Next Article in Journal
Prevalence and Possible Etiological Factors of Molar-Incisor Hypomineralization (MIH) in Population of Silesian Children in Poland: A Pilot Retrospective Cohort Study
Previous Article in Journal
Diabetes and Cardiovascular Diseases Risk Assessment in Community Pharmacies: An Implementation Study
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
IJERPH
Volume 19
Issue 14
10.3390/ijerph19148701
ijerph-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Systematic Review

Assessment of Challenging Behavior Exhibited by People with Intellectual and Developmental Disabilities: A Systematic Review

by
Juliana Reyes-Martín
1,2,*,
David Simó-Pinatella
1 and
Josep Font-Roura
3
1
Facultat de Psicologia, Ciències de l’Educació i de l’Esport, Blanquerna, Ramon Llull University, 08022 Barcelona, Spain
2
Fundació Vallparadís, Mutua Terrassa, 08221 Barcelona, Spain
3
CPT Estel, Vic, 08500 Barcelona, Spain
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2022, 19(14), 8701; https://doi.org/10.3390/ijerph19148701
Submission received: 17 June 2022 / Revised: 11 July 2022 / Accepted: 12 July 2022 / Published: 17 July 2022
(This article belongs to the Section Disabilities)
Browse Figures
Versions Notes

Abstract

:
The assessment of challenging behavior exhibited by people with intellectual and developmental disabilities is essential for the planning of prevention and intervention programs. This review aimed to identify and analyze the standardized instruments that exclusively focus on the assessment of challenging behavior. We identified and organized 141 articles into four categories: original instrument studies, validation studies, relational studies, and intervention studies. The results identified 24 instruments that generally show high-quality psychometric properties and other utilities beyond the observation of the presence of challenging behavior and diagnostic categorization. Age, level of adaptive behavior, disability, presence of autism spectrum disorder, and medication are some of the variables that were found to be possibly related to the occurrence of challenging behavior. Additionally, the results suggest that interventions focused on supporting positive behavior or providing training on behavior to professionals and caregivers significantly reduced the occurrence of these behaviors. Instruments that help us to understand and measure the challenging behavior exhibited by people with intellectual and developmental disabilities are essential for the design of effective evaluation and intervention protocols.

1. Introduction

Challenging behavior (CB) [1] exhibited by people with intellectual and developmental disabilities (IDDs), such as aggressive, stereotypic, self-injurious, and disruptive behaviors, is a cause for concern. The frequency, severity, duration, and resistance to treatment of CB are problematic for families and professionals [2]. CB influences personal and emotional well-being, and can limit access to experiences and opportunities [1].
The prevalence of CB exhibited by people with IDDs is highly variable according to the population studied, the behaviors that are prioritized, and the procedures and methodological instruments that are used [3,4,5]. One of the most recent reviews [6], which involved 20 studies, analyzed the prevalence of CB in school-aged individuals with disabilities. The results indicated that the overall prevalence rates ranged from 48% to 60% in children with IDDs, while studies measuring CB in children with autism recorded a level of 90%. The most frequent CBs are aggression and self-harming behaviors. Despite the limitations inherent in prevalence studies, the magnitude of behavioral difficulties is a cause for concern, making it imperative to develop and use assessment and intervention procedures that have been sufficiently tested and which are supported by strong empirical evidence. Thus, the evaluation of CB is an essential preventive measure to reduce the impact that the behavior has on the individual and those who live in their environment. Given the importance of evaluation systems in the treatment of CB, several studies have been carried out in recent years to assess the use and degree of effectiveness of different procedures [7,8].
CB exhibited by people with IDDs has been mainly assessed using two approaches: direct and indirect descriptive procedures. Direct descriptive procedures use direct observation of the person in their natural environment [9]. However, descriptive procedures have a number of limitations, such as difficulty in understanding and interpreting environmental variables, as well as the amount of time required [10]. On the other hand, indirect descriptive systems require the views of informants (either the individual concerned or significant people in their environment) about the assessed behavior, which are collected through interviews, scales, checklists, and questionnaires [11,12,13]. Although the information gathered using indirect instruments may not be as accurate as that obtained using direct measures, their general ease of use, the time taken, and the training required are aspects worth bearing in mind when considering the evaluation of CB [13,14].
Although there is no agreement among researchers and practitioners, the use of standardized measures could be helpful in the assessment of CB and design of intervention plans. In general, indirect measures meet most of the objectives of a measurement instrument: evaluation, diagnosis, screening, and monitoring of progress [15]. In other words, they allow professionals to collect information about the type and severity of the CB that a person engages in, to identify and understand in greater depth the behaviors and their main causes, and to monitor both the progress of the individual and the effectiveness of the intervention that has been carried out.
Authors of recent research have made efforts to systematically review the tools used to assess CB. For instance, a review that aimed to assess the evidence for the validity of the criteria of CB scales published since 2000 identified and analyzed 12 scales used to evaluate the CB of people with IDDs [16]. The conclusions of this study suggested that the criterion validity of the scales was not satisfactory and more attention needed to be given to the validity of the content. Similarly, a recent review [17] aimed to identify relevant measures (psychometric properties) for the assessment of mental health disorders among children and young people with intellectual disabilities. The results of the study identified ten instruments that could be used to assess mental health disorders. However, these reviews all focused on the study of the psychometric properties of these tests. To the best of our knowledge, no study has focused on the evidence relating to the instruments, i.e., exploring how they have been used by researchers. Assessment procedures should help researchers and practitioners to understand the nature of the behavior, as well as to design appropriate interventions [18].

The Present Study

The aim of our study was to explore the state of the evaluation of the CB exhibited by people with IDDs. To this end, the main objective was to identify standardized instruments that focus solely on the CB presented by people with IDDs and to analyze their rigor and usefulness. Thus, the specific objectives that emerged were the following: (a) to study the psychometric characteristics and properties of these instruments, (b) to explore the relationship between the CB assessed using these instruments and the variables that may be related, and (c) to identify the evidence provided by the literature related to the psychoeducational interventions carried out based on the results of evaluations of the CB.

2. Method

A systematic review of standardized instruments used to assess the CB exhibited by people with IDDs was conducted, taking into consideration the recommendations of the Cochrane Collaboration [19] and the PRISMA Statements [20] (see Appendix A for Search strategy through electronic databases).

2.1. Information Sources and Eligibility Criteria

A literature review was carried out using the bibliographic databases PsycINFO, Medline (PubMed), Web of Science (WoS), and Education Resources Information Center (ERIC). The search strategy was peer-reviewed, and it considered records published from 2000 to March 2022.
The database search was performed by combining the following keywords and key phrases: intellectual and developmental disability AND challenging behavior OR problem behavior AND evaluation OR assessment OR questionnaire OR inventory OR scale. The terms had to appear in the title and/or summary. The complete search strategy for the PubMed database is presented in Appendix A. The last search was carried out in April 2022.
The eligibility criteria focused on peer-reviewed articles that (a) were published between 2000 and 2022, (b) targeted people with IDDs (in studies with multiple groups, those that included at least one group with people diagnosed with IDDs were taken into account), (c) aimed to design and develop a specific tool to detect CB, to adapt it and/or to evaluate its psychometric properties, (d) examined the unidirectional or bidirectional relationship between CB and other variables, and (e) were empirical studies that measured the results of a psychoeducational intervention for addressing CB.
Considering these inclusion criteria, we excluded from this review those studies that (a) evaluated CB in people without IDDs (e.g., [21]), (b) examined challenging behavior using specific subscales of broader tools (measures of adaptive behavior and/or mental health containing specific subscales of CB (e.g., [22,23]), (c) did not use standardized tools (e.g., [24,25]), and (d) were theoretical studies or reviews of the literature (e.g., [9,26]).

2.2. Search Strategy and Study Selection

The results obtained from the bibliographic databases identified 1379 records (PubMed, 269; PsycoINFO, 384; WoS, 342; and ERIC, 384).
The results obtained were merged using Mendeley reference management software, and duplicates were automatically removed. Once 347 duplicates were eliminated, a list of titles was compiled. In parallel, the first and second authors independently assessed and identified the potential relevance of the 1032 articles by examining titles and abstracts following a checklist that included prespecified eligibility criteria. A total of 630 articles were removed as they did not meet the predetermined inclusion criteria.
Both authors carried out a full-text reading of the 402 articles to verify that they met the eligibility criteria. Disagreements were resolved by consensus, and where this was not possible, the text was reread and/or the third author was consulted. As a result of the application of the exclusion criteria, 122 articles were selected, and 280 were excluded. Two additional searches were then conducted. First, original instruments published before 2000 were identified during the search procedure. Second, an independent search was performed for each identified instrument to detect any articles that could have been missed during the search procedure. A total of 19 articles were added to the literature review (8 and 11 for each additional search, respectively). In conclusion, a total of 141 articles were included in this review, as shown in Figure A2 (Appendix B).

2.3. Data Analysis

The first and second authors conducted a full-text reading of the selected studies. The included studies were classified into four categories according to the objective of the study (original instrument, validation, relational and/or measurement, or intervention study). In line with the Cochrane recommendations, a summary sheet per category was developed for data extraction:
  • For original studies related to the instrument, the data extracted were tool, abbreviation, original reference, specific characteristics, purpose and approach, method of application, number of items, domain of behavior, type of evaluation (frequency, severity, intensity, etc.), target group, scoring method, and psychometric properties.
  • The validation category included validation studies with instrument-independent samples. Aspects related to the tool, reference, country, number of participants, age range, objective, and psychometric properties were extracted.
  • In the relational and/or measurement studies, CB was correlated with other variables of interest. For this purpose, the data extracted were instrument, reference, number of participants, age range, associated variables, and the association index.
  • CB was considered the dependent variable for the intervention studies. The information extracted was tool, reference, number of participants, age range, level of intellectual disability, diagnosis of autism spectrum disorder, design, components of the intervention, and results.

