to thrive in a 21st
century context, before defining learning in a broad
sense: both as a deep understanding of content and as
learning-to-learn skills that build on children’s natural
Executive summary
affinity to learn and engage with their world from birth.
We then draw on the science of effective learning,
rigorous play research and neuroscience to explore
the potential of playful experiences for promoting
deeper learning and a breadth of skills.
Rethinking Peer Apprenticeship Through the Acquisition of Compliance Skills i...ijtsrd
This empirical article reassessed peer apprenticeship as a cultural construct and how acquisition of compliance skills in Middle Childhood (6-11 Years) is guided by this construct. The main objective of this study was to investigate peer apprenticeship and the acquisition of compliance skills in middle childhood children. The purposive sampling technique was used to elect 75 participants that made up the sample of the study. The study employed a combination of primary and secondary data collection techniques. Primary techniques included field observations, and administration of questionnaire. The survey design was used to sample parents"™ and teachers"™ views while the quasi-experimental design was used for pupils. Analysis of findings revealed that; Peer apprenticeship influences the acquisition of compliance skills in children. This is evidence because the experimental group showed a significant improvement between the pre-test and post-test (P http://www.ijtsrd.com/medicine/physiology/18204/rethinking-peer-apprenticeship-through-the-acquisition-of-compliance-skills-in-middle-childhood-implications-for-cultural-socialisation-in-cameroon/dr-kumncho-eveline-neh
Learning Environment In Early Childhood Education Centers Of Lahoreiosrjce
In Pakistan, the focus of educators and policy makers has been primarily limited to curricular
planning and policy making, with little or no attention given to the worldwide changing trend in early childhood
education; the construction of a stimulating learning environment, and its subsequent influence on the
performance of a child. The present study was aimed at assessing the quality of the offered learning
environment in private early childhood education centers of Lahore, with the globally accepted tool for quality
assessment of classroom environments, the Early Childhood Environment Rating Scale-Revised (ECERS-R). A
non-probability convenience sampling method was used, primarily due to willingness to participate of private
institutes offering early childhood education services for children aged between 3-5 years. From the findings it
was concluded that while there is a varying range in quality of available learning environments, an overall low
quality is under practice by majority schools. In the light of these findings, implications for further research to
stress the overwhelming impact of learning environments on child performance are discussed, along with the
need for policy makers and educators to re-think and re-design the current curriculum and practices of early
childhood education accordingly
What Makes an Effective Science Lesson FinalScott Shaw
This document discusses metrics for measuring the effectiveness of science lessons. It argues that an appropriate metric is the uptake of girls in further science studies, as this allows girls to fulfill their potential. However, others object that societal factors outside of lessons influence subject choices. While some choices are made early, research shows classroom lessons also play a role. The document then discusses pedagogical approaches aimed at supporting girls in science, including encouraging social interaction, collaboration, creativity and problem solving, to develop confidence and foster learning.
This document summarizes a study that investigated children's perspectives on play and learning. Teacher-researchers used video recordings to examine how 3-4 year old children in an Australian preschool described and characterized their everyday classroom activities. The researchers found that children described play as an active experience involving peers, with freedom and ownership over ideas. However, children did not characterize all their activities as play, and not all preschool program activities were seen as play. The study highlights that play and learning are complex concepts that should not be viewed as separate by adults, but rather are deeply intertwined from the children's perspectives.
Learning Through Play at School – A Framework for Policy and Practicevideosplay360
Learning through play has emerged as an important strategy to promote student engagement, inclusion, and holistic skills development beyond the preschool years. Policy makers, researchers and educators have promoted the notion that learning though play is developmentally appropriate—as it leverages school-age children’s innate curiosity while easing the often difficult transition from preschool to school. However, there is a dearth of evidence and practical guidance on how learning through play can be employed effectively in the formal school context, and the conditions that support success. This paper addresses the disconnect between policy, research and practice by presenting a range of empirical studies across a number of well-known pedagogies.
Impact of play based learning on the development.pdfvideosplay360
Play-based learning is a pedagogical approach that emphasises the use of play in promoting multipleareas of children’s development and learning. Free play and guided play are two types of play-basedlearning which guide early learning. The children acquire concepts, skills, and attitudes that lay thefoundation for lifelong learning through play pedagogies.
A Critical Analysis Of The Cognitive Constructivist And Socio-Cultural Theori...Tracy Hill
This document provides a summary and analysis of cognitive constructivist and socio-cultural theories as frameworks for kindergarten education. It discusses how both theories view how young children learn and construct knowledge. Specifically:
- Piaget's cognitive constructivism sees the child as a solitary learner constructing knowledge based on their experiences, while Vygotsky's socio-cultural theory emphasizes social interactions and cultural practices as important for knowledge acquisition.
- The kindergarten curriculum in Ghana draws on both theories by giving children opportunities to construct their own knowledge through interacting with materials and peers.
- Key principles of constructivist teaching outlined include creating a cooperative learning environment, provoking children's interests, and selecting challenging content to
Learning through play, a review of the evidencevideosplay360
This white paper summarises current evidence on
the role and importance of children’s learning through
play. We first consider what it takes to thrive in a 21st
century context, before defining learning in a broad
sense: both as a deep understanding of content and as
learning-to-learn skills that build on children’s natural
Executive summary
affinity to learn and engage with their world from birth.
We then draw on the science of effective learning,
rigorous play research and neuroscience to explore
the potential of playful experiences for promoting
deeper learning and a breadth of skills.
Rethinking Peer Apprenticeship Through the Acquisition of Compliance Skills i...ijtsrd
This empirical article reassessed peer apprenticeship as a cultural construct and how acquisition of compliance skills in Middle Childhood (6-11 Years) is guided by this construct. The main objective of this study was to investigate peer apprenticeship and the acquisition of compliance skills in middle childhood children. The purposive sampling technique was used to elect 75 participants that made up the sample of the study. The study employed a combination of primary and secondary data collection techniques. Primary techniques included field observations, and administration of questionnaire. The survey design was used to sample parents"™ and teachers"™ views while the quasi-experimental design was used for pupils. Analysis of findings revealed that; Peer apprenticeship influences the acquisition of compliance skills in children. This is evidence because the experimental group showed a significant improvement between the pre-test and post-test (P http://www.ijtsrd.com/medicine/physiology/18204/rethinking-peer-apprenticeship-through-the-acquisition-of-compliance-skills-in-middle-childhood-implications-for-cultural-socialisation-in-cameroon/dr-kumncho-eveline-neh
Learning Environment In Early Childhood Education Centers Of Lahoreiosrjce
In Pakistan, the focus of educators and policy makers has been primarily limited to curricular
planning and policy making, with little or no attention given to the worldwide changing trend in early childhood
education; the construction of a stimulating learning environment, and its subsequent influence on the
performance of a child. The present study was aimed at assessing the quality of the offered learning
environment in private early childhood education centers of Lahore, with the globally accepted tool for quality
assessment of classroom environments, the Early Childhood Environment Rating Scale-Revised (ECERS-R). A
non-probability convenience sampling method was used, primarily due to willingness to participate of private
institutes offering early childhood education services for children aged between 3-5 years. From the findings it
was concluded that while there is a varying range in quality of available learning environments, an overall low
quality is under practice by majority schools. In the light of these findings, implications for further research to
stress the overwhelming impact of learning environments on child performance are discussed, along with the
need for policy makers and educators to re-think and re-design the current curriculum and practices of early
childhood education accordingly
What Makes an Effective Science Lesson FinalScott Shaw
This document discusses metrics for measuring the effectiveness of science lessons. It argues that an appropriate metric is the uptake of girls in further science studies, as this allows girls to fulfill their potential. However, others object that societal factors outside of lessons influence subject choices. While some choices are made early, research shows classroom lessons also play a role. The document then discusses pedagogical approaches aimed at supporting girls in science, including encouraging social interaction, collaboration, creativity and problem solving, to develop confidence and foster learning.
This document summarizes a study that investigated children's perspectives on play and learning. Teacher-researchers used video recordings to examine how 3-4 year old children in an Australian preschool described and characterized their everyday classroom activities. The researchers found that children described play as an active experience involving peers, with freedom and ownership over ideas. However, children did not characterize all their activities as play, and not all preschool program activities were seen as play. The study highlights that play and learning are complex concepts that should not be viewed as separate by adults, but rather are deeply intertwined from the children's perspectives.
Play-based learning involves using play as a context for learning. It can be child-initiated or include teacher support. Research shows play-based learning enhances academic and developmental outcomes compared to direct instruction and helps develop skills like problem solving, collaboration, and language. Play can take different forms along a continuum from free play which is child-directed to guided play where teachers are involved. Both have benefits and an optimal program includes opportunities for both. Play supports learning in all areas and developing skills needed for the 21st century like creativity and critical thinking in a way direct instruction cannot.
This document summarizes research on participatory learning and play. It discusses how work and play are often seen as opposites, but play is important for learning. The research team developed five principles for participatory learning: creativity, co-learning, engagement, relevance, and connections across learning environments. The team implemented professional development programs and after school programs to test these principles. Teachers reported successes with and challenges to applying participatory learning in their classrooms.
This document discusses the benefits of board games for education. It explores how board games can support academic learning as well as social and emotional development in children. Specifically, the document finds that board games allow children to develop skills like number sense, vocabulary, logic, and attention span. They also provide opportunities for social interaction, collaboration, and learning to take turns. The document concludes that board games can be aligned with the National Curriculum and used as educational resources in primary schools to support holistic child development.
Assessment in play-based kindergarten classrooms An empirical study of teach...Linda Garcia
This study examined kindergarten teachers' perspectives and practices regarding assessment within play-based learning contexts. 77 Ontario kindergarten teachers completed a survey about their views on the purpose of play, what they assess during play, and their assessment tools. 10 teachers also participated in interviews and classroom observations. The results showed that while most teachers saw benefits of play for social-emotional development, some also viewed play as supporting academic learning. However, what teachers reported assessing during play did not always align with their stated perspectives on the purpose of play. The observations provided insights into teachers' actual assessment practices within play-based activities.
An Interactive Educational Environment For Preschool ChildrenLeonard Goudy
The document proposes an interactive educational environment for preschool children that utilizes smart handheld devices equipped with NFC and wireless sensors. It aims to create a fun and educational environment where children can learn through play. The authors developed an application for Android that prompts children to search for and count objects to learn basic number skills. The application provides feedback on the child's counting and supports collaborative tasks between children. Evaluation of the approach focused on developing tasks related to counting objects using a 1-to-1 correspondence as an important early math concept.
pedagogical approaches & practices in Early childhood educationPushpita Rajawat
This document summarizes research on pedagogical approaches and practices for early childhood education (ECE). It discusses key approaches used in different countries like England, Japan, France, and Germany. Research evidence shows some approaches like Developmentally Appropriate Practice and Montessori have positive impacts on child development. Play-based learning, sustained shared thinking, and scaffolding are also effective when implemented well. The document concludes that governments should renew ECE pedagogical methods through better training, resources, and cross-cultural research to ensure quality learning outcomes.
Affect Of Play On Critical Thinking What Are The Perceptions Of Preservice T...Claudia Acosta
This document summarizes a study that explored the perceptions of preservice teachers regarding the impact of play on critical thinking skills in children. The study conducted interviews with two preservice teachers studying early childhood education. The interviews were transcribed and coded to identify themes. The findings suggested that the preservice teachers recognized the importance of play in cultivating critical thinking in children and agreed that children learn and construct knowledge through play. The document provides background on theories of cognitive development and critical thinking to support the study.
2.1 DEVELOPING A STATEMENT OF YOUR PROGRAM’S CORE VALUESThe co.docxlorainedeserre
2.1 DEVELOPING A STATEMENT OF YOUR PROGRAM’S CORE VALUES
The core values of a program of early care and education express the foundational, essential beliefs thatguide every aspect of its operation. They should reflect the knowledge base, history, and traditions thathave shaped the field of early childhood education as well as the philosophy of teaching and learningand beliefs about the purposes of education embraced by the program’s sponsor, leadership, and staff.They must also respond to the needs and values of the community that the program serves.Core Values of Early Childhood Education
The process of developing a statement of the program’s core values begins by considering theprofessional core values of the field of early childhood education that are part of the National Associationfor the Education of Young Children (NAEYC) Code of Ethical Conduct (NAEYC, 2011). They provide afoundation for the commitments all early childhood educators make to the children and families theyserve, to each other, and to their communities:
· Appreciate childhood as a unique and valuable stage of the human life cycle
· Base our work on knowledge of how children develop and learn
· Appreciate and support the bond between the child and family
· Recognize that children are best understood and supported in the context of family, culture,1community, and society
· Respect the dignity, worth, and uniqueness of each individual (child, family member, and colleague)
· Respect diversity in children, families, and colleagues
· Recognize that children and adults achieve their full potential in the context of relationships thatare based on trust and respect.
A center working to identify the particular core values upon which its programming is based shouldbegin by affirming its commitment to these core values. It may then, after careful consideration, decide ifit is appropriate to add to, expand upon, or elaborate on them to reflect their particular center’sphilosophy of teaching and learning, their views about the purposes of education, and the needs andvalues of their community.Theories of Teaching and Learning
A center’s approach to teaching and learning is based on theories of child development. This knowledgebase guides teachers’ day-to-day interactions with children, families, and colleagues; its curriculum; andeach classroom’s layout, daily schedule, materials, and equipment.
While not all early childhood educators agree about which theories are most accurate, the field is unifiedin its belief, as expressed in the core values in the NAEYC Code of Ethical Conduct that teachers of youngchildren must be familiar with theories of child development and must understand how these theoriesinform their work.A Brief Review of Developmental Theories That Have Influenced Early Childhood Education
Theories of cognitive development that describe how children learn, and theories that explore children’ssocial and emotional development, are essential components of early childhood e ...
Applied Theatre in Peace Education & PracticeJeff Aguiar
This document discusses using simulations, scenarios, and role-playing (applied theatre techniques) to train peace practitioners. It argues that applying theatrical principles can strengthen the connection between experiential education and peace and conflict studies. Experiential education uses direct experiences and reflection to increase knowledge and skills. Role-playing in classroom simulations provides opportunities to practice techniques, while field experiences verify how techniques apply in real situations. Theatrical principles may help increase the benefits of simulations by providing a structured intervention model within a safe environment.
This document summarizes a presentation on engaging learners in the second language classroom. It defines engagement as a student's active involvement in learning and discusses four types of engagement: behavioral, emotional, cognitive, and agentic. It explains that engagement is important for academic achievement and well-being. The presentation provides examples of instructional practices that can increase engagement, such as problem-based learning activities and designing learning experiences where students have autonomy. The presenter plans to study engagement in university English language classes in Japan through case studies of experienced teachers.
Academic Achievement In Grade 11 And 12 In K12 High School Students In Public...Scott Donald
This document discusses a study investigating the influence of parents' educational attainment on the academic achievement of grade 11 and 12 students in public and private schools. The study utilized surveys of students, teachers, and parents in Naval Biliran, Philippines. Previous research suggests parents' education level affects children's academic outcomes through factors like resources available at home, parental values around education, involvement in schooling, and modeling of skills. However, some research has found no relationship between parental education and student achievement. The study aims to further examine the long-term effects of parental education on children's educational and occupational success when controlling for socioeconomic status and children's behaviors.
