Environmental enrichment and intellectual disability: Systematic review of neurocognitive effects in children and adolescents

Villouta-Gutiérrez, Orlando; Pérez-Villalobos, Cristhian; Rojas-Ponce, Romina; Sáez-Delgado, Fabiola; Villouta-Gutiérrez, Orlando; Pérez-Villalobos, Cristhian; Rojas-Ponce, Romina; Sáez-Delgado, Fabiola

doi:10.24875/rmn.21000012

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Revista mexicana de neurociencia

versão On-line ISSN 2604-6180versão impressa ISSN 1665-5044

Rev. mex. neurocienc. vol.23 no.1 Ciudad de México Jan./Fev. 2022 Epub 28-Fev-2022

https://doi.org/10.24875/rmn.21000012

Review articles

Environmental enrichment and intellectual disability: Systematic review of neurocognitive effects in children and adolescents

Enriquecimiento ambiental y discapacidad intelectual: Revisión sistemática de los efectos neurocognitivos en niños y adolescentes

Orlando Villouta-Gutiérrez¹²^*

Cristhian Pérez-Villalobos³

Romina Rojas-Ponce⁴

Fabiola Sáez-Delgado⁵

^¹Doctorate Program in Mental Health, Faculty of Medicine, Universidad de Concepción

^²School of Kinesiology, Faculty of Health, Universidad Santo Tomás

^³Department of Medical Education, Faculty of Medicine, Universidad de Concepción

^⁴Department of Pharmacology, Faculty of Biological Sciences, University of Concepción

^⁵Department of Fundamentals of Pedagogy, Faculty of Education, Universidad Católica de la Santísima Concepción. Concepción, Chile

Abstract

Environmental enrichment is a contextual combination of stimuli that facilitate sensory, motor, cognitive, and socioemotional skills. This neuroscientific paradigm enhances experience-dependent neural plasticity, validating it as an intervention model applicable to the educational and neuropsychiatric area in users with intellectual disabilities. The aim is to characterize the neurocognitive effects of environmental enrichment interventions in children and adolescents with intellectual disabilities. A systematic review was conducted according to the guidelines of the PRISMA statement. The search was conducted in Web of Science, Scopus, EBSCOhost, and PubMed databases between 2000 and 2020. Seven studies were selected. Improvements in self-determination, intellectual capacity, social cognition, speech coherence, motor skills, and behavioral regulation were evidenced. The design and execution of the selected protocols are heterogeneous. The application of environmental enrichment protocols in children and adolescents with intellectual disabilities leads to a positive impact on neurocognitive variables.

Keywords Childhood; Environmental enrichment; Intellectual disability; Systematic review; Teens

Resumen

El enriquecimiento ambiental es una combinación contextual de estímulos que facilitan las habilidades sensoriales, motoras, cognitivas y socioemocionales. Este paradigma neurocientífico potencia la plasticidad neuronal dependiente de la experiencia, validándola como modelo de intervención aplicable al área educativa y neuropsiquiátrica en usuarios con discapacidad intelectual. El objetivo fue caracterizar los efectos neurocognitivos de las intervenciones de enriquecimiento ambiental en niños y adolescentes con discapacidad intelectual. Se realizó una revisión sistemática de acuerdo con los lineamientos de la declaración PRISMA. La búsqueda se realizó en las bases de datos Web of Science, Scopus, EBSCOhost y PubMed entre 2000 y 2020. Se seleccionaron siete estudios. Se evidenciaron mejoras en la autodeterminación, la capacidad intelectual, la cognición social, la coherencia del habla, las habilidades motoras y la regulación del comportamiento. El diseño y ejecución de los protocolos seleccionados son heterogéneos. La aplicación de protocolos de enriquecimiento ambiental en niños y adolescentes con discapacidad intelectual conlleva un impacto positivo en las variables neurocognitivas.

Palabras clave Infancia; Enriquecimiento ambiental; Discapacidad intelectual; Revisión sistemática; Adolescentes

Introduction

The varied combination of multimodal sensory stimuli present in environmental enrichment induces biochemical changes that enhance neural plasticity and neuroprotection¹. This allows an optimal adaptation of the central nervous system to the changing sensory demand of the environment through enhanced morphofunctional reorganization and synaptic consolidation, which optimizes sensory-motor and cognitive-behavioral learning². Therefore, an enriched environment allows generating a zone of well-being where the person interacts in an optimal and novel way with a variability of complex stimuli, generating greater experience-dependent neural plasticity versus traditional stimulation³.

The literature defines the environmental enrichment paradigm, from cognitive neuroscience, as a contextual combination of complex inanimate and social stimuli that facilitate sensory, motor, cognitive, and socioemotional skills⁴. This definition focuses on how contextual enrichment can optimize the adaptation and functioning of neural networks, validating it as a potential low-cost intervention model applicable to educational⁵, neurological⁶, and mental health⁷. The transversality of the intervention model is particularly interesting for patients with intellectual disabilities, who may see their performance affected in these three areas.

Intellectual disability is characterized by deficits in cognitive abilities and limitations in the ability to adapt to the environment and social environment⁸, originating before the age of 18 years⁹. Its etiology is varied, encompassing various diagnoses such as unspecified genetic syndromes, Down syndrome, neurodevelopmental disorders, and among others¹⁰. Environmental enrichment has been shown to be a viable intervention strategy in animal models of intellectual disability¹¹-¹³; however, evidence in human models is still incipiently developing¹⁴.

