Document Type : Review Article
Authors
Department of Occupational Therapy, School of Rehabilitation Sciences, University of Social Welfare and Rehabilitation Sciences, Tehran, Iran.
Abstract
Background: Assessment tools are essential in occupational therapy for providing client-centered care, clinical decision-making, evidence-based documentation, and defining expected outcomes. This study investigated available occupational therapy assessment tools for children and adolescents in Iran.
Methods: A comprehensive search was conducted in MEDLINE, PubMed Central, Web of Science, Embase, Scopus, SID, Magiran, and Google Scholar from their inception until May 24, 2022. Two reviewers screened records and applied inclusion criteria focused on peer-reviewed articles in English or Persian, covering children and adolescents aged 0-18 years old in Iran. The methodological quality of each study and the evidence quality of each measurement tool was assessed using the COnsensus-based Standards for the selection of health Measurement INstruments (COSMIN) Risk of Bias Checklist, and the Grading of Recommendations, Assessment, Development, and Evaluation (GRADE) approach.
Results: A review of 66 articles published between 2010 and 2021, identified 51 assessment tools. The majority of tools (70.7%) targeted typically developing children and those with cerebral palsy, with limited options for adolescents (n=5) and infants (n=1). These tools primarily focused on assessing body functions (47.06%), particularly sensory-motor functions. While numerous tools demonstrated good reliability (66.67%) and significant content validity (31.37%), there was a paucity of high-quality evidence supporting other psychometric properties.
Conclusion: This study identified 51 occupational therapy assessment tools for Iranian children and adolescents. However, the present research identified some concerning trends, such as lack of tools available for specific populations, an overreliance on translated tools, and a predominant focus on body functions. Moreover, there were concerns about the methodological quality of studies using these tools.
Keywords
What’s Known
While standardized occupational therapy assessment tools are considered crucial globally, their adoption varies across countries due to cultural, legal, and financial factors. Global studies indicated that occupational therapy assessment tools for children and adolescents should be culturally relevant, diversified, and validated.
What’s New
Fifty-one occupational therapy assessment tools were identified for children and adolescents. The primary purpose of assessment tools was to evaluate children who were typically developing, and those who had cerebral palsy, focusing on assessing body functions.
Introduction
Occupational therapy is a client-centered healthcare profession that utilizes evidence-based interventions to facilitate engagement in meaningful occupations and activities. The goal is to enhance individuals’ overall quality of life and engagement across the lifespan by addressing their specific needs and goals. 1 An essential part of occupational therapy is the assessment process, which provides a thorough picture of a client’s abilities and requirements. This understanding guides the formulation of intervention strategies and the assessment of progress. 2 Assessment is especially crucial for children and adolescents navigating critical developmental stages. Occupational therapy assessments are instrumental in identifying and addressing challenges that might hinder abilities to participation in daily activities and roles, hence improving the well-being and development of this population. 3
There are many different types of assessment tools that occupational therapists can use to evaluate various domains, such as physical functions, occupational areas, contexts, performance patterns, and roles. 4 The literature emphasized the use of standardized evaluation methods since they could provide objective data. This data is crucial for diagnosing conditions, planning interventions, evaluating changes over time, and facilitating research activities. 4 , 5 Furthermore, standardized assessments strengthen the credibility and uniformity of the occupational therapy profession, enhancing interdisciplinary communication and evidence-based practice. 6 Although therapists are expected to use standardized assessments during their treatment process, some therapists continue to employ non-standardized assessment tools. 7 The limited use of standardized instruments could be attributed to their homogeneity, restricted clinical applications, lack of information about available instruments, limited availability, and accessibility issues. 4
Despite the recognized importance of standardized assessment tools globally, disparities exist in their application and availability across different countries and contexts. Factors such as cultural relevance, healthcare systems, legal frameworks, and financial considerations significantly influence the selection and utilization of assessment tools. 8 Moreover, the appropriateness of an assessment tool is determined by a number of factors, including psychometric properties, relevance to the client’s age and abilities, and practical considerations related to administration. 6 , 9
In the international context, the importance of assessment in occupational therapy and evidence-based practice prompted researchers to examine occupational therapy assessment tools from different perspectives in different countries. Some studies reviewed assessment tools based on specific disorders such as Cerebral Palsy (CP), while others focused on a specific instrument such as the Canadian Occupational Performance Measure (COPM), or tools for measuring a specific occupational domain, such as activities of daily living (ADL). 5 , 10 , 11 Furthermore, cultural and healthcare systems disparities in different countries prompted researchers to investigate occupational therapy assessment tools in countries such as Brazil and Spain. 12 , 13
In Brazil, 15 occupational therapy assessment tools were found for children and adolescents, which focused on school-aged children and adolescents. These tools focused on functional performance, occupational participation and performance, playful behavior, and sensory functions. However, cultural and contextual relevance challenges emerge due to the widespread use of tools adapted from other countries. 12 In Spain, the majority of assessment tools are dedicated to ADL, instrumental activities of daily living (IADLs), and body functions. 13 The need for culturally and contextually relevant, validated, and diverse occupational therapy assessment tools is evident in these two cultures. 12 , 13
Although half a century has passed since the establishment of occupational therapy in Iran, no study has reviewed available occupational therapy assessment tools in any field. Therefore, this scoping review aimed to investigate the available occupational therapy assessment tools for children and adolescents in Iran, providing a comprehensive overview, and identifying areas where these tools could be enhanced and expanded.
Materials and Methods
Study Design
To provide a comprehensive overview of available assessment tools for children and adolescents in occupational therapy within Iran, a methodological approach that allows for a broad exploration of the existing literature was required. Employing a scoping review method provided a coherent approach to illuminate the array of available assessment tools. This strategy supported a comprehensive exploration across varied sources to present a broad perspective on a specific subject. 14 This method was consistent with our primary objective of mapping the present landscape of available tools and identifying gaps that might require further research or tool development in occupational therapy assessments for children and adolescents in Iran. In addition, the reporting was structured by the PRISMA extension for scoping reviews (PRISMA-ScR) to ensure a comprehensive and transparent scoping review of occupational therapy assessment tools for children and adolescents in Iran. 15
Search Strategy
A comprehensive search was conducted using multiple databases, including MEDLINE and PubMed Central (through PubMed), Web of Science, Embase, and Scopus. Moreover, the search was extended to the SID and Magiran databases to identify papers published in Persian. Databases were searched from their inception until May 24, 2022. An initial search was conducted in PubMed by utilizing five concepts derived from the research objective: (“occupational therapy”) AND (assessment OR evaluation OR measure OR tool OR test OR questionnaire) AND (infant OR toddler OR child OR adolescent) AND (Translation OR Validity OR reliability OR adaptation OR psychometric) AND (Iran OR Farsi OR Persian). For each database, the keyword and its combination were further optimized to expand their search results. The search strategy for each database is presented in table 1.
MEDLINE and PubMed Central through PubMed |
(“occupational therapy”) AND (assessment OR evaluation OR measure OR tool OR test OR questionnaire) AND (infant OR toddler OR child OR adolescent) AND (Translation OR Validity OR reliability OR adaptation OR psychometric) AND (Iran OR Farsi OR Persian) |
Embase |
(‘occupational therapy’/exp OR ‘occupational therapy’) AND (‘assessment’/exp OR assessment OR ‘evaluation’/exp OR evaluation OR measure OR ‘tool’/exp OR tool OR ‘test’/exp OR test OR ‘questionnaire’/exp OR questionnaire) AND (‘infant’/exp OR infant OR ‘toddler’/exp OR toddler OR ‘child’/exp OR child OR ‘adolescent’/exp OR adolescent) AND (‘translation’/exp OR translation OR ‘validity’/exp OR validity OR ‘reliability’/exp OR reliability OR ‘adaptation’/exp OR adaptation OR psychometric) AND (‘Iran’/exp OR Iran OR Farsi OR ‘Persian’/exp OR Persian) |
Web of Science |
ALL=((“occupational therapy”) AND (assessment OR evaluation OR measure OR tool OR test OR questionnaire) AND (infant OR toddler OR child OR adolescent) AND (Translation OR Validity OR reliability OR adaptation OR psychometric) AND (Iran OR Farsi OR Persian)) |
Scopus |
TITLE-ABS-KEY (“occupational therapy”) AND TITLE-ABS-KEY (assessment OR evaluation OR measure OR tool OR test OR questionnaire) AND TITLE-ABS-KEY (infant OR toddler OR child OR adolescent) AND TITLE-ABS-KEY (translation OR validity OR reliability OR adaptation OR psychometric) AND TITLE-ABS-KEY (Iran OR Farsi OR Persian) |
Different databases through Google Scholar (English) |
“Occupational therapy” AND (assessment OR evaluation OR measure) AND (tool OR test OR questionnaire) AND (infant OR toddler OR child OR adolescent) AND (Translation OR Validity OR reliability OR adaptation OR psychometric) AND (Iran OR Farsi OR Persian) |
Different databases through Google Scholar (Persian) |
Due to the limitations of Google Scholar especially when searching with Persian words we used the Persian equivalence of “occupational therapy”, combined with validity, reliability, assessment, questionnaire, tool, test, and translation. |
SID and Magiran |
Due to the simplicity of these databases, we used simple search strings including these databases, which included the Persian equivalence of “occupational therapy”, validity, and reliability. |
Additionally, to ensure comprehensive coverage and identify any additional relevant studies that might not have been indexed in the initial databases, Google Scholar was utilized as a supplementary resource. However, due to its distinct limitations, such as the lack of a precise algorithm for systematic searches, which have been mentioned in several studies, the search was conducted using a simplified search string. The results were handled separately to ensure the rigor and replicability of our search strategy. This strategy was adopted to mitigate the limitations of Google Scholar while still leveraging its capacity to access a wide array of scholarly documents. 16 , 17 Furthermore, the references of the included articles were cross-checked to identify any potentially relevant articles.