2.4. Risk of Bias and Applicability

We used the Cochrane risk of bias tool [27] for risk of bias assessment. Two review authors from the research team independently assessed and made an argument-based judgment (low, high, or unclear) in the seven domains proposed by the Cochrane tool for each of the studies: random sequence generation, allocation concealment, blinding of participants and staff, blinding of outcome assessors, incomplete outcome data, selective reporting of results, and other sources of bias. Disagreements between the two researchers were resolved via discussion or by involving a third expert to make a judgment about the risk.

3. Results

The 141 studies included in this review were categorized according to whether they were original articles on instrument development (n = 23), validation (n = 23), relational and/or measurement (n = 72), or intervention (n = 23). It is important to mention that ten studies were categorized as belonging to more than one category. Specifically, six studies [28,29,30,31,32,33] were grouped into the categories of relational and/or measurement and validation studies, and two studies [34,35] were grouped into the categories of relational and intervention studies.

3.1. Original Instrument Studies (n = 23)

Out of the 141 selected articles, our systematic review identified 23 in which the objective was to develop and validate a specific instrument for evaluating CB [36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58]. One study developed and validated two instruments: the Eyberg Child Behavior Inventory (ECBI) and the Sutter–Eyberg Student Behaviour Inventory–Revised (SESBI-R). The main characteristics of the 24 instruments for the evaluation of CB can be found in Table 1, together with the validity and reliability scores of the original instrument.
Eight instruments were developed before the 2000s (Aberrant Behavior Checklist, ABC-R; Aberrant Behavior Checklist—Community, ABC-C; Modified Overt Aggression Scale, MOAS; Self-Injury Trauma scale, SIT Scale; Checklist of Challenging Behavior, CCB; Stereotyped Behavior Scale, SBS; ECBI; and SESBI-R). All instruments except the Behavior Problems Inventory for People with Profound Intellectual and Multiple Disabilities (BPI-PIMD) [53] were originally validated in English. The instruments identified in this review addressed different populations. Specifically, 12 instruments focused on the assessment of the CB exhibited by children and adults with IDDs. Of these 12, 10 focused on this population without a specific level of IDD or diagnosis (ABC; ABC-C; Behavior Problem Inventory, BPI-O1; Behavior Problem Inventory—Short, BPI-S; Behavior and Sensory Interests Questionnaire, BSIQ; Challenging Behavior Interview, CBI; CCB; Problem Behavior Checklist, PBCL; Repetitive Behavior Questionnaire, RBQ; and Repetitive Behavior Scale—Revised, RBS-R), whereas one (BPI-PIMD [53]), was a specific adaptation of BPI-01 [55] for children and adults with profound and multiple IDDs; and the Challenging Behavior Questionnaire (CBQ) [44] was specific to people with Cornelia de Lange syndrome. Seven instruments were identified that were designed for adults with IDDs. Five out of the seven were intended for adults with IDDs without a specific level or diagnosis (Adult Scale of Hostility and Aggression: Reactive–Proactive, A-SHARP; Institute for Basic Research—Modified Overt Aggression Scale, IBR-MOAS; MOAS; SBS; and Stereotyped Behavior Scale Revised, SBS-R), whereas one (MOAS [46]), although originally designed for populations with psychiatric disorders, was validated and used for adults with IDDs [59]. On the other hand, the Autism Spectrum Disorder—Behavior Problems for Adults (ASD-BPA) instrument [49], although also designed for adults, was specific to people with autism spectrum disorder and IDDs. Two instruments focused on the CB exhibited by children with IDDs without a specific level or diagnosis: the Children’s Scale of Hostility and Aggression: Reactive–Proactive (C-SHARP) [41] and Behavior Problems Inventory for School (BPI-S-SCHOOL) [51]; and one, the Autism Spectrum Disorder—Problem Behaviors Child (ASD-PBC) [48], was designed for children with autism spectrum disorder and IDDs. Finally, there were three instruments that were not originally designed for people with IDDs, although they were adapted and validated for this population; two for children (ECBI and SESBI-R) and one for children and adults (SIT Scale [45]).
Of the 24 instruments considered, 16 explored different types of CBs (ABC, ABC-C, ASD-BPA, ASD-PBC, BPI-01, BPI-S, PIMD BPI-PIMD, BPI-S-SCHOOL, CBI, CBQ, CCB, ECBI, SESBI-R, PBCL, IBR-MOAS, and MOAS). The other eight instruments focused on one type of CB (A-SHARP, C-SHARP, BSIQ, RBS-R; RBQ, SIT Scale, SBS, and SBS-R).
Most of the instruments were rating scales (ABC, ABC-C, A-SHARP, C-SHARP, ASD-BPA, ASD-PBC, BPI-01, BPI-S, BPI-PIMD, BPI-S-SCHOOL, CCB, ECBI, SESBI-R, IBR-MOAS, MOAS, PBCL, RBS-R, SIT Scale, SBS, and SBS-R), whereas three were questionnaires (CBI, CBQ, and RBQ) and one was a semi-structured interview (BSIQ). All of the information was collected based on informants who were usually family, caregivers, or reference professionals, i.e., people who were familiar with the person who engaged in the behavior. When analyzing the way professionals rated the assessed behaviors, most of the identified instruments (ABC-R, ABC-C, ASD-BPA, ASD-PBC, BPI-01, BPI-S, BPI-PIMD, BPI-S-SCHOOL, ECBI, SESBI-R, IBR-MOAS, MOAS, and SBS-R) used two Likert rating scales to identify the frequency and severity of the behavior. Other instruments, in addition to frequency and severity, explored other variables when assessing CB, including the following: whether the behavior was proactive or reactive (A-SHARP and C-SHARP); when it began and its duration (BSIQ [42]); the difficulty of managing the behavior and the strategies used (CCB [43]); the duration and effects of the behavior on the person engaging in the behavior and its effects on others (CBI); and the type and location of injuries (SIT scale). Three instruments solely explored the frequency of the behavior (CBQ, RBQ, and SBS), and two focused on its severity (PBCL and RBS-R).
Based on different inter-reliability standards [60,61,62,63], internal consistency was excellent for SBS-R, ASD-PBC, ECBI, SESBI-R, and ASD-BPA; good to excellent for ABC, ABC-C, BPI-01, BPI-S, BPI-S-SCHOOL, and A-SHARP; good for RBQ, BPI-PIMD, SBS, and MOAS; and from regular to good for BSIQ and C-SHARP. However, the CCB [43] was considered unreliable as a measure to monitor change. Internal consistency was not estimated for five instruments (PBCL, IBR-MOAS, CBI, CBQ, and RBS-R). On the other hand, based on international standards [64,65,66], the level of reliability among evaluators was considered excellent for SBS-R, MOAS, BPI-01, PBCL, and BSIQ; from good to excellent for A-SHARP and the C-SHARP problem subscale; good for SESBI-R, RBQ, RBS-R, ABC, and ABC-C; from regular to excellent for ASD-PBC; from regular to good for CBI and IBR-MOAS; between poor and excellent for the provocation subscale of C-SHARP; and between poor and good for ASD-BPA. For the rest of the instruments, it was not evaluated. With regard to the reliability test, the retest was considered excellent for ABC, ABC-C, SBS, SBS-R, MOAS, CBI, and BSIQ; good to excellent for ASD-PBC, BPI-01, BPI-PIMD, and IBR-MOAS; good for SESBI-R, RBQ, and RBS-R; and between poor and excellent for ASD-BPA. For the rest of the instruments, it was not calculated.

3.2. Validation Studies (n = 23)

With regard to the studies that continued to explore the psychometric properties of the selected instruments or validated them with other populations, a total of 23 articles involving 9 instruments were identified (see Table 2).
Four studies explored the psychometric properties of more than one instrument. The most studied instruments were BPI-01 [31,68,69,72,73,74,75,76,77,78,79,80,81], BPI-S [82,83,84,85], and RBS-R [75,86,87,88]. In addition, the properties of ABC-C [70,71], ABC [67,68], MOAS [59], and A-Sharp [72] were studied.
In relation to BPI-01, five studies re-examined its psychometric properties with different samples that involved children and/or adolescents [68,80], adults [76,81], or both children and adults [69]. The convergent validity of the BPI-01 was explored for ABC [69], A-SHARP and ABC [72]. Psychometric properties were also explored using the theory of response to the instrument, taking account of possible bias according to sex, using both BPI-01 and BPI-S [82]. Moreover, BPI-01 was translated into and validated in several different languages: Chinese [73], Korean [77], Swedish [78], Romanian [79], Brazilian [74], and Dutch [75].
The BPI-S was another instrument that was translated into and validated in different languages: Japanese [83] and French [85]. This instrument was also examined using an independent sample that involved both children and adults [84].
Three other instruments had evidence from different settings and/or samples. First, the RBS-R had standardized scores according to diagnostic group using a sample of children and adults in Spain [88], and its psychometric properties were re-examined in a sample of children with IDDs in Peru [68]. This instrument was translated into and validated in Japanese [86] and German [87]. Second, the psychometric properties of the ABC were re-examined in a sample of children with IDDs in Peru [68] and the construct validity of the Norwegian version was tested using a sample of children and adolescents [67]. The community version of the ABC was included in two studies: one that examined the factorial validity of the original English version of the ABC-C in a sample of children and adolescents [70] and another that standardized and examined the psychometric properties of the German version of the ABC-C [71]. Finally, the reliability of the MOAS in people with IDDs was also explored [59].