In recent years, there have been different review studies that directly or indirectly characterize the effects of environmental enrichment on intellectual disability. There are systematic reviews that highlight the effects of this paradigm on cognitive-behavioral and sensorimotor variables in neurological rehabilitation in adults¹⁵ and in animal models of acquired brain injury¹⁶. In turn, there have been narrative reviews on the reaches of environmental enrichment on age-dependent cognitive reserve in animal models¹⁷-¹⁹, on learning in the classroom²⁰ and in animal models in intellectual disability¹¹,¹³; however, to date, no systematic review focused on the neurocognitive effects of environmental enrichment in intellectual disability in children and adolescents has been identified.

Therefore, the aim of this article was to characterize the neurocognitive effects of protocolized environmental enrichment interventions in children and adolescents with intellectual disabilities. This will provide reliable and updated information that will allow incorporating the principles of this paradigm in the design of public policies and educational, social, and health interventions.

Method

An electronic and systematic search of articles was performed following the systematic review methodology based on the international PRISMA guidelines²¹, which was developed in two processes. The first aimed to identify the studies to be included and the second to elaborate a matrix with the purpose of extracting information from the studies for subsequent analysis. The article selection process involved five stages (identification, duplicate, screening, eligibility, and bias) which can be seen graphically in figure 1.

Figure 1 Flow diagram of the search and selection of articles in the study identification process.

The identification stage consisted of searching for articles in the Web of Science (WoS), Scopus, EBSCOhost, and PubMed databases using the keywords “environmental enrichment,” “intellectual disability,” “children,” and “teens,” their synonyms, extensions, and conjugations, together with the use of Boolean OR and AND terms. A search iteration was performed and the filters specific to each database were applied in relation to the date of publication between January 2000 and October 2020, and type of document article (for syntax used by database, Supplementary Table 1). The final search was performed on October 3, 2020. The duplicate stage consisted of eliminating those studies that had a literal copy of the selected text. The screening stage consisted of a review by two independent judges, who were presented with a protocol to evaluate the objective of the review and the keywords to be identified in the title and abstract. Articles that did not contain the key words or did not respond to the objective of this review were eliminated. Articles were also eliminated when two judges considered that they should not be included. Discrepancies were resolved by a third reviewer who decided whether or not to include the article. The eligibility stage involved the downloading and complete reading of the research and the application of the previously established exclusion criteria. Quantitative empirical research that explicitly stated the use of environmental enrichment protocols²² in children and adolescents²³ with intellectual disabilities were included in the study. Exclusion criteria considered were as follows: (1) article not available; (2) case study; (3) language other than Spanish, English or Portuguese; (4) qualitative research; (5) adult research; (6) animal model research; (7) theoretical research; (8) does not specify environmental enrichment; and (9) no diagnosis associated with intellectual disability. The bias assessment stage consisted of the review of the entire process by two independent reviewers, considering the exclusion criteria presented. Finally, the process for the analysis of the information from the included studies²⁴-³⁰ involved the aspects described in tables 1 and 2.

Table 1 Description of the aspects evaluated in the neurocognitive effects' characterization matrix

ID	Aspect	Description
1	Article	Indicates surname(s) of author(s) and year of publication.
2	Country	Indicates the country where the study was carried out.
3	Study design	Indicates the methodological design of the study.
4	Participants	4.1 Indicates the medical diagnosis per control/experimental group. 4.2 Indicates the age range of the participants per control/experimental group.
5	n	Indicates the number of participants per control/experimental group.
6	Neurocognitive variable	Indicates the neurocognitive variable(s) observed.
7	Instrument	Indicates the measurement instrument used to quantify the neurocognitive variable(s) observed.
8	Effect	Indicates the results obtained in the study in relation to the neurocognitive variable(s) observed.

Table 2 Description of the aspects evaluated in the environmental enrichment protocols' characterization matrix

ID	Aspect	Description
1	Article	Indicates surname(s) of author(s) and year of publication.
2	Control protocol	Indicates the protocol used with the control group.
3	Experimental protocol	Indicates the protocol used with the experimental group.
4	Provider	Indicates the person in charge of providing the environmental enrichment.
5	Frequency	Indicates the number of sessions per unit of time.
6	Duration	6.1 Indicates the duration of each session. 6.2 Indicates the duration of the entire intervention.
7	Follow-up	Indicates the follow-up time after the last session.

Results

Of the 1064 articles identified in the literature search, 450 were eliminated as duplicates and 465 were excluded at the title and abstract review stage. Of the remaining 149 articles, 115 were excluded due to the following criteria: theoretical study (27), qualitative study (10), animal model study (47), and adult study (31). Thirty-four articles passed to the full-text evaluation stage, where bias evaluation methods were applied with three independent reviewers and the elaboration of a table of excluded articles and reasons for exclusions (Supplementary Table 2). Finally, seven articles were selected for data extraction and analysis of results, through the design of two matrices describing the characterization of neurocognitive effects (Table 3) and the characterization of environmental enrichment protocols (Table 4). The process of identification and eligibility of items described above is shown graphically in figure 1.