Study Selection and Eligibility
Two independent reviewers (AJ and FD) screened the identified records against predefined inclusion and exclusion criteria. Inclusion criteria included: (a) peer-reviewed articles, (b) articles in Persian or English language, (c) children or adolescent participants between the ages of 0-18 years old, (d) instruments created or validated by occupational therapists or multidisciplinary team members (e) studies conducted on Iranian children and adolescents in the Iranian context. On the other hand, the exclusion criteria were (a) studies not directly related to the development, adaptation, or validation of assessment tools and (b) studies for which the full text was unavailable. Any disagreements were resolved through discussion and consensus between reviewers and the first author (EJ).
Data Extraction
Two reviewers extracted details and descriptive information from each study (AJ and FD). The extracted information from each article included the author’s name, publication year, sample characteristics, the domain of assessment, and raters for the instruments. A third reviewer (EJ) periodically verified the extracted data to validate the consistency and accuracy of the documented information.
Methodological Quality Evaluation
The methodological quality of the included studies was evaluated using the COnsensus-based Standards for the selection of health Measurement INstruments (COSMIN) Risk of Bias Checklist. This reliable assessment was used to assess and categorize the quality of the methodology used in a study to measure each instrument’s property, including internal consistency, reliability, content validity, structural validity, criterion validity, hypothesis testing, responsiveness, cross-cultural validity, and measurement errors. The classification had four levels: very good, adequate, doubtful, and inadequate. 18 The first author (EJ) performed the risk of bias assessment for the included studies, and the other author (HM) double-checked the results to ensure accuracy.
Measurement Properties Quality Evaluation
The psychometric properties quality was assessed using the COSMIN quality criteria for each study. This criterion assessed each psychometric property individually and assigned ratings accordingly. When the statistical psychometric indexes met COSMIN’s criteria, they were rated as sufficient (+); otherwise, they were rated as insufficient (-). When the necessary information about psychometric indices and procedures was not provided, an indeterminate (?) rating was assigned. 19 For example, when assessing reliability, a quality criterion was met if the reported intraclass correlation coefficient or weighted Kappa was greater than 0.70. 20 The first author (EJ) assessed the measurement properties for all the included studies, and another author (HM) cross-checked the ratings.
Quality of Evidence Rating
The Grading of Recommendations Assessment, Development, and Evaluation (GRADE) approach was used to evaluate the evidence quality for each instrument. 21 This method, which is recommended by COSMIN, involves four parameters for evidence grading. These parameters include (a) Risk of bias in the study design (e.g., weak methodology), (b) The result’s indirectness (e.g., if they do not pertain to the target population), (c) The inconsistency of the results, and (d) The imprecision of the evidence (e.g. if the total sample size is less than 50). The overall evidence quality was rated on a four-point scale: high, moderate, low, and very low. For the cases classified as indeterminate based on the COSMIN quality criteria for good psychometric properties, it was impossible to assess the evidence quality using the GRADE approach. 20
Results
Search Results
During the search process, 165 studies were identified. After eliminating duplicates and screening titles/abstracts, 52 potentially eligible studies were identified. Then, 24 studies were excluded because the participants were not children or adolescents, and also they were not conducted in Iran. Additionally, 35 relevant and eligible articles retrieved from Google Scholar were included. Moreover, three articles were found by reviewing the references of the selected publications. Finally, 66 publications were included in the final analysis (figure 1).
Characteristics of Occupational Therapy Assessment Tools for Children and Adolescents
A total of 51 tools related to occupational therapy assessments for children and adolescents were identified within the 66 publications. Among these, 84% were developed in other countries and validated in Persian, and 16% were designed specifically for the Iranian context. These studies were published between 2010 and 2021 (figure 2). Assessment tools predominantly targeted typically developing (TD) children and children with CP (70.7%). Moreover, the findings of the present study indicated a scarcity of instruments for assessing adolescents (n=5) and infants (n=1) in Iran. Tables 2 and 3 provide further information about the included studies and instruments.
Frequency of occupational therapy assessment tools for different diagnosesa | N (%) |
---|---|
Typically developing children | 21 (38) |
CP | 18 (32.7) |
CP and other NMDs | 2 (3.64) |
Non-NMDs Physical disabilitiesb | 2 (3.64) |
Down syndrome | 1 (1.82) |
ADHD | 3 (5.45) |
ASD | 2 (3.64) |
LD | 3 (5.45) |
MR | 2 (3.64) |
Otherc | 1 (1.82) |
Frequency of occupational therapy assessment tools across different agesd | N (%) |
Infants | 1 (1.78) |
Children | 50 (89.28) |
Adolescents | 5 (8.93) |
CP: Cerebral palsy; NMDs: neuromuscular disorders; ADHD: Attention deficit hyperactivity disorder; ASD: Autism spectrum disorder; LD: Learning disabilities; MR: Mental retardation; aSome instruments were validated in multiple populations; for example, SFA was validated in children with CP and TD children, so the sum of the instruments is more than 51. bVisual impairments, cystic fibrosis; cEmotional/behavioral symptoms; dSome instruments were validated at multiple ages; so, the sum of the instruments is more than 51 |
Author/ Year of publication | Name of the Tool | Domain of assessment | Participants | Rater | Age | Number of participants | |
---|---|---|---|---|---|---|---|
Test | Retest | ||||||
Thaqi 2016 22 | Behavior Rating Inventory of Executive Function (BRIEF) | Executive functions | Children with ADHD | Parents | 6-11 years | 40 | 40 |
Abdollahipour 2016 23 | Behavior Rating Inventory of Executive Function- Preschool Version (BRIEF-P) | Executive functions | TD children | Parents | 2-5 years | 20 | - |
Yazdani 2015 24 | Selective Visual Attention Test (SeVAT) | Attention | TD children | Specialists | 7 years | 60 | 60 |
Zahediannasb 2016 25 | Sustained Visual Attention Test (SuVAT) | Attention | TD children | Specialists | 4-6 years | 54 | 38 |
Fathi 2017 26 | Test of Everyday Attention for Children (TEACh) | Attention | TD children | Specialists | 8-11 years | 96 | 18 |
Estaki 2021 27 | Child Sensory Profile 2 (CSP2) | Sensory processing | Children with dyslexia | Parents | 6-12 years | 200 | - |
Mirzakhani 2021 28 | Child Sensory Profile 2 (CSP2) | Sensory processing | TD children and children with ASD and LD | Parents | 3-14 years | 120 | - |
Shahbazi 2021 29 | Child Sensory Profile 2 (CSP2) | Sensory processing | TD children | Parents | 0-14 years | 1272 | 213 |
Movallali 2017 30 | Sensory Profile-School Companion (SPSC) | Sensory processing | TD children | Teachers | 4-11 years | 384 | - |
Hatami 2015 31 | Sensory Over-Responsivity Inventory (SensOR) | Sensory processing | Children with ADHD | Parents | 6-11 years | 48 | 21 |
Derakhshanrad 2011 32 | Peabody Developmental Motor Scales (PDMS) | Gross and fine motor skills | TD children | Specialists | 60-71 months | 150 | 150 |
Soltanikhadiv 2014 33 | Bruininks Oseretsky Test of Motor Proficiency (BOTMP) | Gross and fine motor skills | Children with ID | Specialists | 54-83 months | 60 | - |
Gharaei 2019 34 | Bruininks Oseretsky Test of Motor Proficiency, Second Edition-Brief Form (BOT-2 BF) | Gross and fine motor skills | TD children | Specialists | 4-7 years | 306 | 50 |
Ghasemifard 2020 35 | Test of Gross Motor Development (TGMD-2) | Gross and fine motor skills | Children with visual impairments | Specialists | 7-10 years | 50 | 50 |
Riyahi 2013 36 | Manual Ability Classification System (MACS) | Hand function | Children with CP | Parents, Specialists | 4-18 years | 100 | 100 |
Riyahi 2012 37 | Manual Ability Classification System (MACS) | Hand function | Children with CP | Parents, Specialists | 4-18 years | 100 | - |
Meimandi 2020 38 | Coin Rotation Task (CRT) | Hand function | TD children, Children with LD | Specialists | 8-10 years | 120 | 120 |
Havaei 2012 39 | Purdue-Pegboard | Hand function | Children with developmental dysgraphia | Specialists | 8-11 years | 23 | 23 |
Rafiee 2011 40 | Purdue-Pegboard | Hand function | Children with down syndrome | Specialists | 7-14 years | 24 | 24 |
Sharifi 2014 41 | Jebsen-Taylor Hand Function Test | Hand function | Children with CP | Specialists | 8-12 years | 33 | 33 |