Cultural practices and education in ghana the effects of traditional culture...Alexander Decker
This document summarizes a study on the effects of traditional Ghanaian culture on parental involvement in education. The study used interviews and document analysis to examine perspectives of community elders, parents, teachers, and administrators at a community school. The study found that traditional cultural norms and beliefs strongly influence how parents allocate resources, with cultural conformity being prioritized over education. Specifically, parents provide little support for their children's education, like not providing books or school supplies. However, parents will spend money on cultural events. The study aims to understand this disconnect and how culture impacts the value parents place on education.
Perceptions and Challenges of using Play Activities as Pedagogy: Perspectives...Premier Publishers
The study investigated the perceptions and challenges in using play activities as pedagogy in public kindergarten schools in the Ablekuma South Metro of the Greater Accra Region. Cross-sectional survey design was adopted for the study. Using the census sampling procedure, 164 kindergarten teachers were sampled for the study. A likert-type scale questionnaire was used to gather the requisite data for the study. The data were analysed using frequencies, percentages and the independent samples T-test. The study found out that teachers had positive perception about using play activities. It also came to light that lack of adequate funding; teaching learning resources, and inadequate qualified practitioners inhibited the use of play in kindergartens. There was ass statistically significant difference between male and female kindergarten teachers on the basis of the challenges encountered in the use of play activities. The study recommended that, the Ablekuma South-Metro, in collaboration with the educational directorate and schools organise in-service training on the significance of play activities to the holistic development of early learners. The educational directorate and the sampled school, with the support of the Parent Teacher Association should provide the basic teaching and learning materials required for children to engage in a meaningful and intellectual play.
Running Head ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATI.docxtoddr4
Running Head: ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATIVE 1
ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATIVE 8
Adoption of constructivist approach to promote creative and critical thinking in Learners
Student’s Name
Institutional Affiliation
Course
Today’s job market demands that employees should possess advanced skills including but not limited to creative, problem-solving and critical thinking skills. Lack of appropriate skills has made it difficult for new employees to effectively adapt to demands of the ever-changing job market. Employers in many countries have criticized the existing educational system for failing to produce creative and innovative learners. In United States, different scholars and researchers have pointed out that the current education curriculum is designed in a manner that focuses on drilling students for examination purposes (Topolovcan & Matijevic, 2017). Overemphasis on tests and examinations kills creativity and critical thinking in learners.
Currently, there is ensuing debate among policy makers, researchers, as well as scholars with regard to whether constructivist perspectives can foster creativity in students. Some hold the view that constructivist approach is not a sure way to promote critical and creative thinking in learners whereas others strongly believe that constructivist perspectives can significantly enhance critical and creative thinking in students. The main idea of constructivism is that students perform an active role in building their own meaning (Bada & Olusegun, 2015). In this paper, I strongly support the view that constructivist approach fosters creativity and critical thinking in students.
Unlike behaviorist models of learning which help instructors to comprehend and influence the actions of students, constructivism models assist instructors to understand what the learners are thinking and to enrich the student’s thinking (Dunlosky et al., 2013). Constructivism is a learning model that puts emphasis on the way learners actively construct or create knowledge based on experiences. Constructivist approaches are divided into social constructivism and psychological constructivism. These two forms of constructivist models emphasize on individual’s thinking as opposed to the behavior of individuals. Some of the ways through which constructivist approaches promote creativity and critical thinking in learners are described below.
Psychological constructivism holds that an individual acquires knowledge through intellectually organizing and reorganizing fresh experiences or information. Generally, organization occurs partially by associating fresh experiences with past knowledge that is already well known and meaningful. The individual constructivism is often associated with John Dewey, a famous educational philosopher (Bada & Olusegun, 2015). Dewey claimed that students actually learn mainly through constructing their own knowledge (Bada & Olusegun, 2015). As a re.
Factors Affecting Learning Islamic Science in Developing CountriesAI Publications
The main objective of Islamic religious education in Kurdistan schools is to inculcate Islamic teachings and values in Muslim students. However, recent studies indicate that students had interest to learn the subject. In response to this phenomenon, this study was carried out to identify the factors that affect students’ interest in learning Islamic education in schools in Kurdistan. The concern of this study is to identify the factors that influence students’ interest in learning Islamic education. Based on the findings, students’ interest in learning Islamic education was influenced by five major factors; i.e. age, gender, background education, previous experience and family role. All factors are interrelated whereby an initial interest in any individual can be developed or deepened by situational interest that provides meaningful learning experience for each student.
There are several key points about play-based learning discussed in the document:
1) Play-based learning is defined as learning through play activities, though there is no single agreed upon definition.
2) Play contributes to brain development by shaping brain structure and strengthening pathways.
3) Both educators and parents recognize benefits of play-based learning for children's development of social, cognitive, and language skills, as well as independence and confidence.
4) However, some parents perceive play-based learning negatively and prefer more traditional, standardized testing approaches they believe better prepare children for academics.
Home Location as a Predictor of Academic Performance of Children with Learnin...YogeshIJTSRD
The study sought to examine home location as a predictor of academic performance of children with learning disabilities in the Buea Municipality, South West Region of Cameroon. The study design was the purposive survey. The study population was made up of all children with learning disabilities in primary schools in the Buea Municipality in the South West Region of Cameroon. The purposive sampling technique was also used to select the sample for the study. Data was obtained through the use of a written exercise for the learners with learning disabilities. Data was analyzed using Epi data and result presented in frequencies, and proportions. Multiple Responses Analysis was also used for the grounding of concepts that emerged from the open ended questions. Chi Square test of equality of proportions was used to compare proportions for significant difference. Relationship between conceptual components was accessed using Spearman Rho Correlation test. Findings from the study indicated that there was a significant relationship between home location and academic performance of children with learning disabilities. Conclusively, there was a significant relationship between home location and academic performance of children with learning disabilities. This means that for persons with learning disabilities to academically perform well in school, the home factor towards education must be taken into consideration such as home location. Dr. Esonwo Emeaka Francisca | Dr. Ojong Angela Ojong "Home Location as a Predictor of Academic Performance of Children with Learning Disabilities in the Buea Municipality, South West Region of Cameroon" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, URL: https://www.ijtsrd.compapers/ijtsrd41313.pdf Paper URL: https://www.ijtsrd.comhumanities-and-the-arts/education/41313/home-location-as-a-predictor-of-academic-performance-of-children-with-learning-disabilities-in-the-buea-municipality-south-west-region-of-cameroon/dr-esonwo-emeaka-francisca
Vo l u m e 3 4 N u m b e r 2 J u n e 2 0 0 9 31The Au.docxdickonsondorris
Vo l u m e 3 4 N u m b e r 2 J u n e 2 0 0 9 31
The Australian Early Development Index, who does it measure:
Piaget or Vygotsky’s child?
Joseph Agbenyega
Faculty of Education, Monash University
sEVErAL PsyChOLOgICAL InsTruMEnTs have been developed and used over
the years to measure various domains of child development. The Australian Early
Development Index (AEDI) is a current assessment tool being used as a community
measure of young children’s development. It measures the following domains: Physical
health and wellbeing; Social competence; Emotional maturity; Language and cognitive
skills; Communication skills and general knowledge. This article examines the tacit
nuanced construction of the child within the AEDI, and critiques this within a cultural-
historical theoretical perspective of child development. The paper argues that the AEDI
image of the child has its roots in Piagetian and Gesellian stage theories of universality.
This position is juxtaposed with more encompassing views held in the Vygotskian
tradition. The paper advances arguments for an alternative consideration of child
development that does not prescribe vulnerability to certain groups of children.
Introduction
In ThIs PAPEr I WILL explore three different
theoretical traditions of development—Piaget, Gesell
and Vygotsky—focusing on the root belief structures.
Following this effort I will analyse how each theoretical
orientation shapes the Australian Early Development
Index (AEDI). I will then concentrate on the contribution
of Vygotsky’s cultural–historical theory to reframe a more
comprehensive view of looking at child development
and measurement. The purpose for doing this is to
tease out the tacit deficit model in the AEDI and how
its universal usage creates and prescribes vulnerability
to certain groups of children.
Theoretical perspectives on child
development
This section begins by unpacking the important
components of Piaget’s cognitive developmental
theory, followed by Gesell’s and Vygotsky’s as these
relate to the AEDI. The choice of Piaget’s and Gesell’s
philosophical positions are important to this paper
because these traditions often provide the framework
for constructing psychometric tests for measuring
school readiness from a maturational and biological
perspective, as does the AEDI. On the other hand,
Vygotsky’s cultural–historical theory is considered in
this paper as it provides an alternative and a broader
philosophical framework beyond a maturational
and biological perspective for thinking about child
development and school readiness.
Views about development are situated within broader
systems of theoretical knowledge. Damon (1998)
argues that the field of child development within the
last century was dominated by ‘three grand systems’:
Piaget, psychoanalysis and learning theory (p. xv).
Jean Piaget is renowned for his work on cognitive
development of children. His work focused on the
processes ...
Play-based learning involves using play as a context for learning. It can be child-initiated or include teacher support. Research shows play-based learning enhances academic and developmental outcomes compared to direct instruction and helps develop skills like problem solving, collaboration, and language. Play can take different forms along a continuum from free play which is child-directed to guided play where teachers are involved. Both have benefits and an optimal program includes opportunities for both. Play supports learning in all areas and developing skills needed for the 21st century like creativity and critical thinking in a way direct instruction cannot.
This document summarizes research on participatory learning and play. It discusses how work and play are often seen as opposites, but play is important for learning. The research team developed five principles for participatory learning: creativity, co-learning, engagement, relevance, and connections across learning environments. The team implemented professional development programs and after school programs to test these principles. Teachers reported successes with and challenges to applying participatory learning in their classrooms.
This document discusses the benefits of board games for education. It explores how board games can support academic learning as well as social and emotional development in children. Specifically, the document finds that board games allow children to develop skills like number sense, vocabulary, logic, and attention span. They also provide opportunities for social interaction, collaboration, and learning to take turns. The document concludes that board games can be aligned with the National Curriculum and used as educational resources in primary schools to support holistic child development.
Assessment in play-based kindergarten classrooms An empirical study of teach...Linda Garcia
This study examined kindergarten teachers' perspectives and practices regarding assessment within play-based learning contexts. 77 Ontario kindergarten teachers completed a survey about their views on the purpose of play, what they assess during play, and their assessment tools. 10 teachers also participated in interviews and classroom observations. The results showed that while most teachers saw benefits of play for social-emotional development, some also viewed play as supporting academic learning. However, what teachers reported assessing during play did not always align with their stated perspectives on the purpose of play. The observations provided insights into teachers' actual assessment practices within play-based activities.
An Interactive Educational Environment For Preschool ChildrenLeonard Goudy
The document proposes an interactive educational environment for preschool children that utilizes smart handheld devices equipped with NFC and wireless sensors. It aims to create a fun and educational environment where children can learn through play. The authors developed an application for Android that prompts children to search for and count objects to learn basic number skills. The application provides feedback on the child's counting and supports collaborative tasks between children. Evaluation of the approach focused on developing tasks related to counting objects using a 1-to-1 correspondence as an important early math concept.
pedagogical approaches & practices in Early childhood educationPushpita Rajawat
This document summarizes research on pedagogical approaches and practices for early childhood education (ECE). It discusses key approaches used in different countries like England, Japan, France, and Germany. Research evidence shows some approaches like Developmentally Appropriate Practice and Montessori have positive impacts on child development. Play-based learning, sustained shared thinking, and scaffolding are also effective when implemented well. The document concludes that governments should renew ECE pedagogical methods through better training, resources, and cross-cultural research to ensure quality learning outcomes.
Affect Of Play On Critical Thinking What Are The Perceptions Of Preservice T...Claudia Acosta
This document summarizes a study that explored the perceptions of preservice teachers regarding the impact of play on critical thinking skills in children. The study conducted interviews with two preservice teachers studying early childhood education. The interviews were transcribed and coded to identify themes. The findings suggested that the preservice teachers recognized the importance of play in cultivating critical thinking in children and agreed that children learn and construct knowledge through play. The document provides background on theories of cognitive development and critical thinking to support the study.
2.1 DEVELOPING A STATEMENT OF YOUR PROGRAM’S CORE VALUESThe co.docxlorainedeserre
2.1 DEVELOPING A STATEMENT OF YOUR PROGRAM’S CORE VALUES
The core values of a program of early care and education express the foundational, essential beliefs thatguide every aspect of its operation. They should reflect the knowledge base, history, and traditions thathave shaped the field of early childhood education as well as the philosophy of teaching and learningand beliefs about the purposes of education embraced by the program’s sponsor, leadership, and staff.They must also respond to the needs and values of the community that the program serves.Core Values of Early Childhood Education
The process of developing a statement of the program’s core values begins by considering theprofessional core values of the field of early childhood education that are part of the National Associationfor the Education of Young Children (NAEYC) Code of Ethical Conduct (NAEYC, 2011). They provide afoundation for the commitments all early childhood educators make to the children and families theyserve, to each other, and to their communities:
· Appreciate childhood as a unique and valuable stage of the human life cycle
· Base our work on knowledge of how children develop and learn
· Appreciate and support the bond between the child and family
· Recognize that children are best understood and supported in the context of family, culture,1community, and society
· Respect the dignity, worth, and uniqueness of each individual (child, family member, and colleague)
· Respect diversity in children, families, and colleagues
· Recognize that children and adults achieve their full potential in the context of relationships thatare based on trust and respect.
A center working to identify the particular core values upon which its programming is based shouldbegin by affirming its commitment to these core values. It may then, after careful consideration, decide ifit is appropriate to add to, expand upon, or elaborate on them to reflect their particular center’sphilosophy of teaching and learning, their views about the purposes of education, and the needs andvalues of their community.Theories of Teaching and Learning
A center’s approach to teaching and learning is based on theories of child development. This knowledgebase guides teachers’ day-to-day interactions with children, families, and colleagues; its curriculum; andeach classroom’s layout, daily schedule, materials, and equipment.
While not all early childhood educators agree about which theories are most accurate, the field is unifiedin its belief, as expressed in the core values in the NAEYC Code of Ethical Conduct that teachers of youngchildren must be familiar with theories of child development and must understand how these theoriesinform their work.A Brief Review of Developmental Theories That Have Influenced Early Childhood Education
Theories of cognitive development that describe how children learn, and theories that explore children’ssocial and emotional development, are essential components of early childhood e ...
Applied Theatre in Peace Education & PracticeJeff Aguiar
This document discusses using simulations, scenarios, and role-playing (applied theatre techniques) to train peace practitioners. It argues that applying theatrical principles can strengthen the connection between experiential education and peace and conflict studies. Experiential education uses direct experiences and reflection to increase knowledge and skills. Role-playing in classroom simulations provides opportunities to practice techniques, while field experiences verify how techniques apply in real situations. Theatrical principles may help increase the benefits of simulations by providing a structured intervention model within a safe environment.
This document summarizes a presentation on engaging learners in the second language classroom. It defines engagement as a student's active involvement in learning and discusses four types of engagement: behavioral, emotional, cognitive, and agentic. It explains that engagement is important for academic achievement and well-being. The presentation provides examples of instructional practices that can increase engagement, such as problem-based learning activities and designing learning experiences where students have autonomy. The presenter plans to study engagement in university English language classes in Japan through case studies of experienced teachers.