Table 3 Characterization of neurocognitive effects in the included studies

Article	Country	Study design	Participants	n	Neurocognitive variable	Instrument	Effect
Arkhipova et al. (2019)24	Russia	Experimental	4.1 CG: Oligophrenia EG:Oligophrenia 4.2 CG: (9-10) yrs EG: (9-10) yrs	CG: 28 EG: 28	Speech Coherence	Glukhov Examination of the Coherent Speech Status in Children with General Speech Underdevelopment (Adapted)	The level of speech coherence had a clinical improvement in the EG, while in the CG, they remained unchanged. Clinical improvements were evidenced in speech correctness, expressiveness and clarity, vocabulary enrichment, improved syntax, and intrinsic motivation.
Ekins et al. (2019)25	Germany	Experimental	4.1 CG: ID EG: ID 4.2 CG: 13.4 ± 1.7 yrs EG: 14.2 ± 3.1 yrs	CG: 5 EG: 10	Cognitive, Social, and Practical Competencies Child Behavior and Emotion Motor Skills	The Heidelberg Competency Inventory (HKI) Behavior Questionnaire for Developmental Disabilities (VFL-L) The Developmental Behavior Checklist (DBC) German Motor Skill Test (DMT)	HKI with no significant differences. DBC improves individual behavior patterns of EG compared to cg (p=.007). VFL-L improves behavior significantly (p=.08) in EG compared to CG (p=.345). DMT with significant improvements in EG in 5/8 motor tasks assessed, while CG shows no significant differences.
Kagitcibasi et al. (2009)26	Turkey	Experimental	4.1 CG: RCD EG: RCD 4.2 CG: (3-5) yrs EG: (3-5) yrs	CG: 165 EG: 90	Cognitive Ability	Operationalization of cognitive ability in academic achievement, university attendance, and vocabulary test scores.	Developmental trajectories indicated that children whose pre-intervention CD were mild to moderate, but not severe, benefited from early EE. A significantly higher percentage of the EG attended university (44.1%) compared to those in the CG (26.6%, p = 0.03). There is a trend for participants who experienced EE in childhood (independent of type) to acquire higher educational attainment than participants who did not experience enrichment.
Kozulin et al. (2010)27	Italy, Israel, Belgium, Chile and Canada	Experimental	4.1 CG: NDD EG: NDD 4.2 CG: (4-20) yrs EG: (4-20) yrs	CG: 49 EG: 95	Intellectual Capacity	Wechsler Intelligence Scale for Children-Revised (WISC-R) Raven's Progressive Matrices Test	All reevaluated subtest scores were better in the EG, with the difference being statistically significant in the “Similarities” (p = 0.008), “Incomplete Figures” (p = 0.003) and Raven's Matrices (p = 0.019) subtests. Fluid intelligence improves substantially in children with CD exposed to the enrichment program.
Kramer et al. (2018)28	United States	Experimental	4.1 CG: NDD EG: NDD 4.2 CG: 17,5 ± 2,3 yrs EG: 17,5 ± 1,8 yrs	CG: 35 EG: 47	Knowledge Problem-Solving Self-Determination Self-Efficacy Goal Achievement	Project ASDM Knowledge and Problem-Solving Test (Project ASDM Test) American Institutes for Research Self Determination Scale (AIR Self-determination) Disability Related Self-efficacy Goal Attainment Scaling	The EG showed sustained changes in self-determination and goal achievement. There was also evidence of significantly higher knowledge of environmental barriers (p < 0.001), and a greater ability to apply that knowledge to the achievement of participatory goals. There was no evidence of changes in self-efficacy.
Simó-Pinatella et al. (2019)29	Spain	Quasi-Experimental	4.1 CG: NA EG: DI 4.2 CG: NA EG: 15,5 ± 1,8yrs	CG: NA EG: 28	Challenging Behavior	Inventory of Preferred Activities and Reinforcers of Rueda. Observation/Recording Sheet	EE had a significant impact (p < 0.05) on the reduction of the three challenging behaviors analyzed: aggressive, destructive and disruptive, with a greater impact on disruptive behaviors.
Wyman and Claro. (2020)30	Canada	Quasi-Experimental	4.1 CG: NA GE-1: CD + ASD GE-2: CD 4.2 CG: NA EG-1: (16-21) yrs EG-2: (16-21) yrs	CG: NA EG-1: 29 EG-2: 34	Social Skills	Test of Adol Social Skills Knowledge (TASSK) Quality of Socialization Questionnaire-Adolescent (QSQ-A) Social Responsiveness ScaleSecond Edition (SRS-2) Adult Version	All participants experienced a significant improvement in social skills (p ≤ 0.01). In addition, students with CD, but not those with ASD, reported a significant increase in friendship engagement (p ≤ 0.05). Overall, the EE benefited youth with CD but students with ASD present greater challenges in applying their new social skills outside of the program.

ASD: autism spectrum disorder; CD: cognitive deficit; CG: control group; EE: environmental enrichment; EG: experimental group; ID: intellectual disability; NA: not applicable; NDD: neurodevelopmental disorder; RCD: risk of cognitive deficit; yrs: years.