3.3. Relational Studies (n = 72)

Of the articles identified in this review, a total of 72 were identified as relational or measurement studies (see Table 3). Six studies, although categorized as relational and/or measurement, overlapped with the validation category [28,29,30,32,33,68].
As shown in Table 3, most of the relational studies used a version of the BPI [29,31,122,123,124,125,126,127,128,129,130,131,132,133,134,135,136,137,138,139,140,141,142], the ABC [94,95,96,97,98,99,100,101], or the ABC-C [33,105,106,107,108,109,110,111]. The other instruments used for these studies were ASD-BPA [115,116,117,118,119], CCB [30,147,148,149,150,151], MOAS [153,154,155], RBS-S [157,158,159], IBR-MOAS [152], RBQ [156], and A-SHARP [121]. Thirteen studies used different combinations of the aforementioned instruments [28,32,102,103,104,112,113,120,143,144,145,146].
The number of participants included in these studies was 18,350 (10,605 of whom were males). Two studies did not report the sex of the participants [119,158], and one provided only approximate data [123]. Three studies reported the number and sociodemographic characteristics of the support staff but not of the participants with IDDs [133,149,150]. The ages of the participants in the samples ranged from 4 months to 93 years.
Different variables were examined in relation to CB. Table 3 identifies the variables that were studied in each of the selected articles.

3.3.1. Age, Sex, and Race (n = 14)

Age was revealed as a factor differentially associated with CB [137]. For example, the results of one study suggested that CB usually appears before one year of age [104] and that severity decreases as age increases [151]. However, another study found no correlation between age and CB [131].
With regard to changes in pattern with increasing age, two studies found significant improvements in most typologies [98,106]. Seven studies detected a general pattern of stability, although with significant differences in specific topographies [33,94,100,107,108,143,157]. Hyperactivity and noncompliance showed significant reductions between childhood and early adolescence [94] and between adolescence and early adult life [100]. In addition to improvements in hyperactivity and noncompliance, reductions in irritability and noncompliance were also detected in a sample with IDDs and Fragile X syndrome [108]. With respect to self-injurious and stereotypic behavior, younger age was revealed as a risk factor for self-injurious behavior [107], and older age was revealed as a risk factor for stereotypic behavior [157]. Similarly, Schmidt et al. (2013) [33] detected that younger children typically score higher on certain ABC-C subscales.
Sex was revealed as a variable associated with CB [107,108,137]. For example, Hustyi et al. (2014) [108] used a sample of people with Fragile X syndrome, a sex-linked genetic syndrome. However, three studies failed to identify a relationship between sex and CB [95,131,157]. Specifically, Folch’s study (2018) [107] explored the association with self-injurious behavior, and Hoch et al. (2016) [157] explored the association with self-injurious and stereotypic behavior.
No significant differences were found between race and CB, although a significant interaction between autism spectrum disorder and race was detected in relation to CB [115].

3.3.2. Level of IDD, Adaptive Behavior, Language, and Support Needs (n = 18)

Deficits in adaptive behavior were associated with CB [95,97,106]. According to the results of one study, control of the autism spectrum disorder variable moderated the effect of adaptive behavior, and the control of adaptive behavior moderated the impact of autism spectrum disorder symptomatology on CB [97].
The level of intellectual impairment was also systematically linked to the presence, severity, and topography of CB [29,30,31,99,100,107,124,129,135,138,145,158]. According to the results of three studies [31,124,158], the differences were significant only for stereotypic and self-injurious behaviors [31]. However, the results from other studies suggest that these findings were relevant for aggressive behavior [135] and contact behavior [30].
The presence of CB was positively correlated with the level of language impairment [100,118,138]. Specifically, language impairment was revealed as a risk marker for self-injurious behavior [100,118]. Additionally, correlation between CB and sensory hypersensitivity was also detected [129]. Moreover, the severity of these behaviors was also related to the attention provided by professionals or support staff [97,136], in that it was reported that people with IDDs who exhibited CB were likely to receive more attention from support staff [97].

3.3.3. Quality of Life, Participation, and Life Events (n = 5)

According to one study, quality of life is negatively correlated with the presence of CB [99]. Discrete significant associations were detected between CB and social and community activities and household participation [97]. People with IDDs were more frequently exposed to negative life events [140], and these events were significantly related to the presence of CB [110,140], particularly aggressive behavior [153].

3.3.4. Autism Spectrum Disorder (n = 17)

All of the studies that explored the relationship between autism spectrum disorder and CB concluded that people with IDDs and autism spectrum disorder exhibited significantly more CBs than people with IDDs alone [32,95,99,100,103,107,115,116,117,119,120,126,129,141,143,145]. According to Sappok et al. (2014), autism was the only mental disorder associated with CB in general. Likewise, it was noted that children with IDDs and autism spectrum disorder showed significantly more CBs than people with IDDs and Down’s syndrome or with atypical development [137]. Three studies concluded that the severity of autism spectrum disorder symptomatology correlated positively with the number and intensity of CBs [32,100,120]. In fact, Rattaz et al. (2018) suggested that the severity of autistic symptomatology was the main risk factor for the development of CB. Regarding specific topography, people with IDDs and autism usually showed significantly higher levels of self-injurious [32,107,118] and stereotypic behavior [32]. Finally, certain dimensions of quality of life were identified as mediating factors between autism spectrum disorder and CB.

3.3.5. Epilepsy (n = 4)

The results of three studies suggested that comorbid epilepsy did not appear to be related to CB [106,107,135]. However, Smith and Matson’s study (2010) did find significant differences in the topography of aggression and/or destruction and stereotyped behavior.

3.3.6. Genetic Syndrome and Others (n = 15)

Diagnosis is a variable associated with CB [137]. The results of the four studies that explored the relationship between CB and Down’s syndrome suggested that people with Down’s syndrome tended to have significantly fewer CBs than people with other diagnoses [109,126,129,145]. For example, children with autism spectrum disorder were rated as exhibiting more CBs than children with Down’s syndrome and other IDDs of mixed etiology [126].
The association between Fragile X syndrome and CB, as well as other genetic syndromes, was also explored in the literature. For example, heterogeneity in relation to repetitive behaviors between different genetic syndromes was identified. People with Fragile X syndrome exhibited significantly more problematic repetitive behaviors than people with Angelman’s, Cornelia de Lange, Cri-du-Chat, Prader–Willi, Lowe, and Smith–Magenis syndromes [156]. Moreover, the results seemed to suggest that children with Fragile X syndrome had restricted interests, more severe sensory behaviors, and less problematic self-harm [158]. On the contrary, the presence of CB was identified among people with Phelan–McDermid syndrome [111], but no significant differences in rates of stereotypic, self-injurious, and equality behaviors were found among people with Fragile X syndrome and autism spectrum disorder [159].
The results reported by DiStefano et al. (2020) indicated that children with isodicentric duplications (dup15q syndrome) tended to present significantly more challenging behaviors. There was no significant association between Cornelia de Lange and self-injurious behavior [112]. With regard to Smith–Magenis syndrome, the results suggested a significant association between this syndrome and CB, which was reported to be more frequent and serious [122].
The results exploring the association between CB and tuberous sclerosis were contradictory. For instance, although high rates of CB were identified in children with tuberous sclerosis, these rates were not significantly higher than those in children with other syndromes (e.g., Down’s syndrome) [144]. In contrast, in a sample of adults with tuberous sclerosis, rates of self-injurious behavior and aggression were significantly higher than in those with Down’s syndrome [146].
Finally, in the case of Pallister–Killian syndrome, one study suggested that stereotypic, aggressive, and self-injurious behaviors were frequent, but that these were mediated by other variables such as the level of adaptive behavior, the sensory profile, and/or sleep impairment [142].

3.3.7. Other Medical Issues (n = 3)

Evidence suggests that gastrointestinal problems had a positive association with the presence of stereotypic behavior [100], and dental pain with self-injurious behavior [107]. Visual impairment was also associated with the presence of aggressive, self-injurious, and stereotypic behavior [137].

3.3.8. Psychiatric Disorders, Sleep Disorders, and Psychopharmacies (n = 16)

People with IDDs and psychiatric disorders tended to have higher levels of CB [29,96,107,113,125,127,134,139,152,153,154,155,158]. This association was most prominent in people with severe IDDs [96,139], and with IDDs and psychiatric morbidity [154]. Moreover, aggressive behavior was associated with dual pathology [155], and psychiatric disorders could be considered as potential risk factors for self-injurious behavior [107].
Although no specific, significant association was established with a particular psychiatric disorder [125], deficits in impulse control, emotional dysregulation, and perceived threats could explain aggressive behavior in people with dual diagnoses [152]. For example, anxiety, restricted interests, and CB were positively associated in a sample of people with Fragile X syndrome [158]. Finally, mental health could be identified as a mediating factor between victimization history and aggressive behavior in people with IDDs [153].
With regard to sleep problems, although one study found no significant differences [137], the results seemed to suggest significant relationships between sleep disorders and the presence of CB [100,129]. Additionally, two studies revealed psychotropic medication as a risk marker for CB [107,129], specifically self-injurious behavior [107].
Finally, in a sample of people with IDDs and autism, 42% of the variance in CB could be explained by medication, sleep problems, and anxiety [113].

3.3.9. Mood, Interest/Pleasure, Emotional Perception, Emotional Development, and Alexithymia (n = 5)

Analysis of these results revealed that CB is predicted by participants’ mood [28,145], although this relationship was significant only in people with IDDs and autism spectrum disorder [145]. The increase in the frequency and severity of self-injurious behavior over time was negatively correlated with interest/pleasure [28]. The emotional perception of people with IDDs was negatively associated with CB, as well as with the difficulty of approach [147]. Additionally, a low level of emotional development was revealed as a risk factor for the appearance of irritability and self-harm [103]. A significant association was established between alexithymia and CB, its severity, and difficulty in its management [4], but this was described by support staff and not by the people exhibiting the CB.

3.3.10. Family, Caregivers, and Support Staff (n = 12)

The severity of aggression was positively correlated with the burden on the family caregiver and negatively correlated with uplift [114], and challenging behavior was positively associated with maternal stress [132]. Parental education and family income were revealed as risk factors associated with the occurrence of CB [137].
Perceived stress and emotional exhaustion among support workers was also positively correlated with the occurrence of CB [121,133,149,150]. This association could be mediated by the negative emotions of the support worker [149] or by fear of being attacked [150]. The reactions of support staff to CB were dependent on the type of CB, and negative emotional reactions were positively correlated with CB [128]. Support staff tended to rate the anger of people with IDDs based on overt CB [102].