Academic Achievement In Grade 11 And 12 In K12 High School Students In Public...Scott Donald
This document discusses a study investigating the influence of parents' educational attainment on the academic achievement of grade 11 and 12 students in public and private schools. The study utilized surveys of students, teachers, and parents in Naval Biliran, Philippines. Previous research suggests parents' education level affects children's academic outcomes through factors like resources available at home, parental values around education, involvement in schooling, and modeling of skills. However, some research has found no relationship between parental education and student achievement. The study aims to further examine the long-term effects of parental education on children's educational and occupational success when controlling for socioeconomic status and children's behaviors.
Cultural practices and education in ghana the effects of traditional culture...Alexander Decker
This document summarizes a study on the effects of traditional Ghanaian culture on parental involvement in education. The study used interviews and document analysis to examine perspectives of community elders, parents, teachers, and administrators at a community school. The study found that traditional cultural norms and beliefs strongly influence how parents allocate resources, with cultural conformity being prioritized over education. Specifically, parents provide little support for their children's education, like not providing books or school supplies. However, parents will spend money on cultural events. The study aims to understand this disconnect and how culture impacts the value parents place on education.
Perceptions and Challenges of using Play Activities as Pedagogy: Perspectives...Premier Publishers
The study investigated the perceptions and challenges in using play activities as pedagogy in public kindergarten schools in the Ablekuma South Metro of the Greater Accra Region. Cross-sectional survey design was adopted for the study. Using the census sampling procedure, 164 kindergarten teachers were sampled for the study. A likert-type scale questionnaire was used to gather the requisite data for the study. The data were analysed using frequencies, percentages and the independent samples T-test. The study found out that teachers had positive perception about using play activities. It also came to light that lack of adequate funding; teaching learning resources, and inadequate qualified practitioners inhibited the use of play in kindergartens. There was ass statistically significant difference between male and female kindergarten teachers on the basis of the challenges encountered in the use of play activities. The study recommended that, the Ablekuma South-Metro, in collaboration with the educational directorate and schools organise in-service training on the significance of play activities to the holistic development of early learners. The educational directorate and the sampled school, with the support of the Parent Teacher Association should provide the basic teaching and learning materials required for children to engage in a meaningful and intellectual play.
Running Head ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATI.docxtoddr4
Running Head: ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATIVE 1
ADOPTION OF CONSTRUCTIVIST APPROACH TO FOSTER CREATIVE 8
Adoption of constructivist approach to promote creative and critical thinking in Learners
Student’s Name
Institutional Affiliation
Course
Today’s job market demands that employees should possess advanced skills including but not limited to creative, problem-solving and critical thinking skills. Lack of appropriate skills has made it difficult for new employees to effectively adapt to demands of the ever-changing job market. Employers in many countries have criticized the existing educational system for failing to produce creative and innovative learners. In United States, different scholars and researchers have pointed out that the current education curriculum is designed in a manner that focuses on drilling students for examination purposes (Topolovcan & Matijevic, 2017). Overemphasis on tests and examinations kills creativity and critical thinking in learners.
Currently, there is ensuing debate among policy makers, researchers, as well as scholars with regard to whether constructivist perspectives can foster creativity in students. Some hold the view that constructivist approach is not a sure way to promote critical and creative thinking in learners whereas others strongly believe that constructivist perspectives can significantly enhance critical and creative thinking in students. The main idea of constructivism is that students perform an active role in building their own meaning (Bada & Olusegun, 2015). In this paper, I strongly support the view that constructivist approach fosters creativity and critical thinking in students.
Unlike behaviorist models of learning which help instructors to comprehend and influence the actions of students, constructivism models assist instructors to understand what the learners are thinking and to enrich the student’s thinking (Dunlosky et al., 2013). Constructivism is a learning model that puts emphasis on the way learners actively construct or create knowledge based on experiences. Constructivist approaches are divided into social constructivism and psychological constructivism. These two forms of constructivist models emphasize on individual’s thinking as opposed to the behavior of individuals. Some of the ways through which constructivist approaches promote creativity and critical thinking in learners are described below.
Psychological constructivism holds that an individual acquires knowledge through intellectually organizing and reorganizing fresh experiences or information. Generally, organization occurs partially by associating fresh experiences with past knowledge that is already well known and meaningful. The individual constructivism is often associated with John Dewey, a famous educational philosopher (Bada & Olusegun, 2015). Dewey claimed that students actually learn mainly through constructing their own knowledge (Bada & Olusegun, 2015). As a re.
Factors Affecting Learning Islamic Science in Developing CountriesAI Publications
The main objective of Islamic religious education in Kurdistan schools is to inculcate Islamic teachings and values in Muslim students. However, recent studies indicate that students had interest to learn the subject. In response to this phenomenon, this study was carried out to identify the factors that affect students’ interest in learning Islamic education in schools in Kurdistan. The concern of this study is to identify the factors that influence students’ interest in learning Islamic education. Based on the findings, students’ interest in learning Islamic education was influenced by five major factors; i.e. age, gender, background education, previous experience and family role. All factors are interrelated whereby an initial interest in any individual can be developed or deepened by situational interest that provides meaningful learning experience for each student.
There are several key points about play-based learning discussed in the document:
1) Play-based learning is defined as learning through play activities, though there is no single agreed upon definition.
2) Play contributes to brain development by shaping brain structure and strengthening pathways.
3) Both educators and parents recognize benefits of play-based learning for children's development of social, cognitive, and language skills, as well as independence and confidence.
4) However, some parents perceive play-based learning negatively and prefer more traditional, standardized testing approaches they believe better prepare children for academics.
Home Location as a Predictor of Academic Performance of Children with Learnin...YogeshIJTSRD
The study sought to examine home location as a predictor of academic performance of children with learning disabilities in the Buea Municipality, South West Region of Cameroon. The study design was the purposive survey. The study population was made up of all children with learning disabilities in primary schools in the Buea Municipality in the South West Region of Cameroon. The purposive sampling technique was also used to select the sample for the study. Data was obtained through the use of a written exercise for the learners with learning disabilities. Data was analyzed using Epi data and result presented in frequencies, and proportions. Multiple Responses Analysis was also used for the grounding of concepts that emerged from the open ended questions. Chi Square test of equality of proportions was used to compare proportions for significant difference. Relationship between conceptual components was accessed using Spearman Rho Correlation test. Findings from the study indicated that there was a significant relationship between home location and academic performance of children with learning disabilities. Conclusively, there was a significant relationship between home location and academic performance of children with learning disabilities. This means that for persons with learning disabilities to academically perform well in school, the home factor towards education must be taken into consideration such as home location. Dr. Esonwo Emeaka Francisca | Dr. Ojong Angela Ojong "Home Location as a Predictor of Academic Performance of Children with Learning Disabilities in the Buea Municipality, South West Region of Cameroon" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, URL: https://www.ijtsrd.compapers/ijtsrd41313.pdf Paper URL: https://www.ijtsrd.comhumanities-and-the-arts/education/41313/home-location-as-a-predictor-of-academic-performance-of-children-with-learning-disabilities-in-the-buea-municipality-south-west-region-of-cameroon/dr-esonwo-emeaka-francisca
Vo l u m e 3 4 N u m b e r 2 J u n e 2 0 0 9 31The Au.docxdickonsondorris
Vo l u m e 3 4 N u m b e r 2 J u n e 2 0 0 9 31
The Australian Early Development Index, who does it measure:
Piaget or Vygotsky’s child?
Joseph Agbenyega
Faculty of Education, Monash University
sEVErAL PsyChOLOgICAL InsTruMEnTs have been developed and used over
the years to measure various domains of child development. The Australian Early
Development Index (AEDI) is a current assessment tool being used as a community
measure of young children’s development. It measures the following domains: Physical
health and wellbeing; Social competence; Emotional maturity; Language and cognitive
skills; Communication skills and general knowledge. This article examines the tacit
nuanced construction of the child within the AEDI, and critiques this within a cultural-
historical theoretical perspective of child development. The paper argues that the AEDI
image of the child has its roots in Piagetian and Gesellian stage theories of universality.
This position is juxtaposed with more encompassing views held in the Vygotskian
tradition. The paper advances arguments for an alternative consideration of child
development that does not prescribe vulnerability to certain groups of children.
Introduction
In ThIs PAPEr I WILL explore three different
theoretical traditions of development—Piaget, Gesell
and Vygotsky—focusing on the root belief structures.
Following this effort I will analyse how each theoretical
orientation shapes the Australian Early Development
Index (AEDI). I will then concentrate on the contribution
of Vygotsky’s cultural–historical theory to reframe a more
comprehensive view of looking at child development
and measurement. The purpose for doing this is to
tease out the tacit deficit model in the AEDI and how
its universal usage creates and prescribes vulnerability
to certain groups of children.
Theoretical perspectives on child
development
This section begins by unpacking the important
components of Piaget’s cognitive developmental
theory, followed by Gesell’s and Vygotsky’s as these
relate to the AEDI. The choice of Piaget’s and Gesell’s
philosophical positions are important to this paper
because these traditions often provide the framework
for constructing psychometric tests for measuring
school readiness from a maturational and biological
perspective, as does the AEDI. On the other hand,
Vygotsky’s cultural–historical theory is considered in
this paper as it provides an alternative and a broader
philosophical framework beyond a maturational
and biological perspective for thinking about child
development and school readiness.
Views about development are situated within broader
systems of theoretical knowledge. Damon (1998)
argues that the field of child development within the
last century was dominated by ‘three grand systems’:
Piaget, psychoanalysis and learning theory (p. xv).
Jean Piaget is renowned for his work on cognitive
development of children. His work focused on the
processes ...
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A Visual Guide to 1 Samuel | A Tale of Two HeartsSteve Thomason
These slides walk through the story of 1 Samuel. Samuel is the last judge of Israel. The people reject God and want a king. Saul is anointed as the first king, but he is not a good king. David, the shepherd boy is anointed and Saul is envious of him. David shows honor while Saul continues to self destruct.
Gender and Mental Health - Counselling and Family Therapy Applications and In...PsychoTech Services
A proprietary approach developed by bringing together the best of learning theories from Psychology, design principles from the world of visualization, and pedagogical methods from over a decade of training experience, that enables you to: Learn better, faster!
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LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
2. | 1163
GUIDED PLAY SYSTEMATIC REVIEW
to understand the similarities and differences in the ways
that studies use guidance during play. To date, there has
been no systematic synthesis of the evidence and ques-
tions remain about the effectiveness, conceptualization,
and quality of guided play interventions and their eval-
uations. This evidence may have important implications
for ECE practice, particularly for early years policy and
curricula.
Guided play and the theoretical basis for
effectiveness
According to recent conceptualizations, guided play
has three fundamental characteristics that combine to
provide an optimal learning experience (Weisberg et al.,
2013). First, the adult providing guidance should have a
clear learning goal in mind when setting up a playful ac-
tivity (Toub et al., 2018; Weisberg et al., 2016). Second,
the activity or interaction should allow children some
degree of choice and agency over their play: whether
the playful interaction is adult- or child-initiated, play
should be child-led where possible (Hirsh-Pasek et al.,
2009). Finally, the adult should be flexible in their use
of guidance techniques (e.g., by using open-ended ques-
tions, hints, prompts, modeling) to ensure sensitivity to
the child's interests and needs. This requires the guiding
adult to notice, interpret, and respond to a child's cues
(Fisher et al., 2011). The combination of these features
is believed to render guided play a particularly powerful
context for learning, compared with free play or didactic
learning alone. Specifically, in guided play, the learn-
ing experience is inherently meaningful to the child as
play naturally cultivates their enjoyment, motivation,
and agency; while the inclusion of guidance by a sup-
portive adult extends the scope for learning beyond what
the child might achieve on their own (Hopkins et al.,
2019; Weisberg et al., 2016). It is important to note that
the term guided play does not have to relate to a specific
type of play, indeed it could include elements of several
types including physical play, object play, and pretend
and sociodramatic play.
While the label “guided play” is relatively recent,
there is a strong conceptual basis grounded in develop-
mental theory for its potential effectiveness. Assistance
during play is widely believed to foster children's learn-
ing by providing them with more opportunities for active
participation and self-reflection than what is afforded
by traditional didactic teaching methods (Smith, 1980;
Sylva, 1984). Indeed, the interconnection between free-
dom and guidance, where the adult observes a child's play
with interest to determine when and how to intervene to
support their learning, is a central tenet of Froebelian
philosophy of education (Bruce, 2015). An early form
of guided play can be seen in “play tutoring” studies in
1970–1990s following on from Smilansky’s (1968) work
which sought to enhance children's sociodramatic play
through the provision of adult support and appropriate
environments.
The value of active learning and adult support is
highlighted in developmental theories which underpin
many existing ECE practices, such as Vygotsky’s (1978)
Zone of Proximal Development and scaffolding (Wood
et al., 1976) and Rogoff's theory of guided participation
(Rogoff, 2003). From the perspective of sociocultural
theory, guided play aims to allow children to engage
with and learn from their environment while receiv-
ing adult support that is contingent on their individual
needs and interests (Weisberg et al., 2016). Guidance at
appropriate times, for example, when a child appears to
find an activity too difficult or too easy, can help them
learn beyond what might be possible in independent play
(Hannikainen & Munter, 2018; Van de Pol et al., 2012).
Moreover, children's active engagement in a learning
situation is believed to prepare them for future learn-
ing experiences (Rogoff, 2008). In this way, these en-
gaged learning encounters may provide a fertile practice
ground for skills such as confidence and critical thinking
that children can take with them to future learning situa-
tions (Hopkins et al., 2019).
The use of guidance during play is considered espe-
cially valuable given that play may afford several bene-
fits to children's learning. Various characteristics that
are often present during play, such as positive emotion,
meaningful contexts, active engagement, and social
interaction, can have a facilitative effect on children's
learning (Hirsh-Pasek et al., 2015; Zosh et al., 2017).
This aligns with Piagetian theory which suggests that
play fosters learning as it allows information to be
gathered in meaningful and intrinsically motivating
ways (Piaget, 1972; Wood & Bennett, 1998). Similarly,
self-determination theory emphasizes that agency, ex-
perienced by children as they play, engenders their
motivation to engage and learn (Deci & Ryan, 2000).
Activities that are meaningful and enjoyable can sup-
port enhanced memory, attention, and motivation, all
of which are important factors for learning (Bodrova
et al., 2018; Bunzeck et al., 2012; Dang et al., 2012).
Given the potential of guided play as a privileged
context for children's learning, a review of the literature
is needed to evaluate the evidence, and to determine
whether guided play is well-suited to certain learning
contexts and outcomes (Weisberg & Zosh, 2018).
Guided play in policy and practice
Policy developments in the United States and the United
Kingdom toward a greater academic focus have triggered
debate about the role of play-based learning in ECE set-
tings (Martlew et al., 2011; Pyle & Danniels, 2016; Russell,
2011). The UK’s Early Years Foundation Stage (EYFS)
Framework (Department for Education, 2018, 2020) and
the USA’s “No Child Left Behind Act” (2002) both outline
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extensive academic targets which children are expected
to achieve within their first few years of formal school-
ing (Hirsh-Pasek et al., 2009). Curriculum pressures can
seem incompatible with playful environments resulting
in classrooms favoring direct instruction (Fisher et al.,
2011; Hirsh-Pasek et al., 2009; Pyle & Danniels, 2016).