Havaei 2017 42 | Persian Handwriting Assessment Tool (PHAT) | Handwriting | TD children | Specialists | 8-10 years | 339 | - |
Meimandi 2020 43 | Persian Handwriting Assessment Tool (PHAT) | Handwriting | TD children | Specialists | 8-10 years | 452 | 30 |
Havaei 2018 44 | Persian Handwriting Assessment Tool (PHAT) | Handwriting | TD children | Specialists | 8-10 years | 208 | - |
Mirzakhani 2015 45 | Iranian Children Handwriting Speed Test (I-CHST) | Handwriting | TD children | Specialists | 8-12 years | 400 | - |
Joveini 2014 46 | Spinal Alignment and Range of Motion Measure (SAROMM) | Gross motor function | Children and adolescents with CP | Specialists | 5-15 years | 27 | - |
Salehi 2015 47 | Gross Motor Function Measure-88 (GMFM-88) | Gross motor function | Children with CP | Specialists | 3-10 years | 50 | - |
Riahi 2013 48 | Gross Motor Function Classification System (GMFCS) | Gross motor function | Children with CP | Parents | 2-12 years | 90 | 90 |
Kalantari 2016 49 | Pediatric Balance Scale (PBS) | Gross motor function | Children with CP | Specialists | 4-10 years | - | - |
Alimi 2019 50 | Pediatric Balance Scale (PBS) | Gross motor function | Children with CP | Specialists | 4-10 years | 50 | 50 |
Hadian 2007 51 | Berg Balance Scale (BBS) | Gross motor function | Children with CP | Specialists | 6-12 years | 20 | - |
Gharib 2010 52 | Quality of Upper Extremity Skill Test (QUEST) | Upper limb function | Children with CP | Specialists | 19-95 months | 20 | 18 |
Akbar-fahimi 2012 53 | Quality of Upper Extremity Skill Test (QUEST) | Upper limb function | Children with CP | Specialists | 19-95 months | 50 | 46 |
Soltaninejad 2021 45 | Activities of Daily Living of Iranian Children Scale (ADLIC) | ADL | TD children | Parents | 3-6 years | 60 | - |
Soltaninejad 2021 55 | Activities of Daily Living of Iranian Children Scale (ADLIC) | ADL | TD children | Parents | 3-6 years | 470 | 37 |
Riyahi 2019 56 | Eating and Drinking Ability Classification System (EDACS) | ADL | Children with CP | Parents, Specialists | 3-20 years | 130 | 130 |
Dabiri 2017 57 | Child Initiated Pretend Play Assessment (ChIPPA) | Play | TD children | Specialists | 4-6 years | 31 | 31 |
Mirzakhani 2016 58 | Child Initiated Pretend Play Assessment (ChIPPA) | Play | TD children | Specialists | 4-7 years | - | - |
Dehghan 2011 59 | Activities Scale for Kids (ASK) | Occupational performance | Children with CP | Children | 5-15 years | 73 | 20 |
Daftari 2020 60 | Canadian Occupational Performance Measure (COPM) | Occupational performance | Children with cystic fibrosis | Parents | 2.5-13 years | 21 | 21 |
Moradi 2014 61 | Pediatric Evaluation of Disability Inventory (PEDI) | Occupational performance | Children with CP | - | 6 months – 7.5 years | - | - |
Sattari 2015 62 | Child Occupational Self-Assessment (COSA) | Occupational performance | Children with ADHD | Children | 8-11 years | 128 | - |
Sattari 2019 63 | Child Occupational Self-Assessment (COSA) | Occupational performance | Children with ADHD | Children | 7.5-11 years | 250 | - |
Shojaee 2017 64 | School Function Assessment (SFA) | School-related skills | TD children | Teachers | 6-12 years | 20 | - |
Rahimzadegan 2018 65 | School Function Assessment (SFA) | School-related skills | Children with CP | Teachers | 6-12 years | 80 | 30 |
Amiri 2020 66 | School Function Assessment (SFA) | School-related skills | Children with CP | Teachers | 7-12 years | 120 | 40 |
Kouhbanani 2018 67 | School Function Assessment (SFA) | School-related skills | TD children | Specialists | 6-12 years | 150 | 150 |
Nobahar Ahari 2018 68 | School Interim Competency of Performance Skill Battery Scale (SICPSBS) | School-related skills | TD children | Parents, Specialists | 5-7 years | 500 | - |
Amirian 2015 69 | Children’s Assessment of Participation and Enjoyment (CAPE) | Participation | Children with physical and mental disabilities | Children | 7-17 years | 164 | 20 |
Mortazavi 2014 70 | Life Habits Questionnaire (Life-H) | Participation | Children with CP | Parents | 5-13 years | 101 | 22 |
Amini 2016 71 | Children Participation Questionnaire (CPQ) | Participation | TD children | Parents | 4-6 years | 50 | - |
Amini 2017 72 | Iranian-Children Participation Questionnaire (I-CPQ) | Participation | Children with CP | Parents | 4-6 years | 120 | 50 |
Amini 2019 73 | Children Participation Assessment Scale in Activities Outside of School–Parent Version (CPAS-P) | Participation | Children with PDs | Parents | 6-12 years | 304 | 32 |
Amini 2017 74 | Children Participation Assessment Scale in Activities Outside of School–Parent Version (CPAS-P) | Participation | TD children | Parents | 6-12 years | 700 | 31 |
Rostamzadeh 2021 75 | Children Participation Assessment Scale-Child version (CPAS-C) | Participation | Children with PDs | Children | 6-12 years | 100 | 40 |
Amini 2016 76 | Iranian Children’s Participation Assessment Scale (I-CPAS) | Participation | TD children | Children, Parents | 6-17 years | 40 | - |
Nobakht 2011 77 | Craig Hospital Inventory of Environmental Factors (CHIEF) | Environment | Children with CP | Parents | 5-12 years | 75 | 20 |
Salavati 2018 78 | European Child Environment Questionnaire (ECEQ) | Environment | Children and adolescents with CP | Parents | 7-18 years | 332 | 51 |
Kavousipor 2019 79 | Affordance in the Home Environment for Motor Development (AHEMD) | Environment | TD children | Parents | 3-42 months | 212 | 83 |
Ghanadzadeh 2016 80 | Questionnaire to assess educational needs and intervention priorities in parents of children with ASD (QAENIP) | ASD Education and Intervention Priorities | Children with ASD | Parents | -NM | 10 | - |
Azari 2017 81 | Bayley Scales of Infant and Toddler Development | Cognitive, communication, and motor development | TD infants and children | Specialists | 1-42 months | 403 | 45 |
Soleimani 2015 82 | Cerebral Palsy Quality of Life Questionnaire (CP-QOL) | Quality of life | Children with CP | Children, Parents | 4-12 years | 240 | 20 |
Yarmohammadi 2018 83 | Cerebral Palsy Quality of Life Questionnaire-Teen (CP QOL-Teen) | Quality of life | Adolescents with CP | Parents | 13-18 years | 82 | - |
Salavati 2018 84 | Dimensions of Mastery Questionnaire (DMQ18) | Motivation | Children with CP | Parents | 126.99±24.59 months | 230 | 32 |
Hojati abed 2019 85 | Self-Determination Student Scale (SDSS) | Self-determination | Adolescents with/without emotional/behavioral symptoms | Adolescents | 14-18 years | 498 | 16 |
Hojati Abed 2020 86 | Self-Determination Parent Perception Scale (SDPPS) | Self-determination | TD adolescents | Parents | 14-18 years | 125 | 17 |
Farahbod 2013 87 | Physical Well-Being, Health and Motor Development Inventory (PWHMDI) | Physical health and motor development | Children with MR, TD children | Specialists | 7 years | 200 | - |
CP: Cerebral palsy; ADHD: Attention deficit hyperactivity disorder; TD: Typically developing children; ASD: Autism spectrum disorder; LD: Learning disorder; ID: Intellectual disability; PDs: Physical disabilities; MR: mental retardation; ADL: Activities of daily living; NM: Not mentioned |
Most assessment tools (n=24, 47.06%) were dedicated to assessing body functions, including sensory, motor, and mental functions. Among these tools, most of them (37.25%, n=19) specifically targeted the assessment of sensory-motor functions. Additionally, a smaller subset of tools (9.80%, n=5) were designed to assess mental functions, particularly executive function and attention. Furthermore, the study identified nine assessment tools (17.65%) that were specifically designed for evaluating occupations in children. Among these instruments, four tools were comprehensive, assessing various areas of occupation in children. The remaining tools were tailored to assess specific occupations, including ADL (two tools), play occupation (one tool), and occupation of education (two tools). Moreover, some assessment tools (n=7, 13.72%) were designed to evaluate participation. Additionally, a small percentage of the assessment tools (n=3, 5.88%) focused on assessment of environments. Other assessment tools addressed domains such as quality of life (n=2), motivation (n=1), self-determination (n=2), and overall development (n=2).
Quality of the Included Studies
Table 4 presents the methodological quality of each study based on the COSMIN Risk of Bias Checklist, as well as the quality of measurement properties based on the COSMIN quality criteria. Reliability was assessed most frequently across all studies (46/66), while content validity was assessed in over half of the studies (36/66). Additionally, several studies assessed internal consistency (32/66), structural validity (14/66), and hypothesis testing (20/66). Only four studies reported psychometric data on criterion validity, and two studies reported psychometric data on responsiveness. No information was found on measurement error and cross-cultural validity in any study. Therefore, these indices were removed from the table.