3.4. Intervention Studies (n = 23)

In 23 studies, instruments to assess CB were used to design interventions and explore the effect of these interventions on the CB presented by the participants. The details of the different interventions identified in this review can be found in Table 4.
A total of 1540 people (812 of whom were males) were involved in this category of analysis. Two studies did not report the sex of participants [162,168]. The sample had a mean age of 34.46 years (range = 3–96 years). All participants had IDDs (except 13 participants in one study [138]). Fifteen studies worked with samples of adults [34,35,160,161,163,166,167,168,169,170,171,172,173,177,179], four with samples of children [162,164,176,178], one with adolescents [165], one with adolescents and young people [174], and two were based on combined samples of adults and children [138,175].
CB was considered the dependent variable for evaluation of the effectiveness of the interventions. The most commonly used instrument in this type of study was the ABC [34,35,160,161,162,163,164,165,166,167,168]. The other instruments used were BPI-01 [172,174], CCB [175,176,177], ABC-C [170,171], BPI-PIMD [173], BPI-S [138], ECBI/SESBI-R [178], and MOAS [179], while one study used a combination of two instruments, namely, the ABC and MOAS [102].
The interventions carried out included person-centered active support, positive behavioral support, training of key professionals or home caregivers, and implementation of other specific interventions, such as interventions in residential settings following structured programs. Although a few studies found that the interventions had no significant effects [35,167,170,172], evidence of an intervention was generally reported as reducing the CB of the participants.
Positive behavioral support positively impacted on the reduction in CB [138,171,174], and active person-centered support was used in two studies [35,168]. For example, significant reductions in CB were found after training professionals in active support [168] or after relocating people with IDDs using a decision-making process based on person-centered planning [179]. However, Smith et al. (2002), although reaffirming the effectiveness of active support training for people with IDDs and significant support needs, found no significant changes in CB among people with IDDs. Evidence demonstrated the effectiveness of training key professionals or home caregivers in different skills or intervention procedures in reducing the occurrence of CB [164,166,167,170,175,176,177]. For example, a joint parent–teacher training program [176] and a web-based training program for professionals aimed at improving interaction skills with people with IDDs [177] showed significant positive changes in CB.
Interventions in residential settings following a structured program for people with IDDs and ASD also reported positive trends in the reduction of CB [34,160,161]. For example, Gerber et al. (2011) detected significance in the domains of stereotypic behavior and inappropriate speech. Furthermore, treatment conducted by a team specializing in behavior therapy had significant effects on CB. Significant differences were detected in the overall ABC score and in the lethargy and hyperactivity/noncompliance subscale [163].
With regard to the therapies used, self-centered training or therapy for different levels of IDDs were also explored [162,165,169,173,178]. Positive results in reducing CB were identified in most of the studies. For example, cognitive training that focused on the participants’ attentional and visuospatial skills showed significant improvements on the hyperactivity/noncompliance subscale of the ABC [162]. Additionally, parent–child interaction therapy combined with visual support reduced the CB of a girl with IDD and autism spectrum disorder after the intervention was conducted [178]. However, relaxation activities using a multisensory environment or massage therapy based on the principles of muscle relaxation had no significant effect on problematic behavior [172].

4. Discussion

The main aim of this review was to identify the standardized instruments used to assess the CB exhibited by people with IDDs and to analyze their rigor and usefulness. Specifically, we aimed to explore (a) the psychometric characteristics and properties of these instruments, (b) the relationship between the CB assessed and the variables that might be related to it, and (c) the evidence provided by the literature in relation to the psychoeducational interventions carried out based on the results of the assessment of the CB. The results obtained in relation to these objectives attest to the current state of the subject. Our review identified 24 instruments that aimed to assess the CB exhibited by people with IDDs. Moreover, 23 studies explored the psychometric characteristics of some of these instruments using different samples and in different contexts. Similarly, 72 studies examined variables related to CB, and 23 studies considered the results of the different interventions carried out. The results we obtained are set out and discussed below.
First, this review identified 24 instruments that assess and identify different categories and types of CB exhibited by people with IDDs with different support needs throughout their life. Specifically, the validation work included samples ranging from 27 to 3457 participants with IDDs (at different levels) aged from 2 to 84 years. Based on international standards [60,61,62,63,65,66], the instruments showed good psychometric properties that guaranteed the validity and reliability of the results obtained. Sixteen of these instruments analyzed different types of CBs (ABC, ABC-C, ASD-BPA, ASD-PBC, BPI-01, BPI-S, PIMD BPI-PIMD, BPI-S-SCHOOL, CBI, CBQ, CCB, ECBI, SESBI-R, TPBCL, IBR-MOAS, and MOAS) and eight instruments concerned a single type of behavior (A-SHARP, C-SHARP, BSIQ, RBS-R, RBQ, SIT Scale, SBS, and SBS-R). The topographies of the selected behaviors were relevant, even though the dimensions that were used to evaluate them did not appear to be exhaustive [16]. For example, the CBQ [44] contains eight items that assess physical aggression, property destruction, and stereotypic and self-injurious behavior, whereas SBS-R [54] contains twenty-four items to assess stereotypic behavior. Additionally, CB is usually assessed in terms of the frequency and intensity of behaviors. However, some instruments also include other variables such as the duration of the behavior and its impact on the environment. CB needs to be addressed by understanding its nature, and the elements that help us to understand and define the behavior include the context that interacts with the behavior [1,10]. For example, the CBI [52] considers the difficulties in the management of CB, while the SIT Scale [45] qualifies the physical damage produced.
Second, 23 studies, covering nine instruments, continued to explore the psychometric properties of the selected measures or validated them in other populations. The BPI-01 is the most studied instrument [68,69,72,73,74,75,76,77,78,79,80,81,82] and has been translated into several languages [73,74,75,77,78,79]. The results of these studies indicate that the validations carried out had good psychometric properties. The other instruments also validated in different populations include BPI-S [82,83,84,85], RBS-S [86,87,88], ABC [67,68,69], ABC-C [70,71], and MOAS [59].
Third, 72 articles explored the relationship between CB and the variables that can be related to it. The instruments most commonly used to establish this relationship were the ABC, ABC-C, some versions of the BPI-01, or a combination of different instruments. Age [36,98,106,108,151]; the level of adaptive behavior, disability, and language [29,30,68,95,97,99,100,106,107,118,124,129,135,138,145,158]; the presence of autism spectrum disorder [32,95,99,100,103,107,115,116,117,119,120,126,129,141,143,145]; the type of diagnosis linked to a genetic syndrome [101,105,109,111,122,142,145,146,156,158]; psychiatric disorders associated with the severity of the disability [29,96,107,113,125,127,134,139,152,153,154,155,158]; medication and sleep problems [100,107], [113,129]; and the level of stress and emotional exhaustion of family members and caregivers [114,121,128,132,133,137,149,150] were the variables identified as being related to the occurrence of these behaviors. There appears to be robust evidence for some of the variables studied. For example, the presence of autism spectrum disorder appears to have an impact on the presence and occurrence of CB. The support needs and the adaptive behavior of people exhibiting CB also play an important role. The literature clearly indicates that children who need more behavioral support are more likely to exhibit CB [9,180].
Fourth, 23 studies used the identified instruments when designing and implementing behavioral interventions. The ABC [34,35,160,161,162,163,164,165,166,167,168,169] was the instrument most used when conducting these types of studies. The interventions carried out used diverse strategies such as active support, positive behavioral support, training of professionals, environmental changes, and cognitive–behavioral therapy. Positive behavioral support and applied behavioral analysis were the theoretical and practical approaches that underpinned an important part of the interventions. Undoubtedly, there is significant empirical evidence for these systems, and their strategies are considered evidence-based practices [181,182].
This review is not without limitations. First, it is possible that the number of studies analyzed and the breadth of the topics covered influenced the appropriate and precise selection of each of them. Although some strategies were implemented to reduce this issue, such as independent searches in different databases using the names of the instruments as keywords, we should be cautious in the assessment and interpretation of the results. In addition, our method excluded those instruments that assessed other skills, such as social or adaptive behavior, in addition to CB; doing so meant that we did not include all of the instruments that assess CB at some point. However, the identified instruments and the evidence reported in our literature review may help professionals and researchers to take further steps. Specifically, from a professional perspective, many instruments can be used when assessing the CB presented by people with intellectual disabilities. The BPI-01, ABC, and BPI-S appear to be the instruments most commonly used. Their solid psychometric properties, their targeting of more than one type of CB, and their applicability to all populations of people with ID may be some of the reasons for the common use of these instruments. These instruments could help professionals conducting functional assessments to understand behavior and design behavioral interventions [183,184]. Interestingly, little research has been conducted using instruments that focused on one type of CB, such as IBR-MOS, C-SHARP, A-SHARP, or RBS-R. Indeed, people with IDD are likely to present different types of CB based on their behavioral needs [6]. Future research should continue the development and validation of different instruments for the ID population in order to better understand and assess CB [140]. Moreover, understanding CB as the product of dynamic interactions between a complex series of variables that exist within individuals and their social environments [1,185] highlights the need for the development of new methods and systems to evaluate the impact of different personal and contextual variables on the manifestation of CB [186,187]. Research must continue to explore the relationship between different variables (individual and contextual) and the occurrence of CB. As shown in this review, most of the individual variables explored (such as gender, age, and IDD level) focused on the individual. However, the literature suggests that other contextual variables have a significant impact on the treatment of CB. Specifically, training affects professional competence, the emotional well-being of professionals, and the retention of staff in the job [121,188,189]. Moreover, efforts to explore the relationship between CB and other disorders are also needed.
Finally, research should make use of instruments when designing and implementing behavioral interventions. The instruments identified in this review aim to assess CB by understanding the behavior and providing the necessary support for people with IDDs. However, our review only identified 23 studies in this category. Although a high percentage of the studies indicated positive and significant results in reducing CB, relatively few (eight) included a control group. Of these, only one reported fidelity in the implementation of the treatment. Thus, the strategies used and the results obtained must be interpreted with caution, as they lack sufficient empirical validity. Further studies involving solid experimental designs in addition to appropriate replications are recommended.