This bifurcation of play and learning in policy and cur-
ricula has been linked to ECE teachers’ reports that they
feel uncertain about how to deliver learning through play
(Bubikova-Moan et al., 2019).
An understanding of the state of the evidence re-
garding the effectiveness of play-based learning is
needed to inform decisions about teacher education
and professional development (Bubikova-Moan et al.,
2019; Pyle & Danniels, 2016). Clarity is needed regard-
ing how play-based learning might be effectively im-
plemented in a way that is manageable for teachers
(Pramling et al., 2019).
Existing reviews
This is the first review to examine the effectiveness of
guided play interventions on children's learning. There
are several existing reviews which consider one of the
components of guided play; specifically, the impact of
adult guidance during children's learning outside of play.
A meta-analysis of 360 studies that compared guidance
during discovery-based learning (in which children learn
through independent exploration) to traditional teaching,
found a small effect (d = .30) on learning outcomes (Alfieri
et al., 2011). Positive effects were domain-specific with
large effects observed for computer-based skills, medium
effects for verbal and social skills, and smaller effects
for maths and science outcomes. A review of 72 studies
examining maths and science outcomes revealed a posi-
tive effect of guidance (d = .50) versus no-guidance dur-
ing inquiry-based learning, where children learn through
self-directed investigations (Lazonder & Harmsen, 2016).
Existing reviews have suggested that lower levels of guid-
ance may increase levels of cognitive demand on children
by exceeding the limitations of their working memory
capacity. This suggests that there may be optimal levels
of guidance for learning to occur (Kirschner et al., 2006;
Lazonder & Harmsen, 2016; Mayer, 2004). However, the
optimal level of adult guidance may depend on the target
outcome (Hobbs et al., 2019). Therefore, there is a need
to consider how, and to what degree, adult guidance is
implemented during interventions to better understand
its potential effectiveness for learning and development
(Fisher et al., 2011; Yu et al., 2018).
Crucially, the existing reviews do not focus on play
contexts, thus the additional affordances that play con-
texts may offer, particularly for young children, have not
yet been subject to systematic review. One notable ex-
ception is a review of six studies involving the “Tools of
the Mind” play-based curriculum. The intervention had
a small but significant positive effect on maths (d = .06)
but not literacy or self-regulation outcomes (Baron et al.,
2017). Tools of the Mind has some features which may
overlap with guided play. For example, teachers sup-
port children to produce learning-focused “play plans”
which they use to act out their own play scenarios (so the
guidance is occurring before, rather than during the play
(Barnett et al., 2008). However, the effects of this guid-
ance cannot be disentangled from the impact of other
activities in the program.
Rationale and objectives
Developmental theories suggest that combining adult
guidance and child agency in educational contexts could
benefit a wide range of learning and developmental out-
comes (Vygotsky, 1978). While existing research suggests
that guided play is a promising approach for promoting
children's learning, the evidence is diffuse and results are
mixed, particularly when guided play is contrasted with
alternative classroom experiences like free play and di-
rect instruction. Weisberg et al. (2013) and Zosh et al.’s
(2018) recent conceptualizations of guided play provide a
cohesive framework within which to synthesize the liter-
ature. Furthermore, due to the recent resurgence of play
research (Whitebread, 2019), which includes important
studies on guided play, this is an opportune moment to
review the literature.
The current review aimed to collate and synthesize
research studies that have investigated the effects of
guidance during play on children's outcomes. Two key
research questions were addressed: (1) how effective are
guided play interventions for improving children's learning
and developmental outcomes compared to free play and di-
rect instruction, and (2) how is guided play conceptualized
and implemented within experimental studies with respect
to adult guidance and child choice? To address the first
(primary) research question, results from multiple studies
were combined for meta-analyses (where appropriate) to
determine an overall effect of guided play on various child
outcomes, relative to free play or direct instruction. To
address the secondary research question, a narrative syn-
thesis approach was used to examine textual references
to how guided play was both conceptualized and imple-
mented across studies, and how these two concepts relate
to each other. The research questions and analyses were
pre-specified, but no directional hypotheses were made.
METHOD
Protocol, registration, and reporting standards
A protocol was submitted to the PROSPERO registry
for systematic reviews (CRD number: 42019153366).
PRISMA guidelines of reporting were followed.
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GUIDED PLAY SYSTEMATIC REVIEW
Eligibility criteria
Types of studies
This review included randomized controlled trials
(RCTs), in which participants were assigned randomly
to either an intervention or control group; and non-
randomized (or quasi-experimental) controlled trials, in
which assignment was non-random but where the study
otherwise resembles a randomized field experiment
(Remler & van Ryzin, 2010). Non-randomized designs
included counterbalance methods (in which the child is
exposed to both conditions) where the study presented a
distinction in results after each stage of counterbalanc-
ing. The searches were conducted with no restrictions
based on publication date, language, or type of report
(e.g., published journal article, thesis, conference report).
Types of participants
The population of interest was children with a mean age
of 1–8 years (12–96 months), regardless of gender, eth-
nicity, developmental ability, or socio-economic status.
This age range was chosen as it is commonly used to de-
fine early childhood (World Health Organisation, 2020),
the scope for child choice over their actions is limited for
children under the age of 1 year, and studies involving
children over the age of 8 years do not typically involve
play or playfulness. Only studies in which a teacher, par-
ent, or member of a research team provided guidance to
the child were included (e.g., studies involving peer sup-
port or guidance from a computer were not included).
Types of settings
While the educational nature of guided play suggests that
most studies would be carried out in ECE classrooms,
studies were also included if they were carried out in
laboratory-based, museum, or home environments.
Types of interventions
Studies were included if they compared a curriculum,
intervention, or activity involving guided play, to one
or more control groups. Guided play was defined as
an approach that involves: (a) child autonomy (a child
has some freedom and choice over their own actions
and play behavior), (b) adult guidance (an adult initi-
ates the play experience and provides guidance using
one or more of the following strategies: providing sen-
sitive hints/prompts, asking open-ended questions, set-
ting challenges, guiding a child's attention by modeling,
joining in the play [co-play], and/or adapting to the indi-
vidual needs, interests, and understanding of the child
[scaffolding]), and (c) a learning goal (the play-based task
has a clear learning goal which the adult keeps in mind
and guides the child toward). This definition is based on
Weisberg et al.’s (2013) conceptualization of guided play
and was further developed through consultation with an
expert panel (see Appendix S1).
Eligible control conditions were free play or direct
instruction/business-as-usual. Free play was defined
as play which is initiated and directed by a child with
no specified learning goal or adult involvement (Zosh
et al., 2018), although the available materials may be
constrained (e.g., blocks). Direct instruction was defined
as the use of didactic teaching methods to explicitly in-
struct children of a skill or learning goal, during which
the child has limited choice in the interaction (Weisberg
et al., 2016). Only studies in which an intervention or ex-
posure had been introduced by the research group were
eligible for inclusion, meaning that studies in which nat-
ural exposure occurred were not included.
Types of outcome measures
For inclusion, studies had to assess at least one outcome
relating to child learning and development in one of the
following categories: cognitive and academic learning
(e.g., language/literacy, maths/numeracy, science, or ex-
ecutive function/self-regulation), socioemotional devel-
opment (e.g., prosocial behavior, anxiety, behavior), or
physical development (e.g., gross motor skills). The re-
view aimed to map the outcomes that have been used
in the existing guided play literature. A broad range of
learning and development domains were considered for
inclusion and no restrictions were placed on the outcome
measures used. This reflects the broad range of out-
comes that are likely to be relevant to ECE practitioners.
Search methods for identification of studies
Information sources
Eight databases were selected following consultation
with an information specialist. These included a broad
range of relevant psychology and education journals
that are also commonly searched in other reviews of
education research. The databases were ERIC (EBSCO),
BEI (EBSCO), Child Development and Adolescent
Studies (EBSCO), PsycINFO (EBSCO), PsycARTICLES
(EBSCO), Scopus, Web of Science, and OpenGrey (www.
opengrey.eu/).
Search
An initial scope of the literature and consultation with an
expert panel identified the following keywords: guided
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play, scaffolded play, enhanced play, facilitated play,
assisted play, supported play, learning through play,
play-based learning, and purposeful play. Appropriate
search options—including Boolean operators, MESH
terms, and truncation operators—were used to con-
struct and combine searches for each of the databases.
Initial searches were conducted on October 17, 2019,
with a supplementary search conducted on February 16,
2021. The full search strategy is provided in Supporting
Information (see Tables S1 and S5). All electronic data-
bases were set to email K.S. for a period of 8 months fol-
lowing the initial search to identify new articles which
matched the search strategy. At regular intervals, these
studies were collated and screened for relevance and
included if appropriate. Articles were also identified
through hand searching the reference lists of key papers
and those that were screened as eligible for inclusion.
A list of all studies identified for inclusion was shared
with an expert panel to ensure key papers had not been
missed. Any additional papers suggested were screened
for inclusion.
Data collection and analysis
Four authors were involved in screening papers for eligi-
bility and in data extraction (K.S., E.M.B., C.O.F., and
N.K.).
Study selection
All papers generated from the search strategy were ex-
ported to EPPI-Reviewer 4 (Thomas et al., 2020). Two
authors independently screened titles and abstracts of
all articles for inclusion using the eligibility criteria.
Another author independently screened the abstracts
and titles of 10% of identified studies for reliability pur-
poses. Disagreements between individual judgments
occurred for 3% of papers and were resolved through
discussion. Studies identified as eligible or “in need of
further information” were then screened as full texts,
again with 10% screened by an additional reviewer.
Data extraction and management
Two pairs of researchers independently extracted data
from all studies that were included following full-text
screening. Discrepancies were discussed and resolved
with a third reviewer when required.
A detailed code set, informed by the Cochrane
Checklist (Higgins & Green, 2011), was used for data ex-
traction; see Appendix S2 for a copy of the coding form.
Data were extracted based on the inclusion and exclu-
sion criteria, characteristics of the study setting and pop-
ulation (including the ethnicity and gender/sex make-up
of the sample), research design, and type of outcome
measures. Further details about the intervention itself
were also extracted (e.g., adult involved, setting, type
of adult guidance used). To support narrative synthe-
sis, information relating to the conceptualization and
implementation of guided play was also extracted from
the background and method sections of included studies.
Where available, raw means and SDs of post-test scores
(or gain scores for those that only reported pre-to-post
differences) were extracted. EPPI-Reviewer 4 (Thomas
et al., 2020) was used to calculate Hedges’ g effect sizes
and 95% CIs. Where data were missing or unclear, au-
thors were contacted to request further information. If
numerical data were missing and authors could not pro-
vide this information, studies were included in the review
but not in the meta-analyses. Details of excluded studies
are noted in Table S2.
Risk of bias in included studies
The quality of included papers was assessed using the
Cochrane Risk of Bias Tool (Higgins & Green, 2011). The
tool provides a consistent framework with which to as-
sess risk of bias across the included papers—that is, the
risk of over- or under-estimating true intervention effects
(i.e., internal validity). Each study was rated as having a
“high,” “low,” or “unclear” risk of bias for the follow-
ing domains: random sequence allocation, allocation
concealment, blinding of participants and personnel,
blinding of outcome assessment, handling of incomplete
outcome data, selective reporting of outcomes, and other
biases. The latter comprised pre-specified confounds
typical in education-based research (e.g., the inclusion of
a single teacher/class/school in the study and conflicts of
interests—such as authors designing and delivering the
intervention). Each eligible study was independently as-
sessed by two authors (E.M.B. and K.S., or E.M.B. and
N.K.) and any discrepancies were resolved through dis-
cussion with a third reviewer (C.O.F. or P.G.R.).
While the tool provides a standardized and transpar-
ent procedure for assessing the internal validity of trials,
it is not without limitations. The validity of the tool is
not yet well-established, and modest levels of inter-rater
agreementhavebeenreported—indicatingsubjectivityin
making judgments of bias (potentially due to lack of clear
guidelines; Jørgensen et al., 2016). Furthermore, items
are often deemed “unclear” due to difficultly retrieving
information that is not reported by authors, meaning a
judgment regarding bias is not always possible, or that
information is gathered from less reliable sources (i.e.,
not the manuscript; Faggion, 2016). Due to the dichot-
omous nature of the tool, and difficulty in judging bias
of some items due to insufficient information being pro-
vided in the manuscripts, the tool may be less sensitive
to between-study heterogeneity. Nevertheless, the tool is
widely used to evaluate the quality of trials and provides
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GUIDED PLAY SYSTEMATIC REVIEW
useful guidelines for standardizing the decision-making
process (Deeks et al., 2020).
Measures of treatment effects
For continuous outcome measures, the Hedges’ g statis-
tic was used to measure the effect size between the post-
test scores of the intervention and comparison groups.
For studies that compared guided play to both free play
and direct instruction, separate effect sizes were calcu-
lated for each comparison condition. Meta-analyses
were only conducted for outcomes which had data from
at least two studies using similar outcome measures.
Assessment of heterogeneity
The I2
statistic quantifies heterogeneity by describing the
degree of variance across studies (reported as a percent-
age) and is less dependent on the number of studies in-
cluded in an analysis than other measures (Higgins et al.,
2003). A higher I2
value indicates greater heterogeneity.
Assessment of reporting biases
The effect size associated with the primary outcome meas-
ure for each intervention was plotted against the standard
error in a funnel plot (created in EPPI-Reviewer 4; Thomas
et al., 2020). Egger's regression asymmetry test was then
used to assess publication bias (Egger et al., 1997).
Quantitative and qualitative synthesis
Following data extraction, findings were examined quan-
titatively and qualitatively. First, we conducted meta-
analyses of child outcomes and moderators of effects
(more details on how these studies were selected are pro-
vided in subsequent sections). Then, all included studies
were summarized using a narrative synthesis approach.
Meta-analyses of child outcomes
Meta-analyses combine the results of two or more stud-
ies to improve the precision of the estimates of effect
(Deeks et al., 2020). In this review, studies with compa-
rable outcomes were entered into meta-analytic random
effects models (accounting for within-study variabil-
ity), and results are reported according to outcome do-
mains. All pooled effect size estimates along with 95%
confidence intervals are presented as forest plots in
Supporting Information. For outcome data that could
not be included in a meta-analysis, effect sizes for single
studies were calculated and are reported. If numerical
data were insufficient, and additional information could
not be acquired from study authors, the main study find-
ings are summarized descriptively.
Moderator analyses
Independent analyses were conducted for each of the fol-
lowing moderator variables: intensity of intervention ex-
posure (1 to 5, 6 to 20, or >20 exposures), adult involved
(parent, teacher, or researcher), number of child partici-
pants (<50 or ≥50), type of comparator (free play or direct
instruction), and study design (randomized- or quasi-
experimental). Other pre-specified analyses were not pos-
sible due to limited variation between studies (child age
[1–3 years-old, 4–6 years-old, 7–8 years old] and country
income inequality). Only studies that provided sufficient
data (means and SDs) were included in these analyses.
Eligible studies were pooled for moderator analyses (ran-
dom effects meta-analytic models), regardless of outcome
measure; results are presented in forest plots in Supporting
Information. Where individual studies assessed more
than one outcome measure, a primary measure was identi-
fied for each study for inclusion in the moderator analysis.