Table 4 Characterization of the environmental enrichment protocols of the included studies

Article	Control protocol	Experimental protocol	Provider	Frequency	Duration	Follow-up
Arkhipova et al. (2019)24	RC	Young Director Children's Animation Studio. EE protocol composed of cartoon creation classes, literary and creative classes, visual activities classes, animation classes and “ABC of acting and sound” classes.	Interdisciplinary team composed of language teachers, computer teachers and graphic designers	NR	6.1 NR 6.2 NR	NR
Ekins et al. (2019)25	Physical education RC	Physical education RC in combination with Drums Alive^® Kids Beats sessions. EE protocol composed of rhythmic percussion, music, movement and cognition through a cross-curricular approach that enhances creativity and critical thinking.	Trained teachers	2 physical education RC + 2 sessions of EE/wk	6.1 NR 6.2 7 wk	NR
Kagitcibasi et al. (2009)26	No educational intervention with EE	Educational Intervention Turkish Early Enrichment Project (TEEP). Home and educational center EE protocol for preschool children. Composed of three options: educational nursery, day care center, and home. These three options are accompanied by mother's education.	Trained staff	60 educative sessions in 2 yrs	6.1 NR 6.2 2 yrs	7 y 19 yrs
Kozulin et al. (2010)27	Occupational therapy, sensory-motor training and RC	Feuerstein Instrumental Enrichment (IE) Basic Program^® (Adapted). EE protocol focused on transforming passive and dependent students into more active and self-motivated learners. Composed of 6/9 items aimed at enhancing mathematical skills, literacy, and social interaction.	Trained teachers	90 h in 30-45 wk	6.1 45-90' 6.2 30-45 wk	NR
Kramer et al. (2018)28	Mentor, parent and peer-guided planning and execution of a participant-defined community trip	Project ASDM. Multicomponent EE protocol that includes individualized goal setting, group curriculum, and peer mentoring. Each component of the intervention implements problem-solving skills, self-efficacy, self-determination, and participation, with the goal of identifying and resolving physical and social environmental barriers to social engagement	Social worker and trained tutors	2 sessions/wk	6.1 120' 6.2 12 wk	6 wk
Simó-Pinatella et al. (2019)29	NA	Enriched Environment ABAB Design. EE protocol composed of 4 phases of 5 sessions each: 1-A baseline without EE. 2-B EE in a playground with a variety of activities. 3-A* again baseline without EE. 4-B* again EE	Tutors and monitors	5 sessions/wk (Phase 2 y 4)	6.1 60' 6.2 2 wk (Fase 2 y 4)	NR
Wyman and Claro. (2020)30	NA	Program for the Education and Enrichment of Relational Skills^® (PEERS). Curriculum-based EE protocol that enhances social and behavioral skills by providing real-world experiences that allow students to project acquired social skills into real life.	PhD student in Educational Psychology and trained teachers.	2 sessions/wk	6.1 45' 6.2 16 wk	2 wk

EE: environmental enrichment; NA: not applicable; NR: no report; RC: regular classes; wk: weeks; ‘: minutes.

Of the selected studies, developed in European and American continent, five have an experimental design²⁴-²⁸ and two quasi-experimental²⁹,³⁰. We identified four free designed, that is, non-patented environmental enrichment protocols that respond to the characterization of a specific sample: Young Director Children's Animation Studio (YDCA)²⁴, Turkish Early Enrichment Project (TEEP)²⁶, Project TEAM²⁸, and Enriched Environment ABAB Design²⁹. In turn, three patented protocols were identified with standardized procedures, independent of sample characterization: Drums Alive Kids Beats (DAKB)²⁵, Feuerstein Instrumental Enrichment Basic Program (IE-Basic)²⁷, and Program for the Education and Enrichment of Relational Skills (PEERS)³⁰. The baseline diagnoses of intellectual disability addressed in the selected articles are subdivided into oligophrenia²⁴, unspecified intellectual disability²⁵,²⁹, cognitive deficit²⁶,³⁰, and neurodevelopmental disorder with cognitive compromise²⁷,²⁸. The age range of participants ranged from 3 to 20 years. The neurocognitive variables assessed focus on self-determination²⁸, self-efficacy²⁸, intellectual ability²⁶,²⁷, social cognition²⁵,²⁸,³⁰, speech coherence²⁴, motor skills²⁵, and behavioral regulation²⁵,²⁹.

The neurocognitive variables of self-determination, intellectual capacity, and motor skills demonstrated statistically significant improvements on intervention with environmental enrichment protocols compared to control groups without associated environmental enrichment²⁵-²⁷. Specifically, in intellectual ability, significant differences were evidenced in abstract reasoning and fluid intelligence²⁷, and better long-term academic performance²⁶. Social cognition evidenced statistically significant changes following the application of both free designed²⁸ and patented²⁵,³⁰ environmental enrichment protocols. In behavioral regulation, a significant decrease in aggressive, destructive, and disruptive behaviors was observed following exposure to free designed²⁹ and patented²⁵ environmental enrichment. Speech coherence clinically improved in the experimental group exposed to environmental enrichment compared to the control group without associated enrichment, mainly in the subvariables of correctness, expressiveness and clarity of speech, vocabulary enrichment, syntax, and intrinsic motivation²⁴. No clinically significant changes in self-efficacy were present in the selected studies²⁸.