Instrument | Population | Internal consistency | Reliability | Content validity | Structural validity | Criterion Validity | Hypothesis testing | Respon siveness | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MQ | RQ | MQ | RQ | MQ | RQ | MQ | RQ | MQ | RQ | MQ | RQ | MQ | RQ | ||
BRIEF 22 | ADHD | D | ? | V | + | I | - | N | NR | N | NR | N | NR | N | NR |
BRIEF-P 23 | TD | N | NR | N | NR | I | ? | N | NR | N | NR | N | NR | N | NR |
SeVAT 24 | TD | V | + | I | + | V | + | N | NR | N | NR | N | NR | N | NR |
SuVAT 25 | TD | D | ? | I | + | V | + | N | NR | N | NR | A | + | N | NR |
TEA-CH 26 | TD | N | NR | V | ? | I | ? | N | NR | A | ? | N | NR | N | NR |
Sensory profile-2 27 - 29 | Dyslexia | V | ? | D | + | V | + | N | NR | N | NR | N | NR | N | NR |
TD, ASD, LD | V | ? | N | NR | N | NR | V | ? | N | NR | V | + | N | NR | |
TD | V | ? | N | NR | N | NR | N | NR | N | NR | N | NR | N | NR | |
SPSC 30 | TD | V | + | N | NR | I | ? | V | ? | N | NR | N | NR | N | NR |
SensOR 31 | ADHD | V | ? | V | ? | I | ? | N | NR | N | NR | N | NR | N | NR |
PDMS 32 | TD | N | NR | I | + | N | NR | N | NR | N | NR | N | NR | N | NR |
BOTMP 33 | ID | N | NR | N | NR | N | NR | N | NR | N | NR | V | + | N | NR |
BOT-2 BF 34 | TD | N | NR | V | + | N | NR | N | NR | N | NR | A | + | A | + |
TGMD-2 35 | VI | V | + | I | + | N | NR | N | NR | N | NR | V | + | N | NR |
MACS 36 , 37 | CP | N | NR | D | + | I | ? | N | NR | N | NR | V | + | N | NR |
CP | N | NR | D | + | N | NR | N | NR | N | NR | N | NR | N | NR | |
CRT 38 | TD, LD | N | NR | V | + | N | NR | N | NR | N | NR | V | + | V | + |
Purdue-pegboard 39 , 40 | Dysgraphia | N | NR | I | + | N | NR | N | NR | I | ? | N | NR | N | NR |
Down syndrome | N | NR | I | + | N | NR | N | NR | I | ? | N | NR | N | NR | |
Jebsen taylor 41 | CP | N | NR | D | + | N | NR | N | NR | N | NR | N | NR | N | NR |
PHAT 42 - 44 | TD | N | NR | N | NR | I | ? | V | ? | N | NR | N | NR | N | NR |
TD | V | + | V | + | N | NR | V | ? | V | + | N | NR | N | NR | |
TD | V | + | V | + | N | NR | N | NR | N | NR | N | NR | N | NR | |
ICHST 45 | TD | N | NR | N | NR | N | NR | N | NR | N | NR | I | - | N | NR |
SAROMM 46 | CP | N | NR | D | + | N | NR | N | NR | N | NR | A | - | N | NR |
GMFM-88 47 | CP | V | + | D | + | N | NR | N | NR | N | NR | N | NR | N | NR |
GMFCS 48 | CP | N | NR | D | + | I | ? | N | NR | N | NR | N | NR | N | NR |
PBS 49 , 50 | CP | N | NR | N | NR | D | + | N | NR | N | NR | N | NR | N | NR |
CP | N | NR | V | + | N | NR | N | NR | N | NR | N | NR | N | NR | |
Berg Balance Scale 51 | CP | N | NR | D | + | N | NR | N | NR | N | NR | N | NR | N | NR |
QUEST 52 , 53 | CP | N | NR | D | + | N | NR | N | NR | N | NR | N | NR | N | NR |
CP | N | NR | D | ? | N | NR | N | NR | N | NR | N | NR | N | NR | |
ADLIC 54 , 55 | TD | N | NR | N | NR | V | + | N | NR | N | NR | N | NR | N | NR |
TD | V | ? | V | + | N | NR | I | ? | N | NR | A | + | N | NR | |
EDACS 56 56 | CP | N | NR | D | + | I | ? | N | NR | N | NR | N | NR | N | NR |
CHIPPA 57 , 58 | TD | N | NR | D | ? | I | ? | N | NR | N | NR | N | NR | N | NR |
TD | N | NR | N | NR | D | ? | N | NR | N | NR | N | NR | N | NR | |
ASK 59 | CP | D | ? | V | + | A | ? | N | NR | N | NR | V | + | N | NR |
COPM 60 | Cystic fibrosis | N | NR | D | + | N | NR | N | NR | N | NR | N | NR | N | NR |
PEDI 61 | CP | N | NR | N | NR | I | ? | N | NR | N | NR | N | NR | N | NR |
COSA 62 , 63 | ADHD | N | NR | N | NR | I | - | I | - | N | NR | N | NR | N | NR |
ADHD | N | NR | N | NR | N | NR | N | NR | N | NR | A | ? | N | NR | |
SFA 64 - 67 | TD | N | NR | N | NR | I | ? | N | NR | N | NR | N | NR | N | NR |
TD | V | + | V | + | N | NR | N | NR | N | NR | N | NR | N | NR | |
CP | V | + | V | + | D | ? | N | NR | N | NR | N | NR | N | NR | |
CP | V | + | D | + | D | + | N | NR | N | NR | N | NR | N | NR | |
SICPSBS 87 | TD | N | NR | N | NR | V | + | V | + | N | NR | N | NR | N | NR |
CAPE | PD, MD | D | ? | V | + | D | ? | N | NR | N | NR | N | NR | N | NR |
Life-H 70 | CP | N | NR | V | + | V | + | N | NR | N | NR | N | NR | N | NR |
CPQ 71 | TD | N | NR | N | NR | V | + | N | NR | N | NR | V | ? | N | NR |
I-CPQ 72 | CP | V | ? | V | + | N | NR | V | + | N | NR | V | + | N | NR |
CPAS-P 73 , 74 | PD | V | + | V | + | N | NR | V | ? | N | NR | V | + | N | NR |
TD | V | + | V | + | N | NR | V | + | N | NR | N | NR | N | NR | |
CPAS-C 75 | PD | V | ? | V | ? | N | NR | N | NR | N | NR | A | + | N | NR |
I-CPAS 76 | TD | N | NR | N | NR | V | ? | N | NR | N | NR | N | NR | N | NR |
CHIEF 77 | CP | D | ? | V | + | I | ? | N | NR | N | NR | A | + | N | NR |
ECEQ 78 | CP | V | + | V | + | I | ? | V | - | N | NR | N | NR | N | NR |
AHEMD 79 | TD | D | ? | V | + | V | + | N | NR | N | NR | A | + | N | NR |
QAENIP 80 | ASD | N | NR | N | NR | V | + | N | NR | N | NR | N | NR | N | NR |
Bayley 81 | TD | V | + | D | + | I | - | N | NR | N | NR | N | NR | N | NR |
CP-QOL 82 | CP | V | ? | A | ? | I | - | I | ? | N | NR | A | ? | N | NR |
CP-QOL Teen 83 | CP | V | + | N | NR | I | ? | N | NR | N | NR | A | + | N | NR |
DMQ-18 84 | CP | V | ? | V | + | N | NR | V | ? | N | NR | N | NR | N | NR |
SDSS 85 | EB symptoms | V | ? | V | + | V | + | N | NR | N | NR | N | NR | N | NR |
SDPPS 86 | TD | V | ? | A | + | V | + | I | ? | N | NR | N | NR | N | NR |
PWHMDI 87 | TD, MR | D | ? | N | NR | N | NR | N | NR | N | NR | N | NR | N | NR |
The methodological quality was rated using the COSMIN Risk of Bias checklist: 4=very good (V), 3=adequate (A), 2=doubtful (D), and 1=inadequate (I). Measurement property rating: sufficient (+), insufficient (−), inconsistent (±), indeterminate (?). MQ: Methodological quality; RQ: Results quality; N: Not reported; NR: Not rated (due to no psychometric data reported); CP: Cerebral palsy; ADHD: Attention deficit hyperactivity disorder; TD: Typically developing children; ASD: Autism spectrum disorder; LD: Learning disorder; VI: Visual impairments; ID: Intellectual disability; PDs: Physical disabilities; MD: Mental disabilities; EB symptoms: Emotional behavioral symptoms; MR: Mental retardation; SAROMM: Spinal Alignment and Range of Motion Measure; BRIEF: Behavior rating inventory of executive function; BRIEF-P: Behavior rating inventory of executive function- Preschool Version; SeVAT: Selective visual attention test; SuVAT: Sustained visual attention test; TEA-CH: Test of everyday attention for children; CSP-2: Child sensory profile-2; SPSC: Sensory profile-school companion; SensOR: Sensory over-responsivity inventory; TVMS-R: Test of visual motor skills_revised; PDMS: Peabody developmental motor scales; BOTMP: Bruininks oseretsky test of motor proficiency; BOT-2 BF: Bruininks oseretsky test of motor proficiency, Second Edition-Brief Form; MACS: Manual ability classification system; QUEST: Quality of upper extremity skill test; CRT: Coin rotation task; TGMD-2: Test of gross motor development-2; SICPSBS: School interim competency of performance skill battery scale; Bayley: Bayley scales of infant and toddler development; PHAT: Persian handwriting assessment tool; ICHST: Iranian children handwriting speed test; GMFM-88: Gross motor function measure-88; GMFCS: Gross motor function classification system; PBS: Pediatric balance scale; BBS: Berg balance scale; Jebsen taylor: Jebsen-Taylor Hand Function Test; ADLIC: Activities of daily living of Iranian children scale; EDACS: Eating and drinking ability classification system; CHIPPA: Child initiated pretend play assessment; CAPE: Children’s assessment of participation and enjoyment; ASK: Activities scale for kids; COPM: Canadian occupational performance measure; SFA: School function assessment; COSA: Child occupational self-assessment; PEDI: Pediatric evaluation of disability inventory; Life-H: Life habits questionnaire; CPQ: Children participation questionnaire; I-CPQ: Iranian children participation questionnaire; CPAS-P: Children participation assessment scale in activities outside of school–parent version; CPAS-C: Children participation assessment scale-child version; I-CPAS: Iranian children’s participation assessment scale; CP-QOL: Cerebral palsy quality of life questionnaire; CP-QOL Teen: Cerebral palsy quality of life questionnaire-teen; SDSS: Self-determination student scale; SDPPS: Self-determination parent perception scale; CHIEF: Craig hospital inventory of environmental factors; ECEQ: European child environment questionnaire; AHEMD: Affordance in the home environment for motor development; DMQ18: Dimensions of mastery questionnaire; QAENIP: Questionnaire to assess educational needs and intervention priorities in parents of children with ASD; PWHMDI: Physical well-being, health and motor development inventory. |
Out of all the studies that measured internal consistency, only 12 studies (37.5%) were conducted with a proper methodology and provided accurate results. Other studies carried a significant risk of bias in methodology or not reporting their findings accurately. Of the studies that measured reliability, content validity, structural validity, criterion validity, hypothesis testing, and responsiveness, 41.3% (n=19), 33.3% (n=12), 21.4% (n=3), 25% (n=1), 85% (n=17), and 100% (n=2), respectively, had a proper methodology and results reporting.