Narrative synthesis approach
Narrative synthesis was used to examine textual refer-
ences within studies to map the similarities and differ-
ences across studies in terms of their conceptualization
and implementation of guided play (Popay et al., 2006).
This approach generates findings based on words and
text in a study, which in turn allows for the synthesis
of heterogeneous interventions, as expected in the cur-
rent review. Content analysis was used to investigate the
theoretical conceptualization and implementation of the
interventions at a deductive level based on two catego-
ries: the degree of child choice and flexible adult guid-
ance included. A coding scheme was developed to guide
the narrative synthesis (see Appendix S3). Three authors
(K.S., C.O.F., and N.K.) extracted and coded data relat-
ing to concept and implementation of guided play. A
fourth author (E.M.B.) coded 15% of studies and all dis-
crepancies were discussed and resolved. As two dimen-
sions were measured for each study (conceptualization
and implementation), a quadrant of studies was created.
All studies were included in the narrative synthesis.
RESULTS
Study selection
The systematic search results are displayed in a PRISMA
flow diagram (Figure 1). In total, the search yielded
1230 potentially eligible studies following the removal
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7. 1168 | SKENE ET AL.
of duplicates. 1200 studies were identified via electronic
search and 30 through hand searching, searches of grey
literature, and recommendations from an expert panel.
Following eligibility screening, 130 studies were identi-
fied for full-text screening. A total of 39 studies (from 38
papers) met the inclusion criteria and were included in the
review. Reasons for exclusion are noted in the PRISMA
flow diagram (Figure 1) and Table S2. Of the 39 studies,
17 were suitable for inclusion in a meta-analysis of child
outcomes as they shared at least one common outcome
measure with another study. Thirty studies also provided
sufficient data (means, SDs) for inclusion in moderator
analyses.
Study characteristics
The search identified 22 RCTs and 17 quasi-
experimental studies. Of these, 23 compared guided
play to direct instruction, nine compared guided play
to free play, and seven included both as comparison
groups. See Table 1 for summary of study character-
istics. Thirty-four studies were conducted in countries
with medium-income inequality (n = 24 in the United
States, one each in Switzerland, Turkey, Portugal,
China, and Canada, two in the United Kingdom,
and three in Australia). Of the remaining five stud-
ies, four were conducted in countries with low-income
F IGU R E 1 PRISMA flowchart of search results and included and excluded studies. The initial search was conducted on October 17, 2019
based on the search terms in the protocol. A supplementary search of electronic databases was conducted on February 16, 2021 based on
additional search terms suggested during peer review. Of the 1230 studies included for screening, 138 were identified in the additional search,
six of which were ultimately included in the final review
Identification
Screening
Eligibility
Records Identified Through
Database Searching
(n = 1,520)
Records After Duplicates Removed
(n = 1,230)
Studies Included in
Qualitative Synthesis
(n = 39)
Records Excluded
(n = 1,100)
Full-text Articles
Excluded:
Not RCT or Quasi Design
(n = 36)
Does Not Meet Guided
Play Definition (n = 29)
Inappropriate Comparison
Group (n = 18)
Unable to Access (n = 3)
Not Aged 0 to 8 Years
(n = 3)
No Child Outcomes
Reported (n = 1)
Pre-existing Intervention
(n = 1)
Records Screened
(n = 1,230)
Included
Studies Included in
Quantitative Synthesis
(n = 30)
Full-text Articles
Assessed For Eligibility
(n = 130)
Additional Records Identified
Through other Sources
(n = 30)
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GUIDED PLAY SYSTEMATIC REVIEW
T
A
B
L
E
1
Characteristics
of
included
studies
(N
=
39)
Author
(year)
Study
design
Child's
age
(years)
Child
development
Intervention
location
Adult
present
Country
Income
inequality
Total
participants
Number
of
exposures
Main
outcome(s)
Control
type
Bierman
(2015)
RE
3–
6
Typical
Home
Parent
USA
Medium
100–
199
6–
20
Literacy
and
social
skills
DI
Bleses
(2020)
RE
1–
3
Typical
ECC
Teacher
Denmark
Low
200+
21+
Language
and
maths
DI
Borriello
(2018)
QE
3–
6
Typical
Laboratory
Parent
USA
Medium
0–
49
1–
5
b
Maths/spatial
language
FP
Bulunuz
(2013)
QE
3–
6
Typical
Classroom
Teacher
Turkey
Medium
0–
49
21+
Science
concepts
DI
Casey
(2008)
QE
3–
6,
6–
8
Typical
Classroom
Teacher
USA
Medium
100–
199
6–
20
Maths-
spatial
skills
DI
Cavanaugh
(2017)
QE
3–
6
Typical
Classroom
Teacher
USA
Medium
0–
49
6–
20
Literacy/language
DI
Christie
(1983)
QE
3–
6
Typical
Classroom
Researcher
USA
Medium
0–
49
6–
20
Literacy—
vocabulary,
play,
and
creativity
DI
Cohrssen
(2019)
QE
3–
6
Typical
Classroom
Teacher
Australia
Medium
50–
99
21+
Maths
skills
DI
Conner
(2013)
QE
1–
3
Typical
ECC
Researcher
USA
Medium
0–
49
6–
20
Literacy/language
FP
Coplan
et
al.
(2010)
RE
3–
6
Typical
ECC
Researcher
a
Canada
Medium
0–
49
6–
20
Social
skills
DI
Dejonckheere
(2016)
RE
3–
6
Typical
Classroom
Teacher
Belgium
Low
50–
99
Unclear
Exploratory
play
DI
Dempsey
(2013)
RE
1–
3,
3–
6
Typical,
additional
needs
Home,
ECC
Parent
USA
Medium
0–
49
21+
Play
(pretend
and
exploratory)
FP
Dickinson
(2019)
RE
3–
6
Typical
Classroom
Teacher
USA
Medium
200+
21+
Literacy—
vocabulary
DI
Eason
(2020)
RE
3–
6
Typical
Laboratory
Parent
USA
Medium
50–
99
1–
5
b
Maths
vocabulary
DI,
FP
Ferrara
et
al.
(2011)
RE
3–
6
Typical
Unclear
Parent
USA
Medium
0–
49
1–
5
b
Maths—
spatial
language
FP
Fisher
(2011a)
RE
3–
6
Typical
Laboratory
Researcher
USA
Medium
0–
49
1–
5
b
Maths—
shape
knowledge
DI
Fisher
(2011b)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
0–
49
1–
5
b
Maths—
shape
knowledge
DI,
FP
Fisher
(2013)
QE
3–
6
Typical
Classroom,
Laboratory
Researcher
USA
Medium
50–
99
1–
5
b
Maths—
shape
knowledge
DI,
FP
Gmitrova
(2013)
RE
3–
6
Typical
Classroom
Teacher
Slovak
Republic
Low
200+
1–
5
b
Play
FP
Goldstein
(2018)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
50–
99
21+
Emotional
control
DI
Golomb
(1977)
QE
3–
6
Typical
Unclear
Researcher
USA
Medium
0–
49
1–
5
Conservation
judgment
DI
Han
et
al.
(2010)
RE
3–
6
Typical
Classroom
Researcher
a
USA
Medium
0–
49
21+
Literacy—
vocabulary
DI
Jemutai
(2019)
QE
3–
6,
6–
8
Typical
Classroom
Teacher
South
Africa,
Kenya
High,
Medium
50–
99
21+
Visuospatial
abilities
DI
Kalkusch
(2020)
RE
3–
6
Typical
ECC
Researcher
Switzerland
Medium
50–
99
6–
20
Pretend
play
FP
(Continues)
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Author
(year)
Study
design
Child's
age
(years)
Child
development
Intervention
location
Adult
present
Country
Income
inequality
Total
participants
Number
of
exposures
Main
outcome(s)
Control
type
Lau
(2005)
QE
3–
6
Typical,
additional
needs
Classroom
Teacher
USA
Medium
0–
49
21+
Social
interactions
FP
Li
(2016)
RE
3–
6
Typical
Classroom
Unclear
China
Medium
0–
49
6–
20
Social
skills
DI
Morris
(2018)
RE
3–
6
Typical
Classroom
Teacher
Australia
Medium
200+
6–
20
Knowledge
of
wellbeing/
sustainability
DI
O’Connor
(2011)
QE
3–
6,
6–
8
Additional
needs
Classroom
Therapist
Australia
Medium
0–
49
21+
Play,
language
and
social
skills
DI
Palma
(2014)
RE
3–
6
Typical
Classroom
Teacher
Portugal
Medium
50–
99
21+
Gross
motor
skills
DI,
FP
Pearson
(2008)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
0–
49
1–
5
Problem
solving
and
emotions
FP
Pellegrini
(1980)
QE
3–
6
Typical
ECC
Researcher
USA
Medium
0–
49
1–
5
b
Language-
associative
fluency
DI,
FP
Sawyer
(2019)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
50–
99
21+
Drawing
development
DI
Schmitt
(2018)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
50–
99
6–
20
Maths
and
executive
function
DI
Sinha
(2012)
QE
3–
6
Typical
Classroom
Researcher
USA
Medium
50–
99
1–
5
Self-
regulation
DI,
FP
Smith
(1978)
QE
3–
6
Typical
Private
residence
Unclear
UK
Medium
0–
49
6–
20
Play
and
social
participation
DI
Smith
(1981)
QE
3–
6
Typical
ECC
Researcher
a
UK
Medium
50–
99
21+
Social
participation,
cognitive
ability
(literacy/language,
maths,
visuospatial)
and
play
DI
Thibodeau
(2016)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
50–
99
21+
Executive
function
DI
Toub
et
al.
(2018)
RE
3–
6
Typical
Classroom
Researcher
USA
Medium
200+
6–
20
Literacy—
vocabulary
DI,
FP
van
schijndel
(2010)
QE
1–
3
Typical
ECC
Teacher
Netherlands
Low
0–
49
6–
20
Exploratory
play
FP
Abbreviations:
DI,
direct
instruction/treatment
as
usual;
ECC,
Early
childhood
care
and
education
setting;
FP,
free
play;
QE,
quasi-
experimental
design;
RE,
randomized
experimental
design.
a
Outside
member,
e.g.,
tutor,
group
leader,
but
trained
by
research
team.
b
Single
exposure
to
intervention.
T
A
B
L
E
1
(Continued)
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GUIDED PLAY SYSTEMATIC REVIEW
inequality (Belgium, Denmark, the Slovak Republic,
and the Netherlands) and one was conducted in coun-
tries with both medium- and high-income inequality
(Kenya and South Africa, respectively). Studies varied
according to participant characteristics, intervention
delivery, outcomes measured, and guided play content,
which are considered in turn below.
Participant characteristics
Approximately half the studies (n = 19) had <50 par-
ticipants, 13 included 50–199 participants, and only
five (all RCTs) included ≥200 participants. In total, the
studies involved 3893 child participants, but partici-
pant numbers varied considerably across studies, with
sample sizes ranging from nine (Dempsey, 2013) to 1116
(Bleses, 2020). Variation in age was limited: most stud-
ies (n = 32) exclusively reported on participants aged
3–6 years. Four studies included children aged 1–3
(Dempsey, 2013) or 6–8 years (Casey, 2008; Jemutai,
2019; O’Connor, 2011), and another three included par-
ticipants aged 1–3 years. Most studies (n = 36) reported
on typically developing children only, while O’Connor
(2011) exclusively included children with intellectual
disabilities, and Lau (2005) and Dempsey (2013) re-
ported on both typically developing children and
those with additional needs. Coplan et al. (2010) and Li
(2016) reported on children who were rated by parents
as being “extremely shy,” however, this was not based
on a standardized assessment. Additional information
relating to sample characteristics, including sex/gender
and race/ethnicity, is provided in Table S5.
Intervention delivery
As shown in Table 1, there was considerable variation
across studies in their delivery of interventions. In
most studies, guidance was provided by the research
team (n = 18). A teacher provided guidance in thirteen
studies and five studies involved guidance from par-
ents. For three remaining studies, one was delivered
by school-based therapists (O’Connor, 2011) and it was
unclear who delivered the intervention/guidance in the
other two (Li, 2016; Smith, 1978). Intervention expo-
sure varied considerably across studies (see Table 1):
11 had ≤5 (of which eight were limited to a single inter-
vention exposure) and 13 had 6–20. Fourteen studies
included ≥21 sessions, most of which were identified as
“curriculum-based approaches” with guided play tech-
niques embedded in everyday classroom experiences.
For one study, the number of exposures was unclear
(Dejonckheere, 2016).
The interventions included various types of play (see
Table S4): most involved pretend play (n = 17) and some
included more than one type of play, for example, chil-
dren in Sawyer (2019) engaged in block play and pretend
play. For five papers, the type of play was unclear; the
focus was on the methods that were used to train the
adult, usually a teacher, to guide the children's play.
Outcomes measured
A range of learning and developmental outcome meas-
ures were identified across studies: language/literacy
(early skills, expressive vocabulary, receptive vocabu-
lary, reading skills), numeracy (early skills, spatial/
maths language, shape sorting, spatial visualization),
executive function/self-regulation (behavior regula-
tion, task switching, inhibitory control, delay of grati-
fication), socioemotional (prosocial behavior, social
competence), visual perception, physical development,
science-learning, creative thinking, and play (explora-
tory and pretend). The primary outcome and measure
used in each study are presented in Table S3.
Use of guided play
Sixteen studies explicitly used the term “guided play,”
where the conceptualization aligns with the one used in
the present review (Weisberg et al., 2013). The remaining
23 studies did not explicitly use the term “guided play,”
despite the intervention method fitting the present re-
view's criteria of guided play, though other terms such as,
but not limited to, “facilitated play,” “enhanced play,” or
“learning through play” were present. As shown in Table
S4, a range of guidance methods were used, and common
strategies included open-ended questions, modeling, and
hints/prompts. Other methods such as co-play, setting
challenges, and scaffolding were also identified. Further
assessment of the delivery of guided play interventions is
provided in the narrative synthesis section of this paper.
Risk of bias in included studies
The Cochrane Risk of Bias Tool (Higgins & Green, 2011)
was used to assess the risk of bias across studies (see
Figure S1, and for a detailed description see Appendix
S4). Almost all studies (n = 38) were deemed as having a
“high” level of risk, with only one rated as having an “un-
clear” level (Thibodeau, 2016). Figure S1 illustrates how
the domains of random sequence generation, blinding
of personnel and outcome assessments, and other pre-
specified bias, are most responsible for the high levels of
risk of bias across the studies. Additionally, many stud-
ies did not report sufficient information to make confi-
dent judgments about allocation concealment, blinding,
and/or selective reporting.
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Risk of publication bias across studies
A funnel plot indicated there is some evidence of asym-
metry, indicating there is a risk of publication bias (see
Figure S2). This was confirmed by a significant Egger's
test result (z = 2.17, p = .03).
Quantitative synthesis
Meta-analyses of child outcomes
Twelve meta-analyses were conducted for various child
outcomes corresponding to four learning domains: lit-
eracy, numeracy, executive function, and socioemotional
skills. Most compared guided play and direct instruc-
tion, with only one possible comparison for guided play
versus free play on numeracy outcomes. Results are pre-
sented in Table 2 with a summary below. Forest plots
corresponding to each meta-analyses are provided in
Supporting Information (see Figures S3–S14).