In relation to the design and implementation of environmental enrichment protocols, both the provider profiles, the frequency of intervention and the duration of intervention per session and overall, present high heterogeneity. Providers include trained teachers²⁵,²⁶,³⁰, tutors and trained monitors without specifying profession²⁶,²⁸,²⁹, and interdisciplinary teams²⁴. Intervention frequencies varied between two sessions²⁵,²⁸,³⁰ and five sessions^{29
week}ly with a duration between 45 min²⁷,³⁰ and 120 min²⁸. The total duration of the protocols varied from 2 to 7 weeks in targeted interventions²⁵,²⁹,³⁰, to 1 to 2 years in long-term interventions²⁶,²⁷. Only three studies specified follow-up of participants between 2 and 6 weeks²⁸,³⁰ up to 19 years²⁶.

Discussion

The aim of this systematic review was to characterize the neurocognitive effects of protocolized environmental enrichment interventions in children and adolescents with intellectual disabilities. For such purposes, first, we must differentiate environmental enrichment as a neuroscientific paradigm from enriched therapy or intervention. Environmental enrichment, as proposed by Heidi Janssen, involves creating experiences in which participants can engage in social, cognitive, and sensorimotor activities simultaneously³¹. This allows for increased opportunities for practice and promotes active participation³². Environmental enrichment merges with activities of daily life and social participation specific to the user's everyday life³³, therefore, there are programs contextualized in specific educational, work, or leisure realities. In contrast, the enriched intervention involves the enhancement of a unique dimension, not necessarily fulfilling the simultaneity among the four dimensions proposed by the neuroscientific model. In the enriched intervention, the participant can be an active or passive agent, and the activity is not necessarily designed in a situational context attentive to the user's reality²².

The results of this research demonstrate positive effects of environmental enrichment on different neurocognitive dimensions compared to controls without enrichment in children and adolescents with intellectual disabilities, which is justified based on findings in the field of cognitive neuroscience and neurobiology. These disciplines have demonstrated that the environmental enrichment paradigm induces varied neural plasticity responses in the central nervous system in both animal and human models, ranging from functional cognitive enhancement to potentiation of synaptic plasticity, adult hippocampal neurogenesis, synaptogenesis, and modulation of gene expression³⁴,³⁵. The diversity of multimodal sensory inputs implicit in environmental enrichment induce epigenetic changes that enhance neural plasticity and neuroprotection through upregulation of glutamatergic and GABAergic tone, and upregulation of angioglioneurins such as BDNF, NGF, IGF-1, VEGF, and EPO³⁶.

The horizontal improvement of different neurocognitive variables through environmental enrichment protocols not only sustains an improvement in the cognitive functioning of children and adolescents with intellectual disabilities but, in turn, also provides them with tools based on the contextual practice of activities of daily living and social participation that facilitate their effective educational, labor, and social inclusion. In fact, social models of inclusion theoretically respond to the paradigm of environmental enrichment, as it implies the interaction of sensory, motor, cognitive, and socioemotional factors³⁷. The intrinsic contextualization of the paradigm to the situational reality of the participants encourages the development of neurocognitive dimensions applied to the context itself, which facilitates its extrapolation to the user's daily life.

The only neurocognitive variable that did not show positive changes was self-efficacy. Self-efficacy is defined as a person's belief in his or her ability to achieve certain actions, which will influence thoughts about him or herself³⁸. It is interesting to hypothesize why self-efficacy did not improve in adolescents with intellectual disabilities who participated in the Project Team protocol²⁸. The study suggests that the non-variation in self-efficacy responds to the characteristics of the assessment instrument used; however, let us recall that children and adolescents with intellectual disabilities make external attributions of their successes (“I did well just by luck”) and internal attributions of their failures (“I'm just slow”) mainly due to a history of failed experiences with the environment. This makes them internalize a negative self-image and develop lower self-efficacy³⁹, which in adolescence may be less susceptible to change.

In this study, it can be observed that the design and execution of the environmental enrichment protocols are irregular at the time of establishing providers, frequency and duration. The provider of environmental enrichment is not technically defined, since, strictly speaking, the multimodality of the model and the range of contextual applications imply the formation of inter- and transdisciplinary teams for its optimal design and execution. The disparity in the frequency and duration of the sessions unfortunately responds to the lack of consensus in the literature on the methodological design and dosage of environmental enrichment paradigms⁴⁰, which is still a matter of research.

This systematic review presents a number of methodological limitations, such as including only papers published in English, Spanish, and Portuguese. The varied etiology of intellectual disability also represents a limitation per se, as it increases the plurality of the sample of studies analyzed. In addition, the methodological design, the environmental enrichment protocols, and the neurocognitive variables evaluated are heterogeneous, respond to different situational contexts, and include the baseline bias of the instruments used to evaluate.

Conclusions

The application of environmental enrichment protocols in children and adolescents with intellectual disabilities has a positive impact on neurocognitive variables associated with intelligence, communication, socialization, and motor skills. The environmental enrichment paradigm is supported by scientific evidence in animal and human models. In turn, its guidelines encourage effective inclusion in activities of daily living and social participation of participants; however, it has methodological limitations that should be addressed in future research.

This systematic review is projected as a prelude to future research to better elucidate the benefits of environmental enrichment in intellectual disabilities. This will allow the foundation of base guidelines for public policies and programs of social, educational, labor, and health intervention that favor this profile of patients.