Quality of Evidence for Measurement Tools
Table 5 provides an overview of the evidence quality for each measurement tool using the GRADE approach. Only 10 tools (19.61%) indicated high or moderate internal consistency. However, 16 (31.37%) were categorized as “not rated” (NR), due to improper reporting of results, which made it impossible to determine the quality of evidence for them based on the COSMIN checklist. Furthermore, the remaining tools (n=25, 49.02%) lacked evidence of internal consistency. The quality of evidence for the remaining aspects were as follows: reliability (high/moderate: 34 tools [66.67%], NR: 6 tools [11.76%], no evidence: 10 tools [19.61%]), content validity (high/moderate: 16 tools [31.37%], NR: 16 tools [31.37%], no evidence: 18 tools [35.29%]), structural validity (high/moderate: 5 tools [9.80%], NR: 8 tools [15.69%], no evidence: 38 tools [74.51%]), criterion validity (high/moderate: 1 tool [1.96%], NR: 2 tools [3.92%], no evidence: 48 tools [94.12%]), hypothesis testing (high/moderate: 17 tools [33.33%]; NR: 3 tools [5.88%], no evidence: 31 tools [60.78%]), and responsiveness (high/moderate: 2 tools [3.92%], no evidence: 49 tools [96.08%]).
Instrument | Population | Internal consistency | Reliability | Content validity | Structural validity | Criterion validity | Hypothesis testing | Respon siveness |
---|---|---|---|---|---|---|---|---|
BRIEF 22 | ADHD | NR | M | L | ||||
BRIEF-P 23 | TD | NR | ||||||
SeVAT 24 | TD | M | M | M | ||||
SuVAT 25 | TD | NR | M | M | M | |||
TEA-CH 26 | TD | NR | NR | NR | ||||
Sensory profile-2 27 - 29 | Dyslexia | NR | M | H | ||||
TD, ASD, LD | NR | NR | H | |||||
TD | NR | |||||||
SPSC 30 | TD | H | NR | NR | ||||
SensOR 31 | ADHD | NR | NR | NR | ||||
PDMS 32 | TD | M | ||||||
BOTMP 33 | ID | M | ||||||
BOT-2 BF 34 | TD | H | H | H | ||||
TGMD-2 35 | VI | M | M | M | ||||
MACS 36 , 37 | CP | M | NR | H | ||||
CRT 38 | TD, LD | H | H | H | ||||
Purdue pegboard 39 , 40 | Dysgraphia | L | NR | |||||
Down syndrome | L | NR | ||||||
Jebsen Taylor 41 | CP | M | ||||||
PHAT 42 - 44 | TD | H | H | NR | NR | H | ||
ICHST 45 | TD | M | ||||||
SAROMM 46 | CP | M | M | |||||
GMFM-88 47 | CP | M | M | |||||
GMFCS 48 | CP | M | NR | |||||
PBS 49 , 50 | CP | M | M | |||||
Berg Balance Scale 51 | CP | M | ||||||
QUEST 52 , 53 | CP | NR | ||||||
ADLIC 52 - 55 52-55 | TD | NR | H | H | NR | H | ||
EDACS 56 | CP | M | M | |||||
CHIPPA 57 , 58 | TD | NR | NR | |||||
ASK 59 | CP | NR | M | NR | M | |||
COPM 60 | Cystic fibrosis | M | ||||||
PEDI 61 | CP | NR | ||||||
COSA 62 , 63 | ADHD | M | M | NR | ||||
SFA 64 , 67 | TD | H | H | NR | ||||
CP | H | M | NR | |||||
SICPSBS 68 | TD | H | H | |||||
CAPE 69 | PD, MD | NR | H | NR | ||||
Life-H 70 | CP | H | H | |||||
CPQ 71 | TD | H | NR | |||||
I-CPQ 72 | CP | NR | H | H | H | |||
CPAS-P 73 , 74 | PD | H | H | NR | H | |||
TD | H | H | H | |||||
CPAS-C 75 | PD | NR | NR | H | ||||
I-CPAS 76 | TD | NR | ||||||
CHIEF 77 | CP | NR | M | NR | M | |||
ECEQ 78 | CP | H | H | NR | M | |||
AHEMD 79 | TD | NR | H | H | H | |||
QAENIP 80 | ASD | M | ||||||
Bayley 81 | TD | H | M | M | ||||
CP-QOL 82 | CP | NR | NR | M | NR | NR | ||
CP-QOL Teen 83 | CP | M | NR | M | ||||
DMQ-18 84 | CP | NR | H | NR | ||||
SDSS 85 | EB symptoms | NR | H | H | ||||
SDPPS 86 | TD | NR | H | H | NR | |||
PWHMDI 87 | TD, MR | NR | ||||||
The quality of evidence was rated using the GRADE approach: High (H), Moderate (M), Low (L), Very low (VL). NR: Not rated (rating evidence is not possible since quality criteria of measurement properties were indeterminate). CP: Cerebral palsy; ADHD: Attention deficit hyperactivity disorder; TD: Typically developing children; ASD: Autism spectrum disorder; LD: Learning disorder; VI: Visual impairments; ID: Intellectual disability; PDs: Physical disabilities; MD: Mental disabilities; EB symptoms: Emotional behavioral symptoms; MR: Mental retardation; SAROMM: Spinal Alignment and Range of Motion Measure; BRIEF: Behavior rating inventory of executive function; BRIEF-P: Behavior rating inventory of executive function-preschool version; SeVAT: Selective visual attention test; SuVAT: sustained visual attention test; TEA-CH: Test of everyday attention for children; CSP-2: Child sensory profile-2; SPSC: Sensory profile-school companion; SensOR: Sensory over-responsivity inventory; TVMS-R: Test of visual motor skills-Revised; PDMS:Peabody developmental motor scales; BOTM: Bruininks oseretsky test of motor proficiency; BOT-2 BF: Bruininks oseretsky test of motor proficiency, second edition-Brief Form; MACS: Manual ability classification system; QUEST: Quality of upper extremity skill test; CRT: Coin rotation task; TGMD-2: Test of gross motor development-2; SICPSBS: School interim competency of performance skill battery scale; Bayley: Bayley scales of infant and toddler development; PHAT: Persian handwriting assessment tool; ICHST: Iranian children handwriting speed test; GMFM-88: Gross motor function measure-88; GMFCS: Gross motor function classification system; PBS: Pediatric balance scale; BBS: Berg balance scale; Jebsen taylor: Jebsen-Taylor Hand Function Test; ADLIC: Activities of daily living of Iranian children scale; EDACS, Eating and drinking ability classification system; CHIPPA: Child initiated pretend play assessment; CAPE: Children’s assessment of participation and enjoyment; ASK: Activities scale for kids; COPM: Canadian occupational performance measure; SFA: School function assessment; COSA: Child occupational self-assessment; PEDI: Pediatric evaluation of disability inventory; Life-H: Life habits questionnaire; CPQ: Children participation questionnaire; I-CPQ: Iranian children participation questionnaire; CPAS-P: Children participation assessment scale in activities outside of school–Parent version; CPAS-C: Children participation assessment scale-child version; I-CPAS, Iranian children’s participation assessment scale; CP-QOL: Cerebral palsy quality of life questionnaire; CP-QOL-Teen: Cerebral palsy quality of life questionnaire-Teen; SDSS: Self-determination student scale; SDPPS: Self-determination parent perception scale; CHIEF: Craig hospital inventory of environmental factors; ECEQ: European child environment questionnaire; AHEMD: Affordance in the home environment for motor development; DMQ18: Dimensions of mastery questionnaire; QAENIP: Questionnaire to assess educational needs and intervention priorities in parents of children with ASD; PWHMDI: Physical well-being, health and motor development inventory. |
Discussion
This scoping review is the first to investigate the available occupational therapy assessment tools for children and adolescents in Iran. Fifty-one tools were found that were validated in Persian or developed in Iran. Despite the large number of assessment tools, there were significant gaps and possible areas for further development and expansion in the field of assessment tools, especially regarding different diagnoses, age groups, and the domains of evaluating the existing tools.
Assessment tools predominantly target two populations: TD children and children with CP. This focus can be traced back to the historical development of occupational therapy in Iran, which has typically focused on physical disabilities, with a particular concentration on CP. 88 However, occupational therapy in Iran has evolved significantly in recent decades. It has expanded to provide services for children with various neurodevelopmental disorders such as attention-deficit/hyperactivity disorder (ADHD), autism spectrum disorder (ASD), and learning disabilities (LD). 88 The present status of measurement tools development indicates a failure to address the diverse and multifaceted demands of children and adolescents with conditions other than CP and physical disabilities, such as ADHD, ASD, and LD. This highlighted the necessity for a more comprehensive approach to tool development and validation to appropriately address the diverse requirements of all children and adolescents.
In Iran, there are few instruments available for assessing adolescents and infants. This is particularly concerning, given these age groups’ distinct developmental, social, and occupational challenges and needs. The lack of attention paid to assessment tools for adolescents in Iran highlights an urgent need for attention to the specific needs of this population. Fouché and colleagues stated that the results of tests, standardized for children and adults, could not be generalized to adolescents. 89 Moreover, beyond adolescents who have experienced disabilities from birth or were traumatized between childhood and adolescence, it should be noted that adolescence is a sensitive and stressful period associated with an increased vulnerability to mental health disorders. 90 Occupational therapists could play a crucial role in addressing the needs of all these groups. However, any intervention must be based on precise assessments.
Based on the findings of the present study, only one instrument (Bayley Scales of Infant and Toddler Development) was found for infants. This tool can be used for the developmental screening of infants. With the expansion of the occupational therapy profession, therapists are also engaged in the infant stage. The neonatal intensive care unit (NICU) and early intervention programs are the two most important settings where occupational therapists play a role and engage with infants. Consequently, therapists in these fields require reliable, validated assessment tools to help identify and intervene early in developmental delays or disorders. 91 , 92 Developing instruments for infants is an evolving field. In a systematic review, Mobbs and colleagues found only a few (four) measures to evaluate infant and toddler participation. Furthermore, these instruments had unknown to moderate validity and reliability. 93 The scarcity of assessment tools for infants, which is also evident in global contexts, highlights a widespread need and opportunity for advancement in this area.