There were additional outcome data that could not
be entered into meta-analyses due to substantial dif-
ferences in the measures used between studies, or be-
cause outcomes were limited to single studies. These
outcomes correspond to the four learning domains
stated above, plus others relating to science, visual
perception, physical development, play, and creative
thinking. Findings for these additional outcomes are
summarized in Appendix S5 and S6. Where possible,
the standardized mean difference was calculated and
reported, and/or means, standard deviations, and p-
values are provided, depending on their availability in
study reports. These results should be interpreted with
caution as they are more vulnerable to methodologi-
cal issues (e.g., lack of baseline equivalence between
groups).
Literacy outcomes
Meta-analyses identified weak evidence that guided
play benefited children's literacy skills more than di-
rect instruction (see Figures S3–S5). Small pooled ef-
fects favored guided play for children's early literacy
skills, g = 0.28, CI: −0.22, 0.79, p = .27, I2
= 57.06% (com-
bined n of two studies = 233) and expressive vocabulary,
g = 0.21, CI: −0.04, 0.46, p = .09, I2
= 54.87% (combined
n of four studies = 628), however the confidence inter-
vals were wide and included no effect. In contrast, there
was no evidence of a difference between guided play and
direct instruction for receptive vocabulary, g = −0.06,
CI: −0.16, 0.04, p = .25, I2
= 0.00% (combined n of four
studies = 1564).
Numeracy outcomes
The results of pooled analyses indicated that guided
play, relative to direct instruction, had a small to me-
dium positive effect on two numeracy outcomes (see
T
A
B
L
E
2
Meta-
analytic
results
Outcome
category
Outcome
Comparison
group
n
k
Effect
size
SE
p-
Value
95%
CI
τ
2
I
2
,
%
Literacy
Early
literacy
skills
Direct
instruction
233
2
0.28
0.26
.27
(−0.22,
0.79)
0.08
57.06
Expressive
vocabulary
Direct
instruction
628
4
0.21
0.13
.09
(−0.04,
0.46)
0.03
54.87
Receptive
vocabulary
Direct
instruction
1564
5
−0.06
0.05
.25
(−0.16,
0.04)
0
0.00
Numeracy
Early
maths
skills
Direct
instruction
1165
2
0.24
0.06
<.001
**
(0.12,
0.35)
0
0.00
Spatial/maths
vocabulary
Direct
instruction
1214
3
−0.17
0.47
.72
(−1.09,
0.75)
0.61
93.30
Shape
knowledge
Direct
instruction
111
3
0.63
0.24
.007
**
(0.17,
1.09)
0.04
24.21
Spatial/maths
vocabulary
Free
play
137
3
0.93
0.42
.03
*
(0.10,
1.75)
0.43
80.70
Executive
function
Behavior
regulation
Direct
instruction
1413
4
−0.03
0.05
.58
(−0.13,
0.08)
0
0.00
Inhibitory
control
Direct
instruction
145
3
−0.06
0.17
.71
(−0.39,
0.27)
0
0.00
Task
switching
Direct
instruction
132
2
0.40
0.18
.02
*
(0.05,
0.74)
0
0.00
Socioemotional
Prosocial
behavior
Direct
instruction
38
2
1.25
1.41
.38
(−1.51,
4.01)
3.61
90.70
Social
competence
Direct
instruction
214
2
0.06
0.14
.68
(−0.21,
0.33)
0
0.00
Note:
k
signifies
the
number
of
effect
sizes
drawn
from
the
equivalent
number
of
studies.
n
signifies
the
total
number
of
participants
included.
*p
<
.05.
**p
<
.01.
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GUIDED PLAY SYSTEMATIC REVIEW
Figures S6 and S7): early maths skills, g = 0.24, CI:
0.12, 0.35, p < .001, I2
= 0.00% (combined n of two stud-
ies = 1165) and shape knowledge, g = 0.63, CI: 0.17, 1.09,
p = .007, I2
= 24.21% (combined n of three studies = 111).
However, another pooled analysis of three studies (com-
bined n = 1214; see Figure S8) found no difference be-
tween guided play and direct instruction on children's
spatial and maths vocabulary scores (g = −0.17, CI: −1.09,
0.75, p = .72, I2
= 93.30%). In contrast, a meta-analyses of
three studies (combined n = 137; see Figure S9) identified
a large effect size favoring guided play versus free play
for children's spatial and maths vocabulary (g = 0.93, CI:
0.10, 1.75, p = .03, I2
= 80.70%).
Executive function outcomes
Pooled analysis of two studies (combined n = 132; see
Figure S10) identified a medium effect for guided play
compared with direct instruction for task switching
(g = 0.40, CI: 0.05, 0.74, p = .02, I2
= 0.00%). Pooled analy-
ses for additional executive function outcomes found
no differences between guided play and direct instruc-
tion for behavior regulation, g = −0.03, CI: −0.13, 0.08,
p = .58, I2
= 0.00% (combined n of four studies = 1413;
see Figure S11), or for inhibitory control, g = −0.06, CI:
−0.39, 0.27, p = .71, I2
= 0.00% (combined n of three stud-
ies = 145; see Figure S12).
Socioemotional outcomes
Results of meta-analyses found no evidence of differ-
ences between guided play and direct instruction for two
socioemotional outcomes: prosocial behavior, g = 1.25,
CI: −1.51, 4.01, p = .38, I2
= 90.70% (combined n of two
studies = 38; see Figure S13; note that while the point
estimate of the effect size was large, the confidence in-
tervals were very wide, indicating no effect), and social
competence, g = 0.06, CI: −0.21, 0.33, p = .68, I2
= 0.00%
(combined n of two studies = 214; see Figure S14).
Summary
In summary, meta-analyses identified significant evi-
dence for guided play having a greater positive effect
than direct instruction on early maths skills, shape
knowledge, and task switching, and a greater positive
effect than free play on spatial vocabulary. Differences
were not identified for other numeracy, executive func-
tion, literacy, or socioemotional outcomes.
Findings from single studies on these outcomes were
mixed and inconclusive, however, when comparing
guided play to direct instruction in all outcome domains,
single studies identified guided play to have greater pos-
itive effects than free play on vocabulary, maths, and
some executive function outcomes. Findings on other
outcomes (visual perception, physical outcomes, science-
based outcomes, play outcomes) were either limited to a
small number of studies or, in the case of play outcomes,
were mostly characterized by very small sample sizes,
precluding confident inferences about the potential ef-
fects of guided play.
Moderator analyses
The means and SDs from 30 studies were included in
moderator analyses. In the following section, ns cor-
respond to the number of studies in the analyses. See
Table 3 and Figures S15–S25 (in Supporting Information)
for a summary of these results. For studies that included
both direct instruction and free play comparison groups
TA BL E 3 Moderator analysis results
Moderator Category k
Effect
size SE p-Value 95% CI τ2
I2
, %
Intervention exposures 1–5 7 0.19 0.30 .52 (−0.39, 0.77) 0.47 78.80
6–20 11 0.32 0.14 .02*
(0.04, 0.60) 0.11 55.95
21+ 11 0.06 0.10 .53 (−0.14, 0.26) 0.04 45.80
Adult involved Parent 5 0.24 0.44 .58 (−0.62, 1.10) 0.80 90.53
Teacher 9 0.19 0.11 .10 (−0.04, 0.41) 0.05 55.11
Researcher 14 0.24 0.12 .04*
(0.01, 0.47) 0.07 40.94
N participants 0–50 15 0.41 0.16 .01**
(0.09, 0.73) 0.22 59.42
Over 50 15 0.08 0.12 .47 (−0.14, 0.31) 0.13 77.30
Type of comparator Free play 12 0.68 0.23 .003**
(0.23, 1.12) 0.44 79.61
Direct instruction 21 0.13 0.11 .26 (−0.10, 0.35) 0.17 77.48
Study design Randomized controlled
trial
19 0.22 0.12 .07 (−0.02,
0.46)
0.18 79.96
Quasi 11 0.13 0.15 .39 (−0.16, 0.41) 0.10 41.55
Note: k signifies the number of effect sizes drawn from the equivalent number of studies.
*p < .05.
**p < .01.
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(e.g., Eason, 2020), only the effect for guided play versus
direct instruction was entered into the model.
Intensity of intervention exposure
For studies with 1–5 exposures (n = 7), there was no
evidence of a difference in learning outcomes between
guided play and controls (g = 0.19, CI: −0.39, 0.77, p = .52,
I2
= 78.80%; see Figure S15). For studies with 6–20 expo-
sures (n = 11), a pooled analysis (see Figure S16) found ev-
idence for guided play having a positive effect compared
to control conditions (g = 0.32, CI: 0.04, 0.60, p = .02,
I2
= 55.95%). No differences were identified for studies
including ≥21 exposures (n = 11; g = 0.06, CI: −0.14, 0.26,
p = .53, I2
= 45.80%; see Figure S17).
Adult involved
For studies in which researchers provided guidance
(n = 14), a pooled analysis identified some evidence of a
difference between guided play and controls on learning
outcomes (g = 0.24, CI: 0.01, 0.47, p = .04, I2
= 40.94%; see
Figure S20). There was no evidence of a difference between
guided play and controls for other adults involved, which
includes teachers (n = 9, g = 0.19, CI: −0.04, 0.41, p = .10,
I2
= 55.11%; see Figure S19) and parents (n = 5, g = 0.24, CI:
−0.62, 1.10, p = .58, I2
= 90.53%; see Figure S18).
Number of participants
Pooled analyses found that guided play had a greater
positive effect on learning outcomes than controls for
studies with <50 participants (n = 15; g = 0.41, CI: 0.09,
0.73, p = .01, I2
= 59.42%; see Figure S21), but found no dif-
ference for studies with ≥50 participants (n = 15; g = 0.08,
CI: −0.14, 0.31, p = .47, I2
= 77.30%; see Figure S22).
Type of comparator
Pooled analyses indicated a greater positive effect of
guided play on learning outcomes versus free play
(n = 12; g = 0.68, CI: 0.23, 1.12, p < .01, I2
= 79.61%; see
Figure S23) but not direct instruction (n = 21; g = 0.13, CI:
−0.10, 0.35, p = .26, I2
= 77.48%; see Figure S24).
Study design
There was weak evidence that guided play benefited chil-
dren's learning more than the controls for studies that
employed an RCT design (n = 19; g = 0.22, CI: −0.02,
0.46, p = .07, I2
= 79.96%; see Figure S25), but not a quasi-
experimental design (n = 11; g = 0.13, CI: −0.16, 0.41,
p = .39, I2
= 41.55%; see Figure S26).
Qualitative synthesis
Narrative synthesis approach
Narrative synthesis was used to address the secondary
research question regarding the conceptualization and
implementation of guided play with respect to adult
guidance and child choice. Using content analysis, simi-
larities and differences were identified across studies in
the ways they conceptualized and implemented two key
features of guided play–child choice and adult guidance.
Results are presented in a quadrant (see Figure 2):
with conceptualization and implementation of guided
play plotted along the Y axis and X axis, respectively.
A higher rating of conceptualization was assigned if a
study theoretically acknowledged key components of
guided play (e.g., child-led activity, flexible, and sensi-
tive adult guidance). A lower rating was assigned if there
was limited acknowledgment of the theoretical value of
both adult guidance and child autonomy. Higher ratings
of implementation were ascribed to studies that pro-
vided children with some degree of choice and flexibility,
whilst also involving adult guidance that was sensitive
to the children's interests and needs. Lower ratings were
assigned if child autonomy was limited and if guidance
provided was constrained. Studies with low and high
conceptualizations of guided play are shown in the bot-
tom and top quadrants, respectively, and studies low and
high levels of implementation of guided play are shown
in the left and right quadrants, respectively.
Based on the dispersion of studies in Figure 2, several
patterns were highlighted. Conceptualization of guided
play differed between studies: some placed value on play-
ful learning without consideration of adult or child roles,
while others placed less value on play but acknowledged
adult support and self-directed learning as important
factors in children's learning. There were also between-
study variations in the implementation of guided play
during the intervention activities, with differences in
the amount of autonomy afforded to children and in the
amount of adaptive guidance provided by adults. While
all included studies met the definition of guided play, the
implementation of some interventions was more aligned
with the definitions of “direct instruction” or “free play,”
particularly when considering child autonomy. For ex-
ample, there are 13 studies that fall directly on the X axis
in Figure 2 (i.e., all have been rated as having a medium
level of conceptualization). But within this grouping
of studies, there is substantial spread along the X axis
from low to high implementation of guided play. This
is reflective of the play spectrum which spans from free
play to direct instruction (Zosh et al., 2018). While both
van Schijndel (2010) and Ferrara et al. (2011) identified
their interventions as guided play and conceptually ac-
knowledged many key features of guided play, imple-
mentation differed considerably. Ferrara et al. (2011) is
more aligned with “direct instruction” as children were
given visual instructions on what to construct during a
building task, which restricted their freedom within the
activity. In contrast, van Schijndel's (2010) intervention,
which aimed to improve children's exploratory play, is
more akin to “free play” because children had a choice in
whether or not to engage in sandpit play at all, and also
in how they interacted with the materials in the sandpit.
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GUIDED PLAY SYSTEMATIC REVIEW
Discrepanciesalsoexistwithinindividualstudies:while
some had a strong conceptualization of guided play, this
was not evident in the description of the intervention. For
example, children's choice may have been constrained,
adults’ behavior may have been scripted (limiting their
ability to respond to individual needs), and/or guidance
strategies may have been minimal. Conversely, while the
theoretical value of guided play was not acknowledged
in some studies (low conceptualization), the interventions
that were delivered encompassed key features of guided
play (high implementation). This was common in stud-
ies aiming to improve children's social skills. Play may
have been utilized in some interventions because it is a
developmentally appropriate medium for social interac-
tions, yet the delivery of the intervention afforded chil-
dren free choice over their play with adult's responding
to children's actions and interests through guidance. This
highlights the diversity of researchers which recognize
the inherent value of guidance during play for enhancing
children's interest and motivation to learn. While some
have not explicitly been interested in guided play, in aim-
ing to improve learning outcomes, guided play has been
used as a medium for maximizing impact for children,
highlighting its instrumental value.
A final observation is that some learning outcomes ap-
pear to lend themselves to greater application of guided
play features than others. Studies which sought to im-
prove literacy/language and executive function outcomes
typically implemented guided play to a higher degree
than those assessing numeracy outcomes. This may indi-
cate that maths-based tasks and measures do not allow
for as much child choice and flexible adult guidance as
language-based tasks. Alternatively, maths-based learn-
ing may be better facilitated by teaching methods more
in line with direct instruction.
DISCUSSION
Summary of evidence
Meta-analyses of child outcomes
The current systematic review aimed to assess the ef-
fectiveness of guided play interventions for children's
learning and development compared to free play or
direct instruction. Thirty-nine studies were identi-
fied for inclusion. Seventeen studies were included in
F IGU R E 2 Quadrant illustrating the conceptualization and implementation of guided play studies
High Conceptualisation of Guided Play
High Implementation
of Guided Play
0 1 2 3 4 5 6 7 8
0
1
2
3
4
Cavanaugh
(2017)
Sinha (2012)
Toub (2018)
Dickinson (2019)
Fisher (2011a)
Bulunuz
(2013)
Fisher
(2011b)
Morris (2018)
Han (2010)
Dempsey (2013)
Conner
2013)
Jemutai
(2019)
Palma (2014)
Pellegrini (1980)
Eason (2020) Fisher (2013)
van Schijndel
(2010)
O’Connor
(2011)
Schmitt
(2018)
Pearson
(2008)
Ferrara (2011)
Goldstein
(2018)
Sawyer
(2019)
Cohrssen
(2019)
Borriello
(2008)
Coplan (2010)
Li (2016)
Bierman (2015)
Lau (2005)
Golomb (1977)
Casey (2008)
Key:
= ‘Guided Play’ Term
Explicitly Used
= Other Term Used (Enhance,
Facilitate, Etc.)