5. Conclusions

The assessment of CB has generated a wide range of instruments to help professionals and researchers better understand these behaviors. Advances in the understanding of the CB exhibited by children, young adults, and adults with IDDs are necessary for the design of better intervention plans that meet their behavioral needs.
Most of the research included in this systematic review focused on the validation of these measures and also on exploring the relationship between the behavior and other variables. Building on advances in this field of knowledge, research should continue to develop new measures based on the latest understanding of CB, as well as exploring the effectiveness of interventions based on assessment results.

Author Contributions

Conceptualization, J.R.-M. and D.S.-P.; methodology, J.R.-M. and D.S.-P.; results, J.R.-M. and D.S.-P.; formal analysis, J.R.-M., D.S.-P. and J.F.-R.; writing—original draft preparation, J.R.-M., D.S.-P. and J.F.-R.; writing—review and editing, J.R.-M. and D.S.-P. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by the Fundació Recerca i Docència Mútua Terrassa 2021, Spain, grant number BE0160.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki, and approved by the Institutional Review Board (or Ethics Committee) of the Ramon Llull University (protocol code 2122012D and 3 June 2022).

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Ijerph 19 08701 g0a1 550
Figure A1. Search Strategy through Electronic Databases.
Figure A1. Search Strategy through Electronic Databases.
Ijerph 19 08701 g0a1

Appendix B

Ijerph 19 08701 g0a2 550
Figure A2. PRISMA Flow diagram.
Figure A2. PRISMA Flow diagram.
Ijerph 19 08701 g0a2