Regarding the assessment domain, instruments are mainly dedicated to assessing body functions, specifically sensory-motor functions. The mental function has received lower attention, and validated instruments only address executive function and attention. This is not only an issue in Iran, where occupational therapy has traditionally concentrated on physical disabilities, but it has also been observed in other countries. According to Prieto-Botella, the majority of assessment tools used by Spanish occupational therapists were dedicated to process and motor skills. 13 This intense focus on sensory-motor assessment might marginalize other crucial domains, such as mental functions, which are pivotal in comprehensively understanding and addressing children and adolescents’ occupational needs and challenges. 1
Another area of interest in the development of assessment tools for children is assessment of occupations. These tools were primarily designed to assess ADL. Romli and colleagues, in the overview of reviews of standardized occupation-based instruments for use in occupational therapy practice, stated that occupational therapy assessment tools focused on the ADL. 4 These findings were consistent with the findings of the present study in Iran. Therefore, occupational therapists should focus more on other occupational domains with few instruments, such as productivity, play, sleep, and social domains.
Despite the importance of the environment in occupational therapy, only three instruments were found for evaluating it. Among them, the Craig Hospital Inventory of Environmental Factors (CHIEF) addressed all environmental aspects, and the European Child Environment Questionnaire (ECEQ) covered all aspects except product and technology. These two instruments were only validated for children with CP. Measuring the environment with culturally adapted instruments is critical since participation occurs within a context substantially influenced by environmental factors. 94 According to Anaby and colleagues, environmental supports and barriers significantly mediated between the children and adolescents’ personal factors (e.g., health and functional issues) and participation. 95
Accurate measurement is essential in research and clinical practice, as it forms the foundation for reliable and valid data. Using appropriate measurement tools ensures that the collected data is reliable, valid, and reproducible. Hence, assessing the quality of evidence for these measurement tools is critical for researchers and practitioners. The findings of this study demonstrated differences in the quality of evidence for various assessment tools across various domains. While some instruments demonstrated high or moderate evidence quality, others lacked sufficient evidence or had issues in results reporting. These findings highlighted the need for improved methodological rigor and reporting in the field of measurement properties. Brown and Bourke-Taylor argued that although there was a growing interest in developing assessment tools for children and adolescents in occupational therapy, there was still a need for more rigorous methodology and attention to the psychometric properties of these tools. 96 In addition, Cordier and colleagues conducted a review study on child-report measures of occupational performance and found that most measures had limited psychometric quality and emphasized the need to improve the psychometric properties of existing measurement tools. 97 To ensure the reliability and validity of measurement instruments, it is crucial for researchers to adhere to standardized guidelines such as the COSMIN guidelines for study design and reporting. This will enhance the quality and transparency of their research.
The cultural and contextual relevance of assessment tools is critical for providing accurate and meaningful evaluations. While 84% of the identified tools were developed in other countries and validated in Persian, only 16% were designed specifically for the Iranian context. This reflected the challenges faced by countries such as Brazil, where the widespread use of adapted tools has raised concerns regarding cultural and contextual relevance. 12 Although the adaptation of tools from other contexts is valuable, they might not fully reflect the unique cultural, social, and environmental factors pertinent to the Iranian context. Thus, developing indigenous tools based on the Iranian cultural and social nuances is a pivotal area for future research and development.
This scoping review provided valuable insights into the landscape of occupational therapy assessment tools for children and adolescents in Iran; however, it is not without limitations. The exclusive focus on articles published in peer-reviewed journals ensures validity and reliability. However, this might have omitted potentially valuable data and tools documented in other types of literature, such as theses and conference proceedings.
Conclusion
This scoping review highlighted the need for further development and expansion of occupational therapy assessment tools for children and adolescents in Iran. The existing tools predominantly focus on TD children and those with CP, neglecting the diverse needs of individuals with other conditions such as ASD, ADHD, and LD. There is a scarcity of assessment tools for adolescents and infants, as well as limited attention to mental function, other occupational areas, and environmental factors. The quality of evidence for these tools varies, highlighting the need for improved methodological rigor. Additionally, there is a need for culturally and contextually relevant assessment tools that represent unique cultural and social nuances of Iran. Addressing these gaps will enhance the accuracy and effectiveness of occupational therapy practice in Iran.
Acknowledgment
The authors appreciate the helpful feedback and suggestions provided by colleagues at the Department of Occupational Therapy, University of Social Welfare and Rehabilitation Sciences, Tehran, Iran.
Authors’ Contribution
E.J: conceptualized the study and designed the methodological framework, ensuring a robust and comprehensive approach to the literature review, analyzing and interpreting the data, contributing to draft specific sections and ensuring clarity in presenting the findings; H.M: conceptualized the study and designed the methodological framework, ensuring a robust and comprehensive approach to the literature review; reviewed and edited the manuscript and enhancing its accuracy and coherence; A.J and F.D: meticulously executed the search strategy and led the process of data extraction; E.F: creating and refining visual data representations; drafted the initial manuscript. All authors reviewed and approved the final manuscript and agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
Conflict of Interest:
None declared.
References
- American Occupational Therapy Association. Occupational Therapy Practice Framework: Domain and Process-Fourth Edition. Am J Occup Ther. 2020; 74:7412410010p1-p87. DOI | PubMed
- Asaba E, Nakamura M, Asaba A, Kottorp A. Integrating Occupational Therapy Specific Assessments in Practice: Exploring Practitioner Experiences. Occup Ther Int. 2017; 2017:7602805. Publisher Full Text | DOI | PubMed
- Mulligan S. Defining and measuring the occupational performance of children. Journal of Occupational Therapy, Schools, and Early Intervention. 2017; 10:107-20. DOI
- Romli MH, Wan Yunus F, Mackenzie L. Overview of reviews of standardised occupation-based instruments for use in occupational therapy practice. Aust Occup Ther J. 2019; 66:428-45. DOI | PubMed
- Peters C, Chang A, Morales A, Barnes K, Allegretti A. An integrative review of assessments used in occupational therapy interventions for children with cerebral palsy. Cadernos Brasileiros de Terapia Ocupacional. 2019; 27:168-85. DOI
- Lane SJ, Bundy AC. Kids can be kids: A childhood occupations approach. FA Davis: Philadelphia; 2011.
- Manee FS, Nadar MS, Alotaibi NM, Rassafiani M. Cognitive Assessments Used in Occupational Therapy Practice: A Global Perspective. Occup Ther Int. 2020; 2020:8914372. Publisher Full Text | DOI | PubMed
- Mohammed Alotaibi N, Reed K, Shaban Nadar M. Assessments used in occupational therapy practice: an exploratory study. Occup Ther Health Care. 2009; 23:302-18. DOI | PubMed
- Skuthan A, Stav W. Profile of Assessments in Pediatric Occupational Therapy Practice. Am J Occup Ther. 2023; 77DOI | PubMed
- Parker DM, Sykes CH. A systematic review of the Canadian Occupational Performance Measure: a clinical practice perspective. British Journal of Occupational Therapy. 2006; 69:150-60. DOI
- Pashmdarfard M, Azad A. Assessment tools to evaluate Activities of Daily Living (ADL) and Instrumental Activities of Daily Living (IADL) in older adults: A systematic review. Med J Islam Repub Iran. 2020; 34:33. Publisher Full Text | DOI | PubMed
- Mazak MSR, Fernandes ADSA, Lourenço GF, Cid MFB. Assessment tools of occupational therapy for children and adolescents in Brazil: a literature review. Cadernos Brasileiros de Terapia Ocupacional. 2021; 29:e2833. DOI
- Prieto-Botella D, Sanchez-Perez A, Sanchez-Moreno S, Hurtado-Pomares M, Peral-Gomez P, Espinosa-Sempere C, et al. Identification and Use of Assessment Tools in Spanish Occupational Therapists: An Exploratory Study. Healthcare (Basel).. 2022; 10Publisher Full Text | DOI | PubMed
- Munn Z, Peters MDJ, Stern C, Tufanaru C, McArthur A, Aromataris E. Systematic review or scoping review? Guidance for authors when choosing between a systematic or scoping review approach. BMC Med Res Methodol. 2018; 18:143. Publisher Full Text | DOI | PubMed
- Tricco AC, Lillie E, Zarin W, O’Brien KK, Colquhoun H, Levac D, et al. PRISMA Extension for Scoping Reviews (PRISMA-ScR): Checklist and Explanation. Ann Intern Med. 2018; 169:467-73. DOI | PubMed
- Boeker M, Vach W, Motschall E. Google Scholar as replacement for systematic literature searches: good relative recall and precision are not enough. BMC Med Res Methodol. 2013; 13:131. Publisher Full Text | DOI | PubMed
- Gusenbauer M, Haddaway NR. Which academic search systems are suitable for systematic reviews or meta-analyses? Evaluating retrieval qualities of Google Scholar, PubMed, and 26 other resources. Res Synth Methods. 2020; 11:181-217. Publisher Full Text | DOI | PubMed
- Mokkink LB, de Vet HCW, Prinsen CAC, Patrick DL, Alonso J, Bouter LM, et al. COSMIN Risk of Bias checklist for systematic reviews of Patient-Reported Outcome Measures. Qual Life Res. 2018; 27:1171-9. Publisher Full Text | DOI | PubMed
- Mokkink LB, Terwee CB, Patrick DL, Alonso J, Stratford PW, Knol DL, et al. The COSMIN checklist for assessing the methodological quality of studies on measurement properties of health status measurement instruments: an international Delphi study. Qual Life Res. 2010; 19:539-49. Publisher Full Text | DOI | PubMed
- Mokkink LB, Terwee CB, Patrick DL, Alonso J, Stratford PW, Knol DL, et al. COSMIN checklist manual. Amsterdam: University Medical Center. 2012.