SUPPLEMENTARY DATA

Supplementary data are available at DOI: 10.24875/RMN.21000012. These data are provided by the corresponding author and published online for the benefit of the reader. The contents of supplementary data are the sole responsibility of the authors.

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Supplementary Table 1 Search syntaxes by database

Web of Science	Scopus	EBSCO host	PubMed
TEMA: ("enrich* environment" OR "environment enrich" OR "enrich context" OR "context enrich" OR "enrich class" OR "class enrich"OR "challeng environment" OR "stimulus rich" OR "enrich" OR "ee") AND TEMA: ("mental defic" OR "mental disab" OR "mental impair" OR "intellect defic" OR "intellect disab" OR "intellect impair" OR "learn defic" OR "learn disab" OR "learn impair" OR "cognit defic" OR "cognit disab" OR "cognit impair" OR "mental retard") AND TEMA: ("boy" OR "girl" OR "kid" OR "youth" OR "adolescent" OR "teen" OR "infant" OR "child" OR "pubert" OR "student" OR "prescholar" OR "pre-scholar" OR "scholar" OR "school*" OR "men" OR "women") Refinado por: AÑOS DE PUBLICACIóN: (2020 OR 2012 OR 2004 OR 2019 OR 2011 OR 2003 OR 2018 OR 2010 OR 2002 OR 2017 OR 2009 OR 2001 OR 2016 OR 2008 OR 2000 OR 2015 OR 2007 OR 2014 OR 2006 OR 2013 OR 2005) AND TIPOS DE DOCUMENTOS: (ARTICLE) Período de tiempo: Todos los años. Índices: SCI-EXPANDED, SSCI, A&HCI, BKCI-S, BKCI-SSH, ESCI	(TITLE-ABS-KEY ("enrich* environment" OR "environment enrich" OR "enrich context" OR "context enrich" OR "enrich class" OR "class enrich" OR "challeng environment" OR "stimulus rich" OR "enrich" OR "ee") AND TITLE-ABS-KEY ("mental defic" OR "mental disab" OR "mental impair" OR "intellect defic" OR "intellect disab" OR "intellect impair" OR "learn defic" OR "learn disab" OR "learn impair" OR "cognit defic" OR "cognit disab" OR "cognit impair") OR TITLE-ABS-KEY ("mental retard") AND TITLE-ABS-KEY ("boy" OR "girl" OR "kid" OR "youth" OR "adolescent" OR "teen" OR "infant" OR "child" OR "pubert" OR "student" OR "prescholar" OR "pre-scholar" OR "scholar" OR "school*" OR "men" OR "women")) AND (LIMIT-TO (PUBYEAR, 2020) OR LIMIT-TO (PUBYEAR, 2019) OR LIMIT-TO (PUBYEAR, 2018) OR LIMIT-TO (PUBYEAR, 2017) OR LIMIT-TO (PUBYEAR, 2016) OR LIMIT-TO (PUBYEAR, 2015) OR LIMIT-TO (PUBYEAR, 2014) OR LIMIT-TO (PUBYEAR, 2013) OR LIMIT-TO (PUBYEAR, 2012) OR LIMIT-TO (PUBYEAR, 2011) OR LIMIT-TO (PUBYEAR, 2010) OR LIMIT-TO (PUBYEAR, 2009) OR LIMIT-TO (PUBYEAR, 2008) OR LIMIT-TO (PUBYEAR, 2007) OR LIMIT-TO (PUBYEAR, 2006) OR LIMIT-TO (PUBYEAR, 2005) OR LIMIT-TO (PUBYEAR, 2004) OR LIMIT-TO (PUBYEAR, 2003) OR LIMIT-TO (PUBYEAR, 2002) OR LIMIT-TO (PUBYEAR, 2001) OR LIMIT-TO (PUBYEAR, 2000)) AND (LIMIT-TO (DOCTYPE, "ar"))	AB ( "enrich* environment" OR "environment enrich" OR "enrich context" OR "context enrich" OR "enrich class" OR "class enrich"OR "challeng environment" OR "stimulus rich" OR "enrich" OR "ee") AND AB ("mental defic" OR "mental disab" OR "mental impair" OR "intellect defic" OR "intellect disab" OR "intellect impair" OR "learn defic" OR "learn disab" OR "learn impair" OR "cognit defic" OR "cognit disab" OR "cognit impair" OR "mental retard" ) AND AB ("boy" OR "girl" OR "kid" OR "youth" OR "adolescent" OR "teen" OR "infant" OR "child" OR "pubert" OR "student" OR "prescholar" OR "pre-scholar" OR "scholar" OR "school*" OR "men" OR "women" ) Limitadores XFecha de publicación: 20000101-20201231 Tipos de Fuentes XPublicaciones acadéxfmicas	(("enrich* environment"[Title/Abstract] OR "environment enrich"[Title/Abstract] OR "enrich context"[Title/Abstract] OR "context enrich"[Title/Abstract] OR "enrich class"[Title/Abstract] OR "class enrich"OR "challeng environment"[Title/Abstract] OR "stimulus rich"[Title/Abstract] OR "enrich"[Title/Abstract] OR "ee"[Title/Abstract]) AND ("mental defic"[Title/Abstract] OR "mental disab"[Title/Abstract] OR "mental impair"[Title/Abstract] OR "intellect defic"[Title/Abstract] OR "intellect disab"[Title/Abstract] OR "intellect impair"[Title/Abstract] OR "learn defic"[Title/Abstract] OR "learn disab"[Title/Abstract] OR "learn impair"[Title/Abstract] OR "cognit defic"[Title/Abstract] OR "cognit disab"[Title/Abstract] OR "cognit impair"[Title/Abstract] OR "mental retard"[Title/Abstract])) AND ("boy"[Title/Abstract] OR "girl"[Title/Abstract] OR "kid"[Title/Abstract] OR "youth"[Title/Abstract] OR "adolescent"[Title/Abstract] OR "teen"[Title/Abstract] OR "infant"[Title/Abstract] OR "child"[Title/Abstract] OR "pubert"[Title/Abstract] OR "student"[Title/Abstract] OR "prescholar"[Title/Abstract] OR "pre-scholar"[Title/Abstract] OR "scholar"[Title/Abstract] OR "school*"[Title/Abstract] OR "men"[Title/Abstract] OR "women"[Title/Abstract]) Filters applied: Journal Article, from 2000/1/1 - 2020/10/3