References

  1. Emerson, E.; Einfeld, S.L. Challenging Behaviour; Cambridge University Press: Cambridge, UK, 2011; ISBN 1139494538. [Google Scholar]
  2. Lew-Koralewicz, A.; Gagat-Matuła, A. QABF–Polish adaptation and validation of the tool for assessing the functions of challenging behaviors. Res. Dev. Disabil. 2021, 116, 104032. [Google Scholar] [CrossRef] [PubMed]
  3. Davies, L.E.; Oliver, C. Self-injury, aggression and destruction in children with severe intellectual disability: Incidence, persistence and novel, predictive behavioural risk markers. Res. Dev. Disabil. 2016, 49, 291–301. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  4. Ruddick, L.; Davies, L.; Bacarese-Hamilton, M.; Oliver, C. Self-injurious, aggressive and destructive behaviour in children with severe intellectual disability: Prevalence, service need and service receipt in the UK. Res. Dev. Disabil. 2015, 45, 307–315. [Google Scholar] [CrossRef] [PubMed]
  5. Simó-Pinatella, D.; Mumbardó-Adam, C.; Lowe, K.; Jones, E.; Cortina, A.; Alomar-Kurz, E.; Rodríguez, C.O. Exploring youth’s problem behavior prevalence in educational settings: Piloting the process. Adv. Neurodev. Disord. 2018, 2, 142–150. [Google Scholar] [CrossRef]
  6. Simó-Pinatella, D.; Mumbardó-Adam, C.; Alomar-Kurz, E.; Sugai, G.; Simonsen, B. Prevalence of challenging behaviors exhibited by children with disabilities: Mapping the literature. J. Behav. Educ. 2019, 28, 323–343. [Google Scholar] [CrossRef]
  7. Anderson, C.M.; Rodriguez, B.J.; Campbell, A. Functional behavior assessment in schools: Current status and future directions. J. Behav. Educ. 2015, 24, 338–371. [Google Scholar] [CrossRef]
  8. Dufrene, B.A.; Kazmerski, J.S.; Labrot, Z. The current status of indirect functional assessment instruments. Psychol. Sch. 2017, 54, 331–350. [Google Scholar] [CrossRef]
  9. Newcomb, E.T.; Hagopian, L.P. Treatment of severe problem behaviour in children with autism spectrum disorder and intellectual disabilities. Int. Rev. Psychiatry 2018, 30, 96–109. [Google Scholar] [CrossRef]
  10. Cooper, J.O.; Heron, T.E.; Heward, W.L. Applied Behavior Analysis; Merrill Publishing Company: Indianapolis, IN, USA, 2007. [Google Scholar]
  11. Crone, D.A.; Hawken, L.S.; Horner, R.H. Building Positive Behavior Support Systems in Schools: Functional Behavioral Assessment; Guilford Publications: New York, NY, USA, 2015; ISBN 1462519733. [Google Scholar]
  12. Dunlap, G.; Jackson, D.; y Greenwald, A. Positive behavior support for students with disabilities. In Handbook of Research-Based Practices for Educating Students with Intellectual Disability; Wehmeyery, M.L., Shogren, K.A., Eds.; Routledge: New York, NY, USA, 2017; ISBN 1315736195. [Google Scholar]
  13. Kelley, M.E.; LaRue, R.H.; Roane, H.S.; Gadaire, D.M. Indirect behavioral assessments. In Handbook of Applied Behavior Analysis; The Guilford Press: New York, NY, USA, 2011; pp. 182–190. [Google Scholar]
  14. Floyd, R.G.; Phaneuf, R.L.; Wilczynski, S.M. Measurement properties of indirect assessment methods for functional behavioral assessment: A review of research. Sch. Psych. Rev. 2005, 34, 58–73. [Google Scholar] [CrossRef]
  15. Chafouleas, S.M.; Johnson, A.H.; Riley-Tillman, T.C.; Iovino, E.A. School-Based Behavioral Assessment: Informing Prevention and Intervention; Guilford Publications: New York, NY, USA, 2021; ISBN 1462545262. [Google Scholar]
  16. Turton, R.W. Criterion-Related Validity of Challenging Behaviour Scales: A Review of Evidence in the Literature. J. Appl. Res. Intellect. Disabil. 2015, 28, 81–97. [Google Scholar] [CrossRef]
  17. Halvorsen, M.B.; Helverschou, S.B.; Axelsdottir, B.; Brøndbo, P.H.; Martinussen, M. General Measurement Tools for Assessing Mental Health Problems Among Children and Adolescents with an Intellectual Disability: A Systematic Review. J. Autism Dev. Disord. 2022, 1–73. [Google Scholar] [CrossRef] [PubMed]
  18. Limbu, B.; Unwin, G.; Deb, S.S. Comprehensive Assessment of Triggers for Behaviours of Concern Scale (CATS): Initial Development. Int. J. Environ. Res. Public Health 2021, 18, 10674. [Google Scholar] [CrossRef] [PubMed]
  19. Higgins, J.P.T.; Thomas, J.; Chandler, J.; Cumpston, M.; Li, T.; Page, M.J.; Welch, V.A. (Eds.) Cochrane Handbook for Systematic Reviews of Interventions; John Wiley & Sons: Hoboken, NJ, USA, 2019; ISBN 9781119536604. [Google Scholar]
  20. Salameh, J.-P.; Bossuyt, P.M.; McGrath, T.A.; Thombs, B.D.; Hyde, C.J.; Macaskill, P.; Deeks, J.J.; Leeflang, M.; Korevaar, D.A.; Whiting, P. Preferred reporting items for systematic review and meta-analysis of diagnostic test accuracy studies (PRISMA-DTA): Explanation, elaboration, and checklist. BMJ 2020, 370, m2632. [Google Scholar] [CrossRef] [PubMed]
  21. Matson, J.L.; Mahan, S.; Hess, J.A.; Fodstad, J.C.; Neal, D. Progression of challenging behaviors in children and adolescents with autism spectrum disorders as measured by the Autism Spectrum Disorders-Problem Behaviors for Children (ASD-PBC). Res. Autism Spectr. Disord. 2010, 4, 400–404. [Google Scholar] [CrossRef]
  22. Aunos, M.; Feldman, M.; Goupil, G. Mothering with intellectual disabilities: Relationship between social support, health and well-being, parenting and child behaviour outcomes. J. Appl. Res. Intellect. Disabil. 2008, 21, 320–330. [Google Scholar] [CrossRef]
  23. Begum, G.; Blacher, J. The siblings relationship of adolescents with and without intellectual disabilities. Res. Dev. Disabil. 2011, 32, 1580–1588. [Google Scholar] [CrossRef]
  24. Barron, D.A.; Molosankwe, I.; Romeo, R.; Hassiotis, A. Urban adolescents with intellectual disability and challenging behaviour: Costs and characteristics during transition to adult services. Health Soc. Care Community 2013, 21, 283–292. [Google Scholar] [CrossRef]
  25. Bennett, H.E.; Wood, C.L.; Hare, D.J. Providing care for adults with autistic spectrum disorders in learning disability services: Needs-based or diagnosis-driven? J. Appl. Res. Intellect. Disabil. 2005, 18, 57–64. [Google Scholar] [CrossRef]
  26. Unwin, G.; Deb, S. Psychiatric and behavioural assessment scales for adults with learning disabilities. Adv. Ment. Health Learn. Disabil. 2008, 2, 37–45. [Google Scholar] [CrossRef]
  27. Higgins, J.P.T.; Altman, D.G.; Gøtzsche, P.C.; Jüni, P.; Moher, D.; Oxman, A.D.; Savović, J.; Schulz, K.F.; Weeks, L.; Sterne, J.A.C. The Cochrane Collaboration’s tool for assessing risk of bias in randomised trials. BMJ 2011, 343, d5928. [Google Scholar] [CrossRef] [Green Version]
  28. Bernstein, A.M.; Visconti, K.J.; Csorba, J.; Radvanyi, K.; Rojahn, J. The relationship between challenging behaviours, mood and interest/pleasure in adults with severe and profound intellectual disabilities. J. Intellect. Disabil. Res. 2015, 59, 1033–1041. [Google Scholar] [CrossRef] [PubMed]
  29. Dinya, E.; Csorba, J.; Suli, A.; Grosz, Z. Behaviour profile of Hungarian adolescent outpatients with a dual diagnosis. Res. Dev. Disabil. 2012, 33, 1574–1580. [Google Scholar] [CrossRef] [PubMed]
  30. Koritsas, S.; Iacono, T. Predictors of challenging behaviour in adults with intellectual disability. Adv. Ment. Health Intellect. Disabil. 2015, 9, 312–326. [Google Scholar] [CrossRef]
  31. Rojahn, J.; Barnard-Brak, L.; Richman, D.; Dotson, W.; Medeiros, K.; Wei, T.; Abby, L. Behavior problems in individuals with Cornelia de Lange syndrome: Population-specific validation of the behavior problem Inventory-01. J. Dev. Phys. Disabil. 2013, 25, 505–515. [Google Scholar] [CrossRef]
  32. Rojahn, J.; Wilkins, J.; Matson, J.L.; Boisjoli, J. A comparison of adults with intellectual disabilities with and without ASD on parallel measures of challenging behaviour: The Behavior Problems Inventory-01 (BPI-01) and Autism Spectrum Disorders-Behavior Problems for Intellectually Disabled Adults (ASD-B. J. Appl. Res. Intellect. Disabil. 2010, 23, 179–185. [Google Scholar] [CrossRef]
  33. Schmidt, J.D.; Huete, J.M.; Fodstad, J.C.; Chin, M.D.; Kurtz, P.F. An evaluation of the Aberrant Behavior Checklist for children under age 5. Res. Dev. Disabil. 2013, 34, 1190–1197. [Google Scholar] [CrossRef] [Green Version]
  34. Gerber, F.; Baud, M.A.; Giroud, M.; Galli Carminati, G. Quality of life of adults with pervasive developmental disorders and intellectual disabilities. J. Autism Dev. Disord. 2008, 38, 1654–1665. [Google Scholar] [CrossRef]
  35. Smith, C.; Felce, D.; Jones, E.; Lowe, K. Responsiveness to staff support: Evaluating the impact of individual characteristics on the effectiveness of active support training using a conditional probability approach. J. Intellect. Disabil. Res. 2002, 46, 594–604. [Google Scholar] [CrossRef]
  36. Aman, M.G.; Singh, N.N.; Stewart, A.W.; Field, C.J. Psychometric characteristics of the aberrant behavior checklist. Am. J. Ment. Defic. 1985, 89, 492–502. [Google Scholar]
  37. Aman, M.G.; Burrow, W.H.; Wolford, P.L. The Aberrant Behavior Checklist-Community: Factor validity and effect of subject variables for adults in group homes. Am. J. Ment. Retard. 1995, 100, 283–292. [Google Scholar]
  38. Bodfish, J.W.; Symons, F.J.; Parker, D.E.; Lewis, M.H. Varieties of repetitive behavior in autism: Comparisons to mental retardation. J. Autism Dev. Disord. 2000, 30, 237–243. [Google Scholar] [CrossRef]
  39. Cohen, I.L.; Tsiouris, J.A.; Flory, M.J.; Kim, S.-Y.; Freedland, R.; Heaney, G.; Pettinger, J.; Ted Brown, W. A large scale study of the psychometric characteristics of the IBR modified overt aggression scale: Findings and evidence for increased self-destructive behaviors in adult females with autism spectrum disorder. J. Autism Dev. Disord. 2010, 40, 599–609. [Google Scholar] [CrossRef]
  40. Eyberg, S.M.; Pincus, D. ECBI & SESBI-R: Eyberg Child Behavior Inventory and Sutter-Eyberg Student Behavior Inventory-Revised: Professional Manual; Psychological Assessment Resources: Hillsboro, FL, USA, 1999. [Google Scholar]
  41. Farmer, C.A.; Aman, M.G. Development of the children’s scale of hostility and aggression: Reactive/proactive (C-SHARP). Res. Dev. Disabil. 2009, 30, 1155–1167. [Google Scholar] [CrossRef] [PubMed]
  42. Hanson, E.M.; Sideridis, G.; Jackson, F.I.; Porche, K.; Campe, K.L.; Huntington, N. Behavior and Sensory Interests Questionnaire: Validation in a sample of children with autism spectrum disorder and other developmental disability. Res. Dev. Disabil. 2016, 48, 160–175. [Google Scholar] [CrossRef] [PubMed]
  43. Harris, P.; Humphreys, J.; Thomson, G. A checklist of challenging behaviour: The development of a survey instrument. Ment. Handicap Res. 1994, 7, 118–133. [Google Scholar] [CrossRef]