Thibodeau
(2016)
Bleses
(2020)
Dejonckheere
(2016)
Gmitrova
(2013)
Christie
(1983)
Kalkusch (2020)
Smith
(1978)
Smith
(1981)
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15. 1176 | SKENE ET AL.
meta-analyses which produced 12 pooled effect sizes;
one for each outcome that was broadly captured by one
of four domains: literacy, numeracy, executive function,
or socioemotional.
The results of this review provide some evidence
that guided play, compared to direct instruction, had a
greater positive effect on executive function (task switch-
ing only, g = 0.40) and maths (including early maths skills,
g = 0.24, and shape knowledge, g = 0.63). However, there
were no differences between guided play and direct in-
struction for literacy or socioemotional outcomes. These
results are consistent with previous reviews that found
guidance during inquiry- or discovery-based learning
benefited science and maths outcomes when compared
to traditional teaching (Alfieri et al., 2011; Lazonder &
Harmsen, 2016), as did a review of the Tools of the Mind
learning through play curriculum (Baron et al., 2017).
The overall pattern of these results suggests that guided
play may be especially beneficial for maths-based learn-
ing. It could be that the characteristics of guided play are
more suited to supporting the development of systematic
skills used in maths-based tasks. For example, guid-
ance techniques, like open-ended questions or prompts,
may guide children toward the next logical step during
a maths-based task. A more nuanced approach of adult
guidance may be more effective in supporting learning
and development in other areas (e.g., vocabulary, social
skills).
The lack of evidence for the benefits of guided play on
literacy and socioemotional measures is in contrast with
the results of Alfieri et al.’s (2011) review, which identi-
fied beneficial effects of guidance on social and verbal
outcomes. This may be in part due to limitations in the
number and scope of studies of guided play for these out-
comes, or may represent a real limitation of guided play
approaches for improving these particular outcomes. It
is possible that guided play may have more direct effects
on outcomes that underpin children's learning, such as
children's attitudes and approaches to learning (e.g.,
motivation, task persistence, and enjoyment). These out-
comes were rarely assessed in the studies in this review,
despite being salient to children's own descriptions of
their early learning experiences (O’Farrelly et al., 2020).
Few studies quantitatively compared guided play and
free play, although a single meta-analysis identified a
large effect size favoring the benefits of guided play for
spatial vocabulary over free play (g = 0.93). However,
this result should be interpreted cautiously given the
high level of heterogeneity across the studies. Single
studies also provided evidence that guided play is bet-
ter than free play for improving expressive and recep-
tive language, and maths shape knowledge. In addition,
single studies that included both direct instruction and
free play comparison groups consistently found larger
benefits when guided play was compared to free play
than when compared to direct instruction (Eason, 2020;
Fisher, 2011b; Sinha, 2012; Toub et al., 2018).
Moderator analyses
Only two characteristics appeared to have a clear
moderating effect on guided play interventions: num-
ber of study participants and type of comparator (free
play vs. direct instruction). Guided play studies with
<50 participants had a significantly greater effect on
learning outcomes while no difference was seen for
studies with 50 or more participants. However, larger
studies (over 50 participants) were also typically
“whole curriculum” approaches in which effects of
guided play be harder to detect as it is usually used as
one of a number of strategies.
Greater effects on learning outcomes were generally
seen when guided play was compared to free play rather
than direct instruction. It is important to note that stud-
ies using free play as a comparator tended to have fewer
than 50 participants, making it difficult to disentangle
the individual effects of these elements. Given that ef-
fects were mostly seen in smaller studies, this is a cause
for some caution as larger studies are often more meth-
odologically robust, offering more precise estimates, and
greater confidence in the veracity of findings.
There was no clear evidence that the number of ses-
sions in an intervention or the adult involved (teacher,
parent, or researcher) moderated the effectiveness of
guided play interventions. It may be that guided play is
just as valuable to learning both in and out of the class-
room environment if it can be effectively implemented
(e.g., by parents or a range of school-based professionals
such as teachers, support staff, external therapists).
Other reviews have shown that child age moderates
the effectiveness of guidance on learning, with young
learners being more influenced by the type of guidance
used (Lazonder & Harmsen, 2016). However, this was
not examined in the current review due to most studies
focusing only on children aged 3–6 years.
Narrative synthesis
The conceptualization and implementation of guided
play in the included reports were examined using nar-
rative synthesis and considerable variability was found
both between and within studies. While many included
the key characteristics of guided play (child choice and
flexible guidance) in their conceptualization, they were
somewhat constrained in their implementation, particu-
larly regarding the amount of choice afforded to chil-
dren in the play experience. Key features of guided play
tended to be more constrained in studies which targeted
maths outcomes, for which greater effects were observed
in meta-analyses. A version of guided play that is closer
to “playful instruction” on the play spectrum may be
more effective for maths outcomes (Zosh et al., 2018).
It is possible that studies aiming to improve other out-
comes, such as literacy or executive function, may need
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GUIDED PLAY SYSTEMATIC REVIEW
to constrain play to be more in line with that seen in
maths-focused studies to improve effectiveness.
In the existing literature, there is debate concerning
how much guidance and choice is beneficial for learn-
ing (Kirschner et al., 2006; Mayer, 2004). Findings from
this review suggest that the level of child choice being
provided to children is often less than the amount that
is conceptually framed as being needed in order to cul-
tivate children's agency, motivation, and curiosity in
learning encounters. While definitive conclusions can-
not be drawn, the differing degrees of guidance and
child choice among studies suggest that the level of child
choice may be dependent on the outcome of focus. To
further understand the effectiveness of guided play,
there is a need for studies that systematically examine
the differential effects of guided play with varying levels
of flexible adult guidance and free child choice (e.g., a
study that compares children in a guided play condition
with limited choice to children in a guided play condi-
tion with high levels of choice).
Interestingly, numerous studies which implemented
interventions that included the characteristics of guided
play did not explicitly refer to guided play. The benefits
of guided play features may therefore be intuitive and be
used instrumentally across several areas to maximize
learning opportunities, despite studies not explicitly
considering the conceptual basis for why this might be
developmentally valuable. Many of the studies which
looked to improve socioemotional outcomes, for exam-
ple, intuitively used features of guided play. This may in-
dicate a field of child development where guided play can
be tested more explicitly in future research.
Strengths and limitations
This is the first systematic review and meta-analytic
study to examine the effects of guided play on a range
of learning and developmental outcomes. Narrative
synthesis was also used to dissect the delivery of inter-
ventions and consider potential implications for future
research and education practice.
There are several limitations. First, many of the in-
cluded studies were assessed as having a high risk of bias
due to lack of blinding, lack of using random sequence
generation, and/or failure to report sufficient informa-
tion on allocation concealment and selective reporting
(assessed using the Cochrane Risk of Bias Tool). This is
in line with findings of other education- and play-based
reviews that find even RCT studies to be of lower quality,
with consequences for confidence when making infer-
ences from these studies (e.g., Baron et al., 2017; Lillard
et al., 2013). It is important to note that this will have been
affected by criteria such as the blinding of participants
and personnel, which can be difficult to achieve in edu-
cational interventions. It was more common for studies
to ensure blinding of outcome assessments, which was
clear in roughly one-third of studies. Second, the sample
sizes of studies were small with half of papers reporting
on samples with <50 participants. Thus, interpretations
of results should be made cautiously.
A third limitation is that heterogeneity was particu-
larly high in the moderator analyses. The lack of consis-
tency between studies limits the extent to which results
can be confidently generalized (Higgins et al., 2003).
However, the main findings from the meta-analyses (e.g.,
the effect of guided play on maths-based outcomes) were
low in heterogeneity, thus providing greater confidence
in these findings.
There were limitations in the level of detail that could
be obtained from the intervention studies. Data on
ethnicity and gender/sex were only given in aggregate,
limiting our attempts to investigate any impact of these
characteristics and the potential generalizability of the
findings. Some studies lacked information regarding
intervention delivery (i.e., study characteristics), which
may have impacted coding and subsequent interpre-
tations. The included reports also lacked detail about
the amount of adult-contact time the control groups re-
ceived, and whether it was comparable to that of the in-
tervention groups. As social interaction is thought to be
associated with learning (Zosh et al., 2017), effect sizes
favoring guided play may in part be a result of greater
exposure to adult interaction rather than guidance.
There was also limited information on the role of play
type. This could be an instructive avenue for future re-
search, as different types of play may have specific ad-
vantages for learning depending on its context (Smith &
Pellegrini, 2013).
Furthermore, sufficient data for meta-analysis could
not be retrieved from some studies and so more evidence
may be available for the effectiveness of guided play
that could not be included, despite our efforts to seek
out additional information. For example, a large scale,
curriculum-based study (Barnett et al., 2008) could not
be included in the review due to the challenge of deter-
mining how much of the intervention fit with the defi-
nition of guided play. A limitation of the review itself is
that only post-intervention data were included. It would
be valuable for future studies to look at durability of ef-
fects, though few studies included follow-up data beyond
immediate post-test.
Implications for theory and research
Further research efforts need to be adequately powered
and of a more robust quality in order to derive infer-
ences that are sufficient to guide educational practice.
Experimental designs are important to elucidate the
benefits of play (Lillard et al., 2013); however, appro-
priate randomization techniques, reporting of baseline
equivalence, and repeated measure designs are needed
to provide more confident inferences about the potential
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17. 1178 | SKENE ET AL.
benefits of guided play. The results of this review under-
score the need for studies that can identify whether the
benefits of guided play are domain specific or whether
gradients of guided play are better suited to specific out-
comes (e.g., whether more constrained experiences are
better suited to numeracy outcomes as suggested by the
narrative synthesis). To this end the field would benefit
from situating guided play experiences within the play
spectrum (Zosh et al., 2018). These more refined and
deductive hypotheses are well suited to pre-registered
reports and registered trial protocols which could sig-
nificantly reduce bias, as would the use of pre-specified
and blinded assessments of common outcome meas-
ures. Initiatives such as the Child Outcomes Research
Consortium and the National Institutes of Health
Toolbox are helpful in this regard. Adapting risk of bias
tools for greater suitability to educational interventions
would also allow for more instructive assessments of
study quality.
Studies explicitly testing the mechanisms through
which guided play may improve learning, would also
provide insight into the outcomes that may benefit most
from guided play approaches (Hassinger-Das et al.,
2017). This would allow education interventions to sit-
uate guided play components within theories of change,
as this can be unclear in studies testing whole curricu-
lum approaches. Guided play may also enhance learning
indirectly by impacting children's attitudes to learning
and 21st-century skills (e.g., motivation, persistence,
enjoyment, creativity, confidence). When children are
supported to undertake and navigate learning experi-
ences that nurture their agency, they may invest more
effort and internalize this motivation in their identity as
a learner (Deci & Ryan, 2000). Sensitive guidance, may
also reduce demands on executive function and working
memory, allowing children to engage in more creative
processes (see Alfieri et al., 2011) and persist in the face of
challenges. If guided play is effective in promoting young
children's love of learning, then it may offer cascading ef-
fects on learning that go beyond domain-specific effects
on content knowledge that have been the focus of most
studies to date.
Widening studies to consider broader age ranges,
children with developmental challenges, and low-
income countries/settings would be beneficial for
determining the potential values of guided play, espe-
cially as greater effects may be seen for at-risk popula-
tions. For example, play-based learning may be more
beneficial for children who struggle to adjust to tradi-
tional classroom expectations like sitting and listening
for extended time.
Implications for policy and practice
The review highlights the need for adequately powered,
high-quality research, which provides robust evidence
that is firmly placed to inform ECE policy and prac-
tice. Nonetheless, there is some evidence that guided
play interventions can support maths-based learning in
the classroom. However, questions remain about how
key features of guided play (flexible guidance and child
choice) are best implemented to foster outcomes. In ad-
dition, results comparing guided play to free play suggest
that ECE teachers could utilize guidance and support,
while children engage in play, to enhance opportunities
for academic learning. Initial evidence that the adult de-
livering the intervention does not impact on outcome,
suggests guided play may be suitable for various early
learning environments.
Large variations in the delivery of guided play in the
review studies highlight the importance of having clear
guidance for how adults should implement guided play.
This is needed to support the translation of evidence to
practice, particularly as ECE educators report wanting
greater support in this area (Martlew et al., 2011). Rather
than priority being placed on which types of guidance or
how much guidance is most effective, education practice
may benefit most from supporting teachers to notice and
respond to the needs of individual children to guide them
effectively. Similarly, there may be value in providing op-
portunities for children to learn in ways that are of inter-
est to them personally. An understanding of children's
own experiences of guided play may also help to identify
which features are important for learning experiences.
CONCLUSION
The review found evidence of an effect of guided play
on early maths and related skills but not for other out-
comes, including literacy, and socioemotional develop-
ment. Overall the existing evidence is not of a quantity,
quality, or consistency within any one outcome area to
allow very confident conclusions to be drawn, as most
findings from the meta-analyses were based on two or
three studies in each domain. Nonetheless, the review is
instructive in highlighting the diversity across studies in
how guided play is conceptualized and operationalized.
Greater adoption and further development of theories
of change and guided play (including the spectrum of
play; Zosh et al., 2017) would provide the field with the
unifying framework needed to systematically develop a
research program that can better identify where guided
play is helpful to children, how it supports learning, and
for which outcomes.
ACKNOWLEDGMENTS
This work was funded by an unrestricted donation
from the LEGO Foundation. We would like to thank
Bo Stjerne Thomsen, Hanne Jensen, Kathy Hirsh-
Pasek, Glenda Walsh, Elizabeth Sproule, and Carol
McGuinness for providing expert review of the proto-
col and guided play definition used in this review and
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18. | 1179
GUIDED PLAY SYSTEMATIC REVIEW
for identifying additional papers to be considered for
review. We are also grateful to the authors for their
time in providing additional information included in
the review.
ORCID
Kayleigh Skene https://orcid.org/0000-0001-9434-7029
Christine M. O’Farrelly https://orcid.
org/0000-0002-9269-6564
Elizabeth M. Byrne https://orcid.
org/0000-0002-5018-5643
Natalie Kirby https://orcid.org/0000-0002-0541-550X
Paul G. Ramchandani https://orcid.
org/0000-0003-3646-2410
REFERENCES
References for the studies included in the review are provided in
Appendix S7.
Alfieri, L., Brooks, P., Aldrich, N., & Tenenbaum, H. (2011). Does
discovery-based instruction enhance learning? Journal of
Educational Psychology, 103, 1–18. https://doi.org/10.1037/a0021017
Barnett, W. S., Jung, K., Yarosz, D. J., Thomas, J., Hornbeck, A.,
Stechuk, R., & Burns, S. (2008). Educational effects of the Tools
of the Mind curriculum: A randomized trial. Early Childhood
Research Quarterly, 23, 299–313. https://doi.org/10.1016/j.
ecresq.2008.03.001
Baron, A., Evangelou, M., Malmberg, L. E., & Melendez-Torres, G.