- Guyatt GH, Oxman AD, Vist GE, Kunz R, Falck-Ytter Y, Alonso-Coello P, et al. GRADE: an emerging consensus on rating quality of evidence and strength of recommendations. BMJ. 2008; 336:924-6. Publisher Full Text | DOI | PubMed
- Thaqi N, Zarei MA, Mehraban AH, Fahimi MA. Study of face validity and reliability of the Persian-version of Behavior Rating Inventory of Executive Function (BRIEF) in ADHD children. Middle Eastern journal of disability studies. 2016; 6:299-303.
- Abdollahipour F, Alizadeh Zarei M, Akbar Fahimi M, Karamali Esmaeili S. Study of face and content validity of the Persian version of behavior rating inventory of executive function, preschool version. Archives of Rehabilitation. 2016; 17:12-9. DOI
- Yazdani F, Akbarfahimi M, Hassani Mehraban A, Jalaei S, Torabi-Nami M. A computer-based selective visual attention test for first-grade school children: design, development and psychometric properties. Med J Islam Repub Iran. 2015; 29:184. Publisher Full Text | PubMed
- Zahediannasb R, Akbarfahimi M, Keyhani MR. A Computer-Based Sustained Visual Attention Test for Pre-School Children: Design, Development and Psychometric Properties. Journal of Rehabilitation Sciences and Research. 2016; 3:39-44.
- Fathi N, Mehraban AH, Akbarfahimi M, Mirzaie H. Validity and Reliability of the Test of Everyday Attention for Children (TEACh) in Iranian 8-11 year old normal students. Iranian Journal of Psychiatry and Behavioral Sciences. 2017; 11DOI
- Estaki M, Dehghan A, Kojidi EM, Mirzakhany N. Psychometric evaluation of the child sensory profile 2 (CSP2) among children with dyslexia. Iranian Journal of Psychiatry and Behavioral Sciences. 2021; 15DOI
- Mirzakhani N, Rezaee M, Alizadeh Zarei M, Mahmoudi E, Rayegani SM, Shahbazi M, et al. Internal Consistency and Item Analysis of the Persian Version of the Child Sensory Profile 2 in Vulnerable Populations. Iran J Psychiatry. 2021; 16:353-61. Publisher Full Text | DOI | PubMed
- Shahbazi M, Mirzakhany N, Alizadeh Zarei M, Zayeri F, Daryabor A. Translation and cultural adaptation of the Sensory Profile 2 to the Persian language. British Journal of Occupational Therapy. 2021; 84:794-805. DOI
- Movallali G, Nesayan A, Asadi Gandomani R. Psychometric Properties of Dunn’s Sensory Profile School Companion. Archives of Rehabilitation. 2017; 18:194-201. DOI
- Hatami R, Behnia F, Pishyareh E, Rasafiani M, Mahmoudirad M, Farzi M. Validity and reliability of Persian version of Sensory Over-responsivity Inventory in children with Attention Deficit Hyperactivity Disorder. Journal of Sabzevar University of Medical Sciences. 1970; 21:1073-80.
- Derakhshan Rad SA, Sazmand AH. Standardization of Peabody developmental motor scales in children aged 60-71 months in Shiraz. Journal oF Rehabilitation. 2011; 11:35-41.
- Soltanikhadiv K, Kamali M, Rafiei S, Taghizade G. Relationship (Correlation) between BruininksOseretsky Test of Motor Proficiency and Peabody Developmental Motor Scale on Children with Educable-Intellectual and Developmental Disabilities. Journal of Research in Rehabilitation Sciences. 2014; 10:306-14.
- Gharaei E, Shojaei M, Daneshfar A. The validity and reliability of the Bruininks–Oseretsky Test of Motor Proficiency, Brief Form, in preschool children. Annals of Applied Sport Science. 2019; 7:3-12. DOI
- Ghasemifard F, Mirzaeie H, Jafari Oori M, Hosseini S, Riazi A, Hooshmandzadeh N. Psychometric Properties of Gross Motor Development Test in Children with Visual Impairment in Tehran. Journal of Paramedical Sciences & Rehabilitation. 2020; 9:31-8.
- Riyahi A, Rassafiani M, AkbarFahimi N, Sahaf R, Yazdani F. Cross-cultural validation of the Persian version of the Manual Ability Classification System for children with cerebral palsy. International Journal of Therapy and Rehabilitation. 2013; 20:19-24. DOI
- Riyahi A, Rasafiyani M, AkbarFahimi N, Karimlou M. Reliability of the Persian version of manual ability classification system (MACS) between parents and therapists in children with cerebral palsy. Archives of Rehabilitation. 2012; 12:14-21.
- Meimandi M, Azad A, Taghizadeh G, Mohammadi P. Validation and diagnostic accuracy of coin rotation task for manual dexterity and coordination in children with specific learning disorder. Disabil Rehabil. 2022; 44:2073-82. DOI | PubMed
- Havaei N, Rezaei M, Talebi G, Farnam A. Reliability of the Purdue Pegboard and Two-Point Discrimination Tests in school students with developmental dysgraphia. Modern Rehabilitation. 2012; 6
- Rafiee S, Taghizadeh G, Edrese M, Ashrafie M. Test-retest reliability of the Purdue Pegboard test for chidren with Down syndrome. Koomesh. 2011; 13:35-42.
- Sharifi NS, Fallahzade A, Kamali M. Inte-rater and test-retest reliabilities of Jebsen-Taylor Hand Function. Journal of Research in Rehabilitation Sciences. 2014; 10:328-34.
- Havaei N, Azad A, Alizade ZM, Ebadi A. Development and validity of the Persian handwriting assessment tool for primary school-aged children. IranRed Med J. 2017; 19DOI
- Meimandi M, Azad A, Havaei N, Zareiyan A. The Persian Handwriting Assessment Tool for Primary School-Aged Children: Further Validation. Iran J Med Sci. 2020; 45:179-87. Publisher Full Text | DOI | PubMed
- Havaei N, Azad A, Alizadeh-Zarei M, Ebadi A. Reliability of Persian handwriting assessment tool in Iranian primary school students. Iranian Rehabilitation Journal. 2018; 16:353-9. DOI
- Mirzakhani AN, Miri LN, Javantash A, Yasaie R, PASHAZADEH AZ. Inter-Intra Rater Reliability, Construct and Discriminative Validity of Iranian Typically Developing Children Handwriting Speed Test (I-CHST). Iranian Rehabilitation Journal. 2015; 13:94-102.
- Joveini G, Raji P, Baghestani AR, Parvizi F. Study of reproducibility of spinal alignment and range of motion measure in children with Cerebral Palsy. The Scientific Journal of Rehabilitation Medicine. 2014; 3:53-61.
- Salehi R, Keshavarz A, Negahban H, Saeedi A, Shiravi A, Ghorbani S, et al. Development of the Persian version of Gross Motor Function Measure-88 (GMFM-88): a study of reliability. Trends in Medical Research. 2015; 10:69-74. DOI
- Riahi A, Rassafiani M, Binesh M. The cross-cultural validation and test-retest and inter-rater reliability of the Persian translation of parent version of the Gross Motor Function Classification System for children with Cerebral Palsy. Journal of rehabilitation. 2013; 13:25-30.
- Kalantari M, Alimi E, Irani A, Nazeri A, Akbarzade Baghban A. Content and face validity of Pediatric Balance Scale in children with spastic cerebral palsy. The Scientific Journal of Rehabilitation Medicine. 2016; 5:104-10.
- E AL, Kalantari M, Nazeri AR, Akbarzade Baghban A. Test-retest & Inter-rater Reliability of Persian Version of Pediatric Balance Scale in Children with Spastic Cerebral Palsy. Iran J Child Neurol. 2019; 13:163-71. Publisher Full Text | PubMed
- Hadian M, Nakhostin Ansari N, Asgari T, Abdolvahab M, Jalili M. Inter& intra rater reliability of Berg Balance Scale for evaluation of the balance in children with spastic hemieplegia. Journal of Modern Rehabilitation. 2007; 1:31-7.
- Gharib M, Hossieni S, Akbar Fahimi N, Salehi M. Reliability and validity of the quality of upper extremity skills test in children with cerebral palsy. Journal of Rafsanjan University of Medical Sciences. 2010; 9:233-9.
- Akbar-Fahimi N, Gharib M, Hosseini SA, Salehi M, Ramazani M, Rashedi V. The Reliability of Quality of Upper Extremity Skills Test in children with Cerebral Palsy. Archives of Rehabilitation. 2012; 12:35-41.
- Soltaninejad H, Zarei MA, Akbarfahimi M, Azad A, Rabiei F. A Scale for Activities of Daily Living in Iranian Children (ADLIC): Development and Validation. Basic & Clinical Neuroscience. 2021; 12
- Soltaninejad H, Zarei MA, Akbarfahimi M, Azad A, Lavasani NM. A study on the factor structure, construct validity and reliability of the activities of daily living of iranian children (Adlic) scale. Middle East Journal of Rehabilitation and Health Studies. 2021; 8DOI
- Riyahi A, Rassafiani M, Nobakht Z, Abdolrazaghi H, Moradzadeh R. Validity and reliability of the Persian version of the Eating and Drinking Ability Classification System. International Journal of Therapy and Rehabilitation. 2019; 26:1-11. DOI
- Dabiri Golchin M, Mirzakhani N, Stagnitti K, Rezaei M. Psychometric properties of Persian version of “child-initiated pretend play assessment” for Iranian children. Iranian Journal of Pediatrics. 2017; 27:e7053. DOI
- Mirzakhani N, Dabiri Golchin M, Rezaee M, Zeinali R, Yasaei R, Dabiri Golchin M, et al. Translation, face, and content validity on child initiated pretend play assessment” for 4-7 years children. The Scientific Journal of Rehabilitation Medicine. 2016; 5:21-30.