Supplementary Table 2A Summary table of excluded articles

Criterion ID	Reason for exclusion	Number of studies excluded
1	Article not available	1
2	Case study	5
3	Language other than English, Spanish, or Portuguese	3
4	Qualitative research	0
5	Adult research	2
6	Animal model research	0
7	Theoretical research	1
8	Does not specify environmental enrichment	4
9	Diagnosis not associated with intellectual disability	11
	Total number of articles eliminated	27

Supplementary Table 2B Table of excluded articles and reason for exclusion

Article ID	Article	Reason for exclusion
1	Ben-Hur M, Feuerstein R. Feuerstein's new program for the facilitation of cognitive development in young children. J Cogn Educ Psychol. 2011;10(3):224-237. doi:10.1891/1945-8959.10.3.224.	Theoretical Research
2	Clemenson GD, Stark CEL. Virtual environmental enrichment through video games improves hippocampal-associated memory. J Neurosci. 2015;35(49):16116-16125. doi:10.1523/jneurosci.2580-15.2015.	Diagnosis Not Associated with Intellectual Disability
3	Davies DK, Stock SE, Wehmeyer ML. Computer-mediated, self-directed computer training and skill assessment for individuals with mental retardation. J Dev Phys Disabil. 2004;16(1):95-105. doi:10.1023/b:jodd.0000010041.13710.33.	Adult Research
4	Demir M, Do?anay Bilgi A. The effect of print enriched plays in development of print awareness of kindergarden students with mild intellectual disability. Elementary Educ Online 2018;17(1):450-468. doi:10.17051/ilkonline.2018.413802.	Language Other than English, Spanish or Portuguese
5	Flu RB. Catatonic features in people with a learning disability and ausitm: Implication for treatment. Eur Psychiat. 2010;25:1.	Diagnosis Not Associated with Intellectual Disability
6	Friedman-Yakoobian MS, Parrish EM, Eack SM, Keshavan MS. Neurocognitive and social cognitive training for youth at clinical high risk (CHR) for psychosis: A randomized controlled feasibility trial. Schizophr Res. 2020. doi:10.1016/j.schres.2020.09.005.	Diagnosis Not Associated with Intellectual Disability
7	Jalil-Abkenar SS, Afrooz GA, Arjmandnia AA, Ghobari-Bonab B. The effectiveness of Arsh Leisure Time Program on the profile working memory of children with educatable intellectual disability. Arch Rehabil. 2019 Spr;20(1):28-39. doi:10.32598/rj.20.1.28.	Language Other than English, Spanish or Portuguese
8	Knowles C, Harris A, Van Norman R. Family fun nights: Collaborative parent education accessible for diverse learning abilities. Early Child Educ J. 2017;45(3):393-401. doi:10.1007/s10643-016-0801-2.	Adult Research
9	Lancioni GE, O'Reilly MF, Singh NN, Sigafoos J, Oliva D, Severini L. Three persons with multiple disabilities accessing environmental stimuli and asking for social contact through microswitch and VOCA technology. J Intellect Disabil Res. 2008;52(4):327-336. doi:10.1111/j.1365-2788.2007.01024.x.	Case Study
10	Liu M. Examining the performance and attitudes of sixth graders during their use of a problem-based hypermedia learning environment. Comput Hum Behav. 2004;20(3):357-379. doi:10.1016/S0747-5632(03)00052-9.	Diagnosis Not Associated with Intellectual Disability
11	Lopez SLV, Marias GC. Art as an inclusion plan for the development of basic learning skills. Rev Incl. 2017 Apr-Jun;4:138-148.	Article Not Available
12	Lucangeli D, Fastame MC, Pedron M, Porru A, Duca V, Hitchcott PK, et al. Metacognition and errors: the impact of self-regulatory trainings in children with specific learning disabilities. ZDM. 2019;51(4):577-585. doi:10.1007/s11858-019-01044-w.	Diagnosis Not Associated with Intellectual Disability
13	MacKenzie LE, Patterson VC, Zwicker A, Drobinin V, Fisher HL, Abidi S, et al. Hot and cold executive functions in youth with psychotic symptoms. Psychol Med. 2017;47(16):2844-2853. doi:10.1017/S0033291717001374.	Does Not Specify Environmental Enrichment
14	Nas SE, Coruhlu TS, Calik M, Ergul C, Gulay A. Investigating a science experiments guidebook for students with learning disabilities. Ank Univ Egit Bilim Fak Ozel Egit Derg. 2019;20(3):501-534. doi:10.21565/ozelegitimdergisi.484937.	Language Other than English, Spanish or Portuguese