  44. Hyman, P.; Oliver, C.; Hall, S. Self-injurious behavior, self-restraint, and compulsive behaviors in Cornelia de Lange syndrome. Am. J. Ment. Retard. 2002, 107, 146–154. [Google Scholar] [CrossRef]
  45. Iwata, B.A.; Pace, G.M.; Kissel, R.C.; Nau, P.A.; Farber, J.M. The self-injury trauma (SIT) scale: A method for quantifying surface tissue damage caused by self-injurious behavior. J. Appl. Behav. Anal. 1990, 23, 99–110. [Google Scholar] [CrossRef] [Green Version]
  46. Kay, S.R.; Wolkenfeld, F.; Murrill, L.M. Profiles of aggression among psychiatric patients: I. Nature and prevalence. J. Nerv. Ment. Dis. 1988, 176, 539–546. [Google Scholar] [CrossRef]
  47. Matlock, S.T.; Aman, M.G. Development of the adult scale of hostility and aggression: Reactive–proactive (A-SHARP). Am. J. Intellect. Dev. Disabil. 2011, 116, 130–141. [Google Scholar] [CrossRef]
  48. Matson, J.L.; Gonzalez, M.L.; Rivet, T.T. Reliability of the autism spectrum disorder-behavior problems for children (ASD-BPC). Res. Autism Spectr. Disord. 2008, 2, 696–706. [Google Scholar] [CrossRef]
  49. Matson, J.L.; Rivet, T.T. A validity study of the autism spectrum disorders—behavior problems for adults (ASD-BPA) Scale. J. Dev. Phys. Disabil. 2007, 19, 557–564. [Google Scholar] [CrossRef]
  50. Moss, J.; Oliver, C. The Repetitive Behaviour Scale. Manual for Administration and Scorer Interpretation; University Birmingham: Birmingham, UK, 2008. [Google Scholar]
  51. Nicholls, G.; Hastings, R.P.; Grindle, C. Prevalence and correlates of challenging behaviour in children and young people in a special school setting. Eur. J. Spec. Needs Educ. 2020, 35, 40–54. [Google Scholar] [CrossRef]
  52. Oliver, C.; McClintock, K.; Hall, S.; Smith, M.; Dagnan, D.; Stenfert-Kroese, B. Assessing the severity of challenging behaviour: Psychometric properties of the challenging behaviour interview. J. Appl. Res. Intellect. Disabil. 2003, 16, 53–61. [Google Scholar] [CrossRef] [Green Version]
  53. Poppes, P.; Van Der Putten, A.J.J.; Post, W.J.; Vlaskamp, C. Risk factors associated with challenging behaviour in people with profound intellectual and multiple disabilities. J. Intellect. Disabil. Res. 2016, 60, 537–552. [Google Scholar] [CrossRef]
  54. Rojahn, J.; Matlock, S.T.; Tassé, M.J. The stereotyped behavior scale: Psychometric properties and norms. Res. Dev. Disabil. 2000, 21, 437–454. [Google Scholar] [CrossRef]
  55. Rojahn, J.; Matson, J.L.; Lott, D.; Esbensen, A.J.; Smalls, Y. The Behavior Problems Inventory: An instrument for the assessment of self-injury, stereotyped behavior, and aggression/destruction in individuals with developmental disabilities. J. Autism Dev. Disord. 2001, 31, 577–588. [Google Scholar] [CrossRef]
  56. Rojahn, J.; Rowe, E.W.; Sharber, A.C.; Hastings, R.; Matson, J.L.; Didden, R.; Kroes, D.B.H.; Dumont, E.L.M. The Behavior Problems Inventory-Short Form for individuals with intellectual disabilities: Part I: Development and provisional clinical reference data. J. Intellect. Disabil. Res. 2012, 56, 527–545. [Google Scholar] [CrossRef] [PubMed]
  57. Rojahn, J.; Tassé, M.J.; Sturmey, P. The Stereotyped Behavior Scale for adolescents and adults with mental retardation. Am. J. Ment. Retard. 1997, 102, 137–146. [Google Scholar] [CrossRef]
  58. Tyrer, P.; Nagar, J.; Evans, R.; Oliver, P.; Bassett, P.; Liedtka, N.; Tarabi, A. The Problem Behaviour Checklist: Short scale to assess challenging behaviours. BJPsych Open 2016, 2, 45–49. [Google Scholar] [CrossRef] [Green Version]
  59. Oliver, P.C.; Crawford, M.J.; Rao, B.; Reece, B.; Tyrer, P. Modified Overt Aggression Scale (MOAS) for people with intellectual disability and aggressive challenging behaviour: A reliability study. J. Appl. Res. Intellect. Disabil. 2007, 20, 368–372. [Google Scholar] [CrossRef]
  60. Cicchetti, D. V Interreliability Standards in Psychological Evaluations. Psychol. Assess. 1994, 6, 284–290. [Google Scholar] [CrossRef]
  61. DeVellis, R.F. Applied social research methods series. In Scale Development: Theory and Applications; Brickman, L., Rog, D.J., Eds.; Sage: Thousand Oaks, CA, USA, 1991. [Google Scholar]
  62. Hinkle, D.E.; Wiersma, W.; Jurs, S.G. Applied Statistics for the Behavioral Sciences; Houghton Mifflin College Division: Boston, MA, USA, 2003; Volume 663. [Google Scholar]
  63. Kendall, M.G. A new measure of rank correlation. Biometrika 1938, 30, 81–93. [Google Scholar] [CrossRef]
  64. Camilli, G.; Holland, P.W.; Wainer, H. The case against item bias detection techniques based on internal criteria. In Differential Item Functioning: Theory and Practice; Erlbaum: Hillsdale, NJ, USA, 1993. [Google Scholar]
  65. Cicchetti, D.V.; Sparrow, S.A. Developing criteria for establishing interrater reliability of specific items: Applications to assessment of adaptive behavior. Am. J. Ment. Defic. 1981, 86, 127–137. [Google Scholar] [PubMed]
  66. Landis, J.R.; Koch, G.G. The Measurement of Observer Agreement for Categorical Data. Biometrics 1977, 33, 159–174. [Google Scholar] [CrossRef] [Green Version]
  67. Halvorsen, M.; Aman, M.G.; Mathiassen, B.; Brøndbo, P.H.; Steinsvik, O.O.; Martinussen, M. Psychometric properties of the Norwegian aberrant behavior checklist and diagnostic relationships in a neuro-pediatric sample. J. Ment. Health Res. Intellect. Disabil. 2019, 12, 234–255. [Google Scholar] [CrossRef]
  68. Rojahn, J.; Schroeder, S.R.; Mayo-Ortega, L.; Oyama-Ganiko, R.; LeBlanc, J.; Marquis, J.; Berke, E. Validity and reliability of the Behavior Problems Inventory, the Aberrant Behavior Checklist, and the Repetitive Behavior Scale–Revised among infants and toddlers at risk for intellectual or developmental disabilities: A multi-method assessment approach. Res. Dev. Disabil. 2013, 34, 1804–1814. [Google Scholar] [CrossRef] [Green Version]
  69. Hill, J.; Powlitch, S.; Furniss, F. Convergent validity of the aberrant behavior checklist and behavior problems inventory with people with complex needs. Res. Dev. Disabil. 2008, 29, 45–60. [Google Scholar] [CrossRef]
  70. Brown, E.C.; Aman, M.G.; Havercamp, S.M. Factor analysis and norms for parent ratings on the Aberrant Behavior Checklist-Community for young people in special education. Res. Dev. Disabil. 2002, 23, 45–60. [Google Scholar] [CrossRef]
  71. Zeilinger, E.L.; Weber, G.; Haveman, M.J. Psychometric properties and norms of the German ABC-Community and PAS-ADD Checklist. Res. Dev. Disabil. 2011, 32, 2431–2440. [Google Scholar] [CrossRef]
  72. Rojahn, J.; Rick-Betancourt, B.; Barnard-Brak, L.; Moore, L. An Independent Investigation Into the Psychometric Properties of the Adult Scale of Hostility and Aggression (A-SHARP). J. Ment. Health Res. Intellect. Disabil. 2017, 10, 253–266. [Google Scholar] [CrossRef]
  73. An, X.; Rojahn, J.; Curby, T.W.; Ding, Y. Psychometric properties of the Chinese Behavior Problems Inventory-01 in children and adolescents with or at risk for intellectual disabilities. Res. Dev. Disabil. 2015, 36, 256–263. [Google Scholar] [CrossRef] [PubMed]
  74. Baraldi, G.d.S.; Rojahn, J.; Seabra, A.G.; Carreiro, L.R.R.; Teixeira, M.C.T.V. Translation, adaptation, and preliminary validation of the Brazilian version of the Behavior Problems Inventory (BPI-01). Trends Psychiatry Psychother. 2013, 35, 198–211. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  75. Dumont, E.; Kroes, D.; Korzilius, H.; Didden, R.; Rojahn, J. Psychometric properties of a Dutch version of the Behavior Problems Inventory-01 (BPI-01). Res. Dev. Disabil. 2014, 35, 603–610. [Google Scholar] [CrossRef] [PubMed]
  76. Gonzalez, M.L.; Dixon, D.R.; Rojahn, J.; Esbensen, A.J.; Matson, J.L.; Terlonge, C.; Smith, K.R. The Behavior Problems Inventory: Reliability and factor validity in institutionalized adults with intellectual disabilities. J. Appl. Res. Intellect. Disabil. 2009, 22, 223–235. [Google Scholar] [CrossRef]
  77. Jeong, B.; Yoo, E.; Jung, M.; Kang, D.; Park, S.; Park, S.H. Validity and Reliability of the K orean Version of the Behaviour Problems Inventory. J. Appl. Res. Intellect. Disabil. 2013, 26, 578–590. [Google Scholar] [CrossRef] [PubMed]
  78. Lundqvist, L.-O. Psychometric properties and factor structure of the Behavior Problems Inventory (BPI-01) in a Swedish community population of adults with intellectual disability. Res. Dev. Disabil. 2011, 32, 2295–2303. [Google Scholar] [CrossRef]
  79. Mircea, C.E.; Rojahn, J.; Esbensen, A.J. Psychometric evaluation of romanian translations of the behavior problems inventory-01 and the nisonger child behavior rating form. J. Ment. Health Res. Intellect. Disabil. 2010, 3, 51–65. [Google Scholar] [CrossRef]
  80. Rojahn, J.; Rowe, E.W.; Macken, J.; Gray, A.; Delitta, D.; Booth, A.; Kimbrell, K. Psychometric evaluation of the Behavior Problems Inventory-01 and the Nisonger Child Behavior Rating Form with children and adolescents. J. Ment. Health Res. Intellect. Disabil. 2010, 3, 28–50. [Google Scholar] [CrossRef]
  81. Van Ingen, D.J.; Moore, L.L.; Zaja, R.H.; Rojahn, J. The Behavior Problems Inventory (BPI-01) in community-based adults with intellectual disabilities: Reliability and concurrent validity vis-à-vis the Inventory for Client and Agency Planning (ICAP). Res. Dev. Disabil. 2010, 31, 97–107. [Google Scholar] [CrossRef]
  82. Barnard-Brak, L.; Rojahn, J.; Wei, T. Psychometric analysis of the behavior problems inventory using an item-response theory framework: A sample of individuals with intellectual disabilities. J. Psychopathol. Behav. Assess. 2013, 35, 564–577. [Google Scholar] [CrossRef]
  83. Inoue, M.; Inada, N.; Gomi, Y.; Aita, C.; Shiga, T. Reliability and validity of the Japanese version of the Behavior Problem Inventory-Short Form. Brain Dev. 2021, 43, 673–679. [Google Scholar] [CrossRef] [PubMed]
  84. Mascitelli, A.N.; Rojahn, J.; Nicolaides, V.C.; Moore, L.; Hastings, R.P.; Christian-Jones, C. The behaviour problems inventory-short form: Reliability and factorial validity in adults with intellectual disabilities. J. Appl. Res. Intellect. Disabil. 2015, 28, 561–571. [Google Scholar] [CrossRef] [PubMed]
  85. Oubrahim, L.; Combalbert, N. Behaviour problems in people with intellectual disabilities: Validation of the French version of the Behaviour Problems Inventory–Short Form. J. Intellect. Disabil. Res. 2019, 63, 466–476. [Google Scholar] [CrossRef] [PubMed]
  86. Inada, N.; Ito, H.; Yasunaga, K.; Kuroda, M.; Iwanaga, R.; Hagiwara, T.; Tani, I.; Yukihiro, R.; Uchiyama, T.; Ogasahara, K. Psychometric properties of the Repetitive Behavior Scale-Revised for individuals with autism spectrum disorder in Japan. Res. Autism Spectr. Disord. 2015, 15, 60–68. [Google Scholar] [CrossRef]