- Dehghan SK, Rassafiani M, Akbar Fahimi N, Farahbod M, Salehi M. Validity and reliability of Activities Scale for Kids (ASK) in children with cerebral palsy. Journal of Research in Rehabilitation Sciences. 2011; 7
- Daftari T, Havaei N, Rezaei M, Ghalibaf B. Occupational performance status and reliability of the Canadian Occupational Performance Measure in children with cystic fibrosis. International Journal of Therapy And Rehabilitation. 2020; 27:1-9. DOI
- Moradi Abbasabadi M, Akbarfahimi N, Hosseini SA, Rezasoltani P. Content validity of the Persian version of the Pediatric Evaluation of Disability Inventory (PEDI). Journal of Research in Rehabilitation Sciences. 2014; 10:35-45.
- Sattari M, Hosseini SA, Rassafiani M, Ahmadi-Kahjoogh M. Concurrent Validity of the Child Occupational Self-Assessment in Children with Attention Deficit Hyperactivity Disorder. Journal of Research in Rehabilitation Sciences. 2015; 11:286-91. DOI
- Sattari M, Yazdani F, Rassafiani M, Hosseini SA. Construct validity of the Persian version of the Child Occupational Self-Assessment in children with attention-deficit/hyperactivity disorder in Iran. Hong Kong J Occup Ther. 2019; 32:127-35. Publisher Full Text | DOI | PubMed
- Shojaee M, Zarei MA, Mehraban AH. Translation, face and content validity of the persian version of school function assessment. Middle East Journal of Rehabilitation and Health Studies. 2017; 4DOI
- Rahimzadegan H, Zareai MA, Amini M, Kouhbanani NG, Shojaai A. Psychometric properties of the Persian version of school function assessment (SFA) in 6 to 12-year-old children with physical disabilities. Middle East Journal of Rehabilitation and Health. 2018; 5DOI
- Amiri Ebrahim Mohammadi F, Akbarfahimi N, Rassafiani M, Hosseinzadeh S. Content Validity and Reliability of the Persian Version of School Function Assessment in Children With Cerebral Palsy Aged 7-12 Years. Archives of Rehabilitation. 2020; 21:138-53. DOI
- Kouhbanani NG, Zarei MA, Lajevardi L, Rahimzadegan H, Shojaei A. The reliability of the persian version of the school function assessment in Iranian students 6 to 12 years old in Tehran’s schools. Middle East Journal of Rehabilitation and Health. 2018; 5DOI
- Ahari MN, Azad A, Alizadeh-Zarei M, Ebadi A, Parand A, Mohammadi P. Development and validity of the school interim competency of performance skill battery scale (SICPSBS). International Journal of Pediatrics-Mashhad. 2018; 6:8451-73.
- Amirian SR, Rezaee M, Pashazadeh Azari Z, Tabatabaee SM. Validity and reliability of children’s assessment of participation and enjoyment for people with disability aged 7-17 years old. The Scientific Journal of Rehabilitation Medicine. 2015; 4:26-32.
- Mortazavi SN, Rezaei M, Rassafiani M, Tabatabaei M, Mirzakhani N. Validity and reliability of Persian version of LIFE habits assessment for children with cerebral palsy aged between 5 and 13 years old. Archives of Rehabilitation. 2014; 14:115-23.
- Amini M, Hassani Mehraban A, Rostamzade O. Translation, cultural adaptation, and face, content, and convergent validity of children participation questionnaire into Persian. Journal of Rehabilitation Medicine. 2016; 5:151-57.
- Amini M, Hassani Mehraban A, Rostamzadeh O, Mehdizadeh F. Psychometric Properties of the Iranian-Children Participation Questionnaire (I-CPQ) When Used with Parents of Preschool Children with Cerebral Palsy. Occup Ther Health Care. 2017; 31:341-51. DOI | PubMed
- Amini M, Hassani Mehraban A, Pashmdarfard M, Cheraghifard M. Reliability and validity of the Children Participation Assessment Scale in Activities Outside of School-Parent version for children with physical disabilities. Aust Occup Ther J. 2019; 66:482-9. DOI | PubMed
- Amini M, Hassani Mehraban A, Haghani H, Mollazade E, Zaree M. Factor Structure and Construct Validity of Children Participation Assessment Scale in Activities Outside of School-Parent Version (CPAS-P). Occup Ther Health Care. 2017; 31:44-60. DOI | PubMed
- Rostamzadeh O, Amini M, Hassani Mehrban A. Construct Validity and Reliability of the Children Participation Assessment Scale-Child version in Children with Physical Disabilities. Iran J Child Neurol. 2021; 15:99-108. Publisher Full Text | DOI | PubMed
- Amini M, Hassani Mehraban A, Haghni H, Asgharnezhad AA, Khayatzadeh Mahani M. Development and validation of Iranian children’s participation assessment scale. Med J Islam Repub Iran. 2016; 30:333. Publisher Full Text | PubMed
- Nobakht Z, Rassafiani M, Reza Soltani P. Validity and reliability of Persian version of Craig Hospital Inventory of Environmental Factors (CHIEF) in children with cerebral palsy. Iranian Rehabilitation Journal. 2011; 9:3-10.
- Salavati M, Vameghi R, Hosseini SA, Saeedi A, Gharib M. Reliability and Validity of the European Child Environment Questionnaire (ECEQ) in Children and Adolescents with Cerebral Palsy: Persian Version. Children (Basel).. 2018; 5Publisher Full Text | DOI | PubMed
- Kavousipor S, Rassafiani M, Ebadi A, Solimani F, Hosseini A, Gabbard C. Cultural Adaptation and Psychometric Properties of the Persian Version of the Affordance in the Home Environment for Motor Development. Iran J Child Neurol. 2019; 13:25-35. Publisher Full Text | PubMed
- Ghanadzadeh M, Alimi E. Translation and Face and Content Validation of a Questionnaire to Assess Educational Needs and Intervention Priorities in Parents of Children with Autism Spectrum Disorder. The Scientific Journal of Rehabilitation Medicine. 2016; 5:128-35.
- Azari N, Soleimani F, Vameghi R, Sajedi F, Shahshahani S, Karimi H, et al. A Psychometric Study of the Bayley Scales of Infant and Toddler Development in Persian Language Children. Iran J Child Neurol. 2017; 11:50-6. Publisher Full Text | PubMed
- Soleimani F, Vameghi R, Kazemnejad A, Akbar Fahimi N, Nobakht Z, Rassafiani M. Psychometric properties of the persian version of cerebral palsy quality of life questionnaire for children. Iran J Child Neurol. 2015; 9:76-86. Publisher Full Text | PubMed
- Yarmohammadi N, Rassafiani M, Joveini G, Rostami HR, Mahani MK, Behnia F, et al. Validation of Persian Caregivers’ Report of Quality of Life questionnaire for adolescents with cerebral palsy. International Journal of Therapy and Rehabilitation. 2018; 25:234-9. DOI
- Salavati M, Vameghi R, Hosseini SA, Saeedi A, Gharib M. Mastery Motivation in Children with Cerebral Palsy (CP) Based on Parental Report: Validity and Reliability of Dimensions of Mastery Questionnaire in Persian. Mater Sociomed. 2018; 30:108-12. Publisher Full Text | DOI | PubMed
- Hojati Abed E, Shafaroudi N, Akbarfahimi M, Zareiyan A, Parand A, Karamali Esmaili S. Persian Translation and Psychometric Properties Assessment of Self-Determination Student Scale for Adolescents. Archives of Rehabilitation. 2019; 20:350-9. DOI
- Hojati Abed E, Akbarfahimi M, Shafaroudi N, Zareian A, Parand A, Karamali Esmaieli S. Psychometric properties of the Persian version of self-determination parent perception scale. Iranian Rehabilitation Journal. 2020; 18:23-30. DOI
- Farahbod M, Gharib M, Massah O. Psychometric properties of physical well-being, health and motor development inventory for assessing school readiness. Iranian Rehabilitation Journal. 2013; 11:58-64.
- Rassafiani M, Sahaf R, Yazdani F. Occupational therapy in Iran: Past, present, and future. Annals of International Occupational Therapy. 2018; 1:49-56. DOI
- Fouché L, Wegner L. Specific occupational therapy intervention with adolescents. Occupational therapy in psychiatry and mental health. 2014;276-94. DOI
- Read H, Roush S, Downing D. Early Intervention in Mental Health for Adolescents and Young Adults: A Systematic Review. Am J Occup Ther. 2018; 72:7205190040. DOI | PubMed
- Borges Nery P, Snider L, Camelo JSJ, Zachary B, Fatima K, Jessica G, et al. The Role of Rehabilitation Specialists in Canadian NICUs: A 21st Century Perspective. Phys Occup Ther Pediatr. 2019; 39:33-47. DOI | PubMed
- Sandra Carroll O, CLC C, Sue Ludwig O, Chrysty Sturdivant O, CLC C. Occupational therapy’s role in the neonatal intensive care unit. The American Journal of Occupational Therapy. 2018; 72:1-9.
- Mobbs CA, Spittle AJ, Johnston LM. Participation Measures for Infants and Toddlers Aged Birth to 23 Months: A Systematic Review. Phys Occup Ther Pediatr. 2021; 41:567-89. DOI
- King G. Perspectives on measuring participation: going forward. Child Care Health Dev. 2013; 39:466-9. DOI | PubMed
- Anaby D, Law M, Coster W, Bedell G, Khetani M, Avery L, et al. The mediating role of the environment in explaining participation of children and youth with and without disabilities across home, school, and community. Arch Phys Med Rehabil. 2014; 95:908-17. DOI | PubMed
- Brown T, Bourke-Taylor H. Children and youth instrument development and testing articles published in the American journal of occupational therapy, 2009-2013: a content, methodology, and instrument design review. Am J Occup Ther. 2014; 68:e154-216. DOI | PubMed
- Cordier R, Chen YW, Speyer R, Totino R, Doma K, Leicht A, et al. Child-Report Measures of Occupational Performance: A Systematic Review. PLoS One. 2016; 11:e0147751. Publisher Full Text | DOI | PubMed