15	Peltenburg M, van den Heuvel-Panhuizen M, Robitzsch A. ICT-based dynamic assessment to reveal special education students' potential in mathematics. Res Pap Educ. 2010;25(3):319-334. doi:10.1080/02671522.2010.498148.	Diagnosis Not Associated with Intellectual Disability
16	Qualls CD, Lantz JM, Pietrzyk RM, Blood GW, Hammer CS. Comprehension of idioms in adolescents with language-based learning disabilities compared to their typically developing peers. J Commun Disord. 2004;37(4):295-311. doi:10.1016/j.jcomdis.2003.12.001.	Diagnosis Not Associated with Intellectual Disability
17	Rabin SJ, Israel-Yaacov S, Laugeson EA, Mor-Snir I, Golan O. A randomized controlled trial evaluating the Hebrew adaptation of the PEERS® intervention: Behavioral and questionnaire-based outcomes. Autism Res. 2018;11(8):1187-1200. doi:10.1002/aur.1974.	Diagnosis Not Associated with Intellectual Disability
18	Saldaña D. Interactive assessment of metacognition: Exploratory study of a procedure for persons with severe mental retardation. Eur J Psychol Educ. 2004;19(4):349-364. doi:10.1007/BF03173215.	Does Not Specify Environmental Enrichment
19	Saldaña D. Dynamic master mind: Interactive use of a game for testing metacognition. Sch Psychol Int. 2004;25(4):422-438. doi:10.1177/0143034304048777.	Does Not Specify Environmental Enrichment
20	Scalzo R, Henry K, Davis TN, Amos K, Zoch T, Turchan S, et al. Evaluation of interventions to reduce multiply controlled vocal stereotypy. Behav Modif. 2015;39(4):496-509. doi:10.1177/0145445515573986.	Case Study
21	Schnitzer G, Andries C, Lebeer J. Usefulness of cognitive intervention programmes for socio-emotional and behaviour problems in children with learning disabilities. J Res Spec Educ Needs. 2007;7(3):161-171. doi:10.1111/j.1471-3802.2007.00093.x.	Diagnosis Not Associated with Intellectual Disability
22	Sperandéo Macedo C, Andreucci LC, Montelli TDCB. Cognitive function evaluation in school-age children from economically impoverished community: Results of enriched education program. Arq Neuropsiquiatr. 2004;62(3 B):852-857. doi:10.1590/s0004-282x2004000500021.	Does Not Specify Environmental Enrichment
23	Toole LM, Bowman LG, Thomason JL, Hagopian LP, Rush KS. Observed increases in positive affect during behavioral treatment. Behav Interv. 2003;18(1):35-42. doi:10.1002/bin.124.	Case Study
24	Van Camp CM, Vollmer TR, Daniel D. A systematic evaluation of stimulus preference, response effort, and stimulus control in the treatment of automatically reinforced self-injury. Behav Ther. 2001;32(3):603-613. doi:10.1016/S0005-7894(01)80037-X.	Case Study
25	Winarni TI, Schneider A, Borodyanskara M, Hagerman RJ. Early intervention combined with targeted treatment promotes cognitive and behavioral improvements in young children with Fragile X syndrome. Case Rep Genet. 2012:1-4. doi:10.1155/2012/280813.	Case Study
26	Wolstencroft J, Mandy W, Skuse D. Protocol: New approaches to managing the social deficits of Turner Syndrome using the PEERS program. F1000. 2019;7. doi:10.12688/f1000research.15489.2.	Diagnosis Not Associated with Intellectual Disability
27	Yamada T, Miura Y, Oi M, Akatsuka N, Tanaka K, Tsukidate N, et al. Examining the treatment efficacy of PEERS in Japan: Improving social skills among adolescents with autism spectrum disorder. J Autism Dev Disord. 2020;50(3):976-997. doi:10.1007/s10803-019-04325-1.	Diagnosis Not Associated with Intellectual Disability

FundingThis work was funded by the National Agency for Research and Development (ANID)/Scholarship Program/Beca Doctorado Nacional/2020-21201270.

Ethical responsibilities

Protection of humans and animals. The authors declare that no experiments on humans or animals have been performed for this research.

Confidentiality of data. The authors declare that no patient data appear in this article.

Right to privacy and informed consent. The authors declare that no patient data appear in this article.

Received: February 17, 2021; Accepted: May 19, 2021

^* Correspondence: Orlando Villouta-Gutiérrez E-mail: ovillouta@udec.cl

^{Conflicts of interest}

The authors declare that they have no conflicts of interest.

Instituto Nacional de Cardiología Ignacio Chávez. Published by Permanyer. This is an open access article under the CC BY-NC-ND license