J. (2017). The Tools of the Mind curriculum for improving self-
regulation in early childhood. Campbell Systematic Reviews, 13,
https://doi.org/10.4073/csr.2017.10
Bodrova,E.,Leong,D.,Germeroth,C.,&Day-Hess,C.(2018).Leading
children in their ‘leading activity’. In P. Smith & J. Roopnarine
(Eds.), The Cambridge handbook of play: Developmental disci-
plinary perspectives (pp. 436–456). Cambridge University Press.
Bruce, T. (2015). Friedrich froebel. In T. David, K. Goouch, & S.
Powell (Eds.), The Routledge International handbook of philoso-
phies and theories of early childhood education and care (pp. 19–
25). Routledge.
Bubikova-Moan, J., Naess Hjetland, H., & Wollscheid, S. (2019). ECE
teachers’ views on play-based learning: A systematic review.
European Early Childhood Education Research Journal, 27, 77–
800. https://doi.org/10.1080/1350293X.2019.1678717
Bunzeck, N., Doeller, C. F., Dolan, R. J., & Duzel, E. (2012).
Contextual interaction between novelty and reward processing
within the mesolimbic system. Human Brain Mapping, 33, 1309–
1324. https://doi.org/10.1002/hbm.21288
Coplan, R. J., Schneider, B. H., Matheson, A., & Graham, A. (2010).
‘Play skills’ for shy children: Development of a Social Skills
Facilitated Play early intervention program for extremely inhib-
ited pre-schoolers. Infant and Child Development, 19, 223–237.
https://doi.org/10.1002/icd.668
Dang, L. C., Donde, A., Madison, C., O’Neil, P., & Jagust, W. J.
(2012). Striatal dopamine influences the default mode network
to affect shifting between object features. Journal of Cognitive
Neuroscience, 24, 1960–1970. https://doi.org/10.1162/jocn_a_00252
Deci, E. L., & Ryan, R. M. (2000). The” what” and” why” of goal
pursuits: Human needs and the self-determination of behavior.
Psychological Inquiry, 11, 227–268. https://doi.org/10.1207/S1532
7965PLI1104_01
Deeks, J. J., Higgins, J. P. T., & Altman, D. G. (2020). Chapter 10:
Analysing data and undertaking meta-analyses. In J. P. T.
Higgins, J. Thomas, J. Chandler, M. Cumpston, T. Li, M. J. Page,
& V. A. Welch (Eds.), Cochrane handbook for systematic reviews
of interventions, version 6.2 (updated February 2021). Cochrane.
http://www.training.cochrane.org/handbook
Department for Education. (2018). Statutory framework for the Early
Years Foundation Stage. Retrieved April 16, 2020, from http://
www.gov.uk/government/publications/early-years-foundation-
stage-framework–2
Department for Education. (2020). Early Years Foundation Stage re-
forms: Government consultation response, July 2020. Retrieved
August 11, 2020, from http://www.gov.uk/government/consultati
ons/early-years-foundation-stage-reforms
Egger, M., Smith, G. D., Schneider, M., & Minder, C. (1997). Bias in
meta-analysis detected by a simple, graphical test. British Medical
Journal, 315, 629–634. https://doi.org/10.1136/bmj.315.7109.629
Faggion, C. M. (2016). Risk of bias assessment should not go beyond
reporting assessment. Journal of Clinical Epidemiology, 72, 126–
127. https://doi.org/10.1016/j.jclinepi.2015.11.014
Ferrara, K., Hirsh-Pasek, K., Newcombe, N., Golinkoff, R., &
Shallcross Lam, W. (2011). Block talk: Spatial language during
block play. Mind, Brain, and Education, 5, 143–151. https://doi.
org/10.1111/J.1751-228X.2011.01122.X
Fisher, K., Hirsh-Pasek, K., Golinkoff, R. M., Singer, D. G., & Berk,
L. (2011). Playing around in school: Implications for learning and
educational policy. In A. D. Pellegrini (Ed.), The Oxford handbook
of the development of play (pp. 341–360). Oxford University Press.
Han, M., Moore, N., Vukelich, C., & Buell, M. (2010). Does play make
a difference? Effects of play intervention on at-risk preschoolers’
vocabulary learning. American Journal of Play, 3, 82–105.
Hannikainen, M., & Munter, H. (2018). Toddlers’ play in early child-
hood education settings. In P. Smith & J. Roopnarine (Eds.), The
Cambridge handbook of play: Developmental disciplinary perspec-
tives (pp. 491–510). Cambridge University Press.
Hassinger-Das, B., Hirsh-Pasek, K., & Golinkoff, R. M. (2017). The
case of brain science and guided play: A developing story. Young
Children, 72, 45–50.
Higgins, J. P., & Green, S. (2011). Cochrane handbook for systematic
reviews of interventions (Vol. 4). John Wiley & Sons.
Higgins, J. P. T., Thompson, S. G., Deeks, J. J., & Altman, D. G. (2003).
Measuring inconsistency in meta-analyses. British Medical
Journal, 327, 557–560. https://doi.org/10.1136/bmj.327.7414.557
Hirsh-Pasek, K., Golinkoff, R. M., Berk, L. E., & Singer, D. G. (2009).
A mandate for playful learning in school: Presenting the evidence.
Oxford University Press.
Hirsh-Pasek, K., Zosh, J. M., Golinkoff, R. M., Gray, J. H., Robb, M.
B., & Kaufman, J. (2015). Putting education in ‘educational’ apps:
Lessons from the science of learning. Psychological Science in the
Public Interest, 16, 3–34. https://doi.org/10.1177/1529100615569721
Hobbs, C., Atkinson, C., Barclay, M., Bristow, S., Casey, T., Finney, R.,
Goodhall, N., Mannello, M., & Woods, F. (2019). DECP position
paper: Children’s right to play. Retrieved October 12, 2021, from
http://www.infocoponline.es/pdf/Childrens-right-to-play.pdf
Hopkins, E. J., Toub, T. S., Hassinger-Das, B., Golinkoff, R. M.,
& Hirsh-Pasek, K. (2019). Playing for the future: Redefining
early childhood education. In D. Whitebread (Ed.), The SAGE
Handbook of developmental psychology and early childhood edu-
cation (pp. 239–256). SAGE Publications.
Jørgensen, L., Paludan-Müller, A. S., Laursen, D. R. T., Savović, J.,
Boutron, I., Sterne, J. A. C., Higgins, J. P. T., & Hróbjartsson, A.
(2016). Evaluation of the Cochrane tool for assessing risk of bias
in randomized clinical trials: Overview of published comments
and analysis of user practice in Cochrane and non-Cochrane re-
views. Systematic Reviews, 5, 1–13. https://doi.org/10.1186/s1364
3-016-0259-8
Kirschner, P. A., Sweller, J., & Clark, R. E. (2006). Why minimal
guidance during instruction does not work: An analysis of the
failure of constructivist, discovery, problem-based, experiential,
and inquiry-based teaching. Educational Psychologist, 41, 75–86.
https://doi.org/10.1207/s15326985ep4102_1
Lazonder, A. W., & Harmsen, R. (2016). Meta-analysis of inquiry-
based learning: Effects of guidance. Review of Educational
Research, 86, 681–718. https://doi.org/10.3102/0034654315627366
14678624,
2022,
4,
Downloaded
from
https://srcd.onlinelibrary.wiley.com/doi/10.1111/cdev.13730
by
Cochrane
Mexico,
Wiley
Online
Library
on
[01/03/2023].
See
the
Terms
and
Conditions
(https://onlinelibrary.wiley.com/terms-and-conditions)
on
Wiley
Online
Library
for
rules
of
use;
OA
articles
are
governed
by
the
applicable
Creative
Commons
License
19. 1180 | SKENE ET AL.
Lillard, A. S., Lerner, M. D., Hopkins, E., Dore, R. A., Smith, E. D., &
Palmquist, C. M. (2013). The impact of pretend play on children's
development: A review of the evidence. Psychological Bulletin,
139, 1–34. https://doi.org/10.1037/a0029321
Martlew, J., Stephen, C., & Ellis, J. (2011). Play in the primary school
classroom? The experience of teachers supporting children’s learn-
ing through a new pedagogy. Early Years: An International Research
Journal, 31, 71–83. https://doi.org/10.1080/09575146.2010.529425
Mayer, R. (2004). Should there be a three-strikes rule against
pure discovery learning? The case for guided methods of
instruction. American Psychologist, 59, 14–19. https://doi.
org/10.1037/0003-066X.59.1.14
No Child Left Behind Act. (2002). No Child Left Behind Act of 2001,
P.L. 107-110, 20 U.S.C. § 6319.
O’Farrelly, C., Booth, A., Tatlow-Golden, M., & Barker, B. (2020).
Reconstructing readiness: Young children’s priorities for their
early school adjustment. Early Childhood Research Quarterly,
50, 3–16. https://doi.org/10.1016/j.ecresq.2018.12.001
Piaget, J. (1972). The psychology of intelligence. Littlefield.
Popay, J., Roberts, H., Sowden, A., Petticrew, M., Arai, L., Rodgers,
M., Britten, N., Roen, K., & Duffy, S. (2006). Guidance on the
conduct of narrative synthesis in systematic reviews: A product of
the ESRC methods programme. University of Lancaster.
Pramling, N., Wallerstedt, C., Lagerlof, P., Bjorklund, C., Kultti, A.,
Palmer, H., Magnusson, M., Thulin, S., Jonsson, A., & Pramling
Samuelsson, I. (2019). Play-responsive teaching in early childhood
education. Springer.
Pyle, A., & Danniels, E. (2016). A continuum of play-based learning:
The role of the teacher in play-based pedagogy and the fear of
hijacking play. Early Education and Development, 23, 274–289.
https://doi.org/10.1080/10409289.2016.1220771
Remler, D., & van Ryzin, G. (2010). Research methods in practice:
Strategies for description and causation. Sage Publications.
Rogoff, B. (2003). The cultural nature of human development. Oxford
University Press.
Rogoff, B. (2008). Observing sociocultural activity on three planes:
Participatory appropriation, guided participation, and appren-
ticeship. In K. Hall, P. Murphy, & J. Soler (Eds.), Pedagogy and
practice: Culture and identities (pp. 58–74). Sage Publications.
Russell, J. L. (2011). From child’s garden to academic press: The role
of shifting institutional logics in redefining kindergarten ed-
ucation. American Educational Research Journal, 48, 236–267.
https://doi.org/10.3102/0002831210372135
Smilansky, S. (1968). The effects of sociodramatic play on disadvan-
taged preschool children. John Wiley & Sons.
Smith, P. K. (1980). Play and its role in education. Educational
Analysis, 2, 15–24.
Smith, P. K., & Pellegrini, A. (2013). Learning through play.
Encyclopaedia on Early Childhood Development. Accessed
October 12, 2021, from https://www.child-encyclopedia.com/
play/according-experts/learning-through-play
Sylva, K. (1984). A hard-headed look at the fruits of play. Early
Childhood Development and Care, 15, 171–183. https://doi.
org/10.1080/0300443840150205
Thomas, J., Graziosi, S., Brunton, J., Ghouze, Z., O'Driscoll, P., &
Bond, M. (2020). EPPI-reviewer: Advanced software for system-
atic reviews, maps and evidence synthesis. EPPI-Centre software.
UCL Social Research Institute.
Toub, T., Hassinger-Das, B., Nesbitt, K., Ilgave, H., Weisberg, D.,
Hirsh-Pasek, K., Golinkoff, R., Nicolopoulou, A., & Dickinson,
D. (2018). The language of play: Developing preschool vo-
cabulary through play following shared book-reading. Early
Childhood Research Quarterly, 4, 1–17. https://doi.org/10.1016/j.
ecresq.2018.01.010
Van de Pol, J., Volman, M., & Beishuizen, J. (2012). Promoting
teacher scaffolding in small-group work: A contingency perspec-
tive. Teaching and Teacher Education, 28, 193–205. https://doi.
org/10.1016/j.tate.2011.09.009
Vygotsky, L. S. (1978). Mind in society: The development of higher psy-
chological processes. Harvard University Press.
Weisberg, D., Hirsh-Pasek, K., & Golinkoff, R. (2013). Guided play:
Where curricular goal meet a playful pedagogy. Mind, Brain,
and Education, 7, 104–112. https://doi.org/10.1111/mbe.12015
Weisberg, D., Hirsh-Pasek, K., Golinkoff, R., Kittredge, A., &
Klahr, D. (2016). Guided play: Principles and practice. Current
Directions in Psychological Science, 25, 177–182. https://doi.
org/10.1177/0963721416645512
Weisberg, D. S., & Zosh, J. M. (2018). How guided play promotes early
childhood learning. In R. E. Tremblay, M. Boivin, R. Peters,
& A. Pyle (Eds.), Encyclopedia on early childhood development.
Accessed October 12, 2021, from https://www.child-encycloped
ia.com/play-based-learning/according-experts/how-guided-
play-promotes-early-childhood-learning
Whitebread, D. (2019). Overview: The contribution of research in
developmental psychology to early childhood education. In D.
Whitebread, V. Grau, K. Kumpulainen, M. McClelland, N. E.
Perry, & D. Pino-Pasternak (Eds.), Developmental psychology
and early childhood education (pp. 1–19). Sage.
Wood, D., Bruner, J., & Ross, G. (1976). The role of tutoring in prob-
lem solving. Journal of Child Psychology and Child Psychiatry, 17,
89–100. https://doi.org/10.1111/j.1469-7610.1976.tb00381.x
Wood, E., & Bennett, N. (1998). Teachers’ theories of play:
Constructivist or social constructivist? Early Child Development
and Care, 140, 17–30. https://doi.org/10.1080/0300443981400103
World Health Organisation. (2020). Early child development. Accessed
August 24, 2020, from https://www.who.int/topics/early-child
-development/en
Yu, Y., Shafto, P., Bonawitz, E., Yang, S., Golinkoff, R., Corriveau,
K., Hirsh-Pasek, K., & Xu, F. (2018). The theoretical and meth-
odological opportunities afforded by guided play with young
children. Frontiers in Psychology, 9, 1152. https://doi.org/10.3389/
fpsyg.2018.01152
Zosh, J., Hirsh-Pasek, K., Hopkins, E., Jensen, H., Liu, C., Neale, D.,
Solis, S. L., & Whitebread, D. (2018). Accessing the inaccessible:
Redefining play as a spectrum. Frontiers in Psychology. https://
doi.org/10.3389/fpsyg.2018.0112
Zosh, J. M., Hopkins, E. J., Jensen, H., Liu, C., Neale, D., Hirsh-
Pasek, K., Solis, L. S., & Whitebread, D. (2017). Learning through
play: A review of the evidence. The LEGO Foundation. https://
doi.org/10.13140/RG.2.2.16823.01447
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online version of the article at the publisher’s website.
How to cite this article: Skene, K., O’Farrelly, C. M.,
Byrne, E. M., Kirby, N., Stevens, E. C., &
Ramchandani, P. G. (2022). Can guidance during
play enhance children’s learning and development in
educational contexts? A systematic review and
meta-analysis. Child Development, 93, 1162–1180.
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