  87. Kästel, I.S.; Vllasaliu, L.; Wellnitz, S.; Cholemkery, H.; Freitag, C.M.; Bast, N. Repetitive behavior in children and adolescents: Psychometric properties of the German version of the repetitive behavior scale-revised. J. Autism Dev. Disord. 2021, 51, 1224–1237. [Google Scholar] [CrossRef]
  88. Martínez-González, A.E.; Piqueras, J.A. Validation of the Repetitive Behavior Scale-Revised in Spanish-speakers participants with autism spectrum disorder. J. Autism Dev. Disord. 2018, 48, 198–208. [Google Scholar] [CrossRef]
  89. Aman, M.G.; Tassé, M.J.; Rojahn, J.; Hammer, D. The Nisonger CBRF: A child behavior rating form for children with developmental disabilities. Res. Dev. Disabil. 1996, 17, 41–57. [Google Scholar] [CrossRef]
  90. Bruininks, R.H.; Hill, B.K.; Weatherman, R.F.; Woodcock, R.W. Inventory for Client and Agency Planning; DLM Teaching Resources. Rural. Spec. Educ. Q. 1986, 6, 58–59. [Google Scholar] [CrossRef]
  91. Aman, G.M.; Singh, N.N.; Ono, Y. Clinical Evaluation of Aberrant Behavior Checklist Japanese Version (ABC-J); Jiho: Tokyo, Japan, 2006. [Google Scholar]
  92. Bölte, S.; Poustka, F.; Constantino, J.N. Assessing autistic traits: Cross-cultural validation of the social responsiveness scale (SRS). Autism Res. 2008, 1, 354–363. [Google Scholar] [CrossRef]
  93. Rutter, M.; Bailey, A.; Lord, C. The Social Communication Questionnaire: Manual; Western Psychological Services: Los Angeles, CA, USA, 2003; ISBN 0729525597. [Google Scholar]
  94. Chadwick, O.; Kusel, Y.; Cuddy, M.; Taylor, E. Psychiatric diagnoses and behaviour problems from childhood to early adolescence in young people with severe intellectual disabilities. Psychol. Med. 2005, 35, 751–760. [Google Scholar] [CrossRef]
  95. Felce, D.; Kerr, M. Investigating low adaptive behaviour and presence of the triad of impairments characteristic of autistic spectrum disorder as indicators of risk for challenging behaviour among adults with intellectual disabilities. J. Intellect. Disabil. Res. 2013, 57, 128–138. [Google Scholar] [CrossRef] [PubMed]
  96. Felce, D.; Kerr, M.; Hastings, R.P. A general practice-based study of the relationship between indicators of mental illness and challenging behaviour among adults with intellectual disabilities. J. Intellect. Disabil. Res. 2009, 53, 243–254. [Google Scholar] [CrossRef]
  97. Felce, D.; Perry, J.; Lowe, K.; Jones, E. The impact of autism or severe challenging behaviour on lifestyle outcome in community housing. J. Appl. Res. Intellect. Disabil. 2011, 24, 95–104. [Google Scholar] [CrossRef]
  98. Helverschou, S.B.; Bakken, T.L.; Berge, H.; Bjørgen, T.G.; Botheim, H.; Hellerud, J.A.; Helseth, I.; Hove, O.; Johansen, P.A.; Kildahl, A.N. Preliminary Findings From a Nationwide, Multicenter Mental Health Service for Adults and Older Adolescents With Autism Spectrum Disorder and ID. J. Policy Pract. Intellect. Disabil. 2021, 18, 162–173. [Google Scholar] [CrossRef]
  99. Myrbakk, E.; Von Tetzchner, S. The prevalence of behavior problems among people with intellectual disability living in community settings. J. Ment. Health Res. Intellect. Disabil. 2008, 1, 205–222. [Google Scholar] [CrossRef]
  100. Rattaz, C.; Michelon, C.; Munir, K.; Baghdadli, A. Challenging behaviours at early adulthood in autism spectrum disorders: Topography, risk factors and evolution. J. Intellect. Disabil. Res. 2018, 62, 637–649. [Google Scholar] [CrossRef]
  101. Kaat, A.J.; Zelko, F.; Wilkening, G.; Berg, A.T. Evaluation of the Aberrant Behavior Checklist for Developmental and Epileptic Encephalopathies. Epilepsy Behav. 2021, 119, 107958. [Google Scholar] [CrossRef]
  102. Rose, J.; Willner, P.; Shead, J.; Jahoda, A.; Gillespie, D.; Townson, J.; Lammie, C.; Woodgate, C.; Stenfert Kroese, B.; Felce, D. Different factors influence self-reports and third-party reports of anger by adults with intellectual disabilities. J. Appl. Res. Intellect. Disabil. 2013, 26, 410–419. [Google Scholar] [CrossRef]
  103. Sappok, T.; Budczies, J.; Dziobek, I.; Bölte, S.; Dosen, A.; Diefenbacher, A. The missing link: Delayed emotional development predicts challenging behavior in adults with intellectual disability. J. Autism Dev. Disord. 2014, 44, 786–800. [Google Scholar] [CrossRef]
  104. Kurtz, P.F.; Chin, M.D.; Huete, J.M.; Cataldo, M.F. Identification of emerging self-injurious behavior in young children: A preliminary study. J. Ment. Health Res. Intellect. Disabil. 2012, 5, 260–285. [Google Scholar] [CrossRef]
  105. DiStefano, C.; Wilson, R.B.; Hyde, C.; Cook, E.H.; Thibert, R.L.; Reiter, L.T.; Vogel-Farley, V.; Hipp, J.; Jeste, S. Behavioral characterization of dup15q syndrome: Toward meaningful endpoints for clinical trials. Am. J. Med. Genet. Part A 2020, 182, 71–84. [Google Scholar] [CrossRef] [PubMed]
  106. Blickwedel, J.; Vickerstaff, V.; Walker, M.; Hassiotis, A. Challenging behaviour, epilepsy and intellectual disability: A secondary analysis of findings from a randomised controlled trial. J. Intellect. Dev. Disabil. 2019, 44, 457–463. [Google Scholar] [CrossRef]
  107. Folch, A.; Cortés, M.J.; Salvador-Carulla, L.; Vicens, P.; Irazábal, M.; Munoz, S.; Rovira, L.; Orejuela, C.; Haro, J.M.; Vilella, E. Risk factors and topographies for self-injurious behaviour in a sample of adults with intellectual developmental disorders. J. Intellect. Disabil. Res. 2018, 62, 1018–1029. [Google Scholar] [CrossRef] [PubMed]
  108. Hustyi, K.M.; Hall, S.S.; Jo, B.; Lightbody, A.A.; Reiss, A.L. Longitudinal trajectories of aberrant behavior in fragile X syndrome. Res. Dev. Disabil. 2014, 35, 2691–2701. [Google Scholar] [CrossRef] [Green Version]
  109. Huxley, A.; Van-Schaik, P.; Witts, P. A comparison of challenging behaviour in an adult group with Down’s syndrome and dementia compared with an adult Down’s syndrome group without dementia. Br. J. Learn. Disabil. 2005, 33, 188–193. [Google Scholar] [CrossRef]
  110. Nevill, R.E.; Benson, B.A. Risk factors for challenging behaviour and psychopathology in adults with Down syndrome. J. Intellect. Disabil. Res. 2018, 62, 941–951. [Google Scholar] [CrossRef]
  111. Burdeus-Olavarrieta, M.; San José-Cáceres, A.; García-Alcón, A.; González-Peñas, J.; Hernández-Jusdado, P.; Parellada-Redondo, M. Characterisation of the clinical phenotype in Phelan-McDermid syndrome. J. Neurodev. Disord. 2021, 13, 26. [Google Scholar] [CrossRef]
  112. Oliver, C.; Sloneem, J.; Hall, S.; Arron, K. Self-injurious behaviour in Cornelia de Lange syndrome: 1. Prevalence and phenomenology. J. Intellect. Disabil. Res. 2009, 53, 575–589. [Google Scholar] [CrossRef] [Green Version]
  113. Rzepecka, H.; McKenzie, K.; McClure, I.; Murphy, S. Sleep, anxiety and challenging behaviour in children with intellectual disability and/or autism spectrum disorder. Res. Dev. Disabil. 2011, 32, 2758–2766. [Google Scholar] [CrossRef] [Green Version]
  114. Unwin, G.; Deb, S. Family caregiver uplift and burden: Associations with aggressive behavior in adults with intellectual disability. J. Ment. Health Res. Intellect. Disabil. 2011, 4, 186–205. [Google Scholar] [CrossRef]
  115. Horovitz, M.; Matson, J.L.; Hattier, M.A.; Tureck, K.; Bamburg, J.W. Challenging behaviors in adults with intellectual disability: The effects of race and autism spectrum disorders. J. Ment. Health Res. Intellect. Disabil. 2013, 6, 1–13. [Google Scholar] [CrossRef]
  116. Matson, J.L.; Rivet, T.T. The effects of severity of autism and PDD-NOS symptoms on challenging behaviors in adults with intellectual disabilities. J. Dev. Phys. Disabil. 2008, 20, 41–51. [Google Scholar] [CrossRef]
  117. Smith, K.R.M.; Matson, J.L. Behavior problems: Differences among intellectually disabled adults with co-morbid autism spectrum disorders and epilepsy. Res. Dev. Disabil. 2010, 31, 1062–1069. [Google Scholar] [CrossRef] [PubMed]
  118. Tureck, K.; Matson, J.L.; Beighley, J.S. An investigation of self-injurious behaviors in adults with severe intellectual disabilities. Res. Dev. Disabil. 2013, 34, 2469–2474. [Google Scholar] [CrossRef] [PubMed]
  119. García-Villamisar, D.; Dattilo, J.; Matson, J.L. Quality of life as a mediator between behavioral challenges and autistic traits for adults with intellectual disabilities. Res. Autism Spectr. Disord. 2013, 7, 624–629. [Google Scholar] [CrossRef]
  120. Matson, J.L.; Wilkins, J.; Macken, J. The relationship of challenging behaviors to severity and symptoms of autism spectrum disorders. J. Ment. Health Res. Intellect. Disabil. 2008, 2, 29–44. [Google Scholar] [CrossRef]
  121. Nevill, R.E.; Istvan, E.M.; Havercamp, S.M. The Effects of Aggression Subtypes on Burnout and Caregiver Instability in Direct Support Professionals. J. Posit. Behav. Interv. 2021, 24, 99–109. [Google Scholar] [CrossRef]
  122. Alaimo, J.T.; Barton, L.V.; Mullegama, S.V.; Wills, R.D.; Foster, R.H.; Elsea, S.H. Individuals with Smith-Magenis syndrome display profound neurodevelopmental behavioral deficiencies and exhibit food-related behaviors equivalent to Prader-Willi syndrome. Res. Dev. Disabil. 2015, 47, 27–38. [Google Scholar] [CrossRef]
  123. Barnard-Brak, L.; Rojahn, J.; Richman, D.M.; Chesnut, S.R.; Wei, T. Stereotyped behaviors predicting self-injurious behavior in individuals with intellectual disabilities. Res. Dev. Disabil. 2015, 36, 419–427. [Google Scholar] [CrossRef]
  124. Csorba, J.; Radvanyi, K.; Regenyi, E.; Dinya, E. A study of behaviour profiles among intellectually disabled people in residential care in Hungary. Res. Dev. Disabil. 2011, 32, 1757–1763. [Google Scholar] [CrossRef]
  125. Grey, I.; Pollard, J.; McClean, B.; MacAuley, N.; Hastings, R. Prevalence of psychiatric diagnoses and challenging behaviors in a community-based population of adults with intellectual disability. J. Ment. Health Res. Intellect. Disabil. 2010, 3, 210–222. [Google Scholar] [CrossRef]
  126. Griffith, G.M.; Hastings, R.P.; Nash, S.; Hill, C. Using matched groups to explore child behavior problems and maternal well-being in children with Down syndrome and autism. J. Autism Dev. Disord. 2010, 40, 610–619. [Google Scholar] [CrossRef] [PubMed]
  127. Kearney, D.S.; Healy, O. Investigating the relationship between challenging behavior, co-morbid psychopathology and social skills in adults with moderate to severe intellectual disabilities in Ireland. Res. Dev. Disabil. 2011, 32, 1556–1563. [Google Scholar] [CrossRef] [PubMed]
  128. Lambrechts, G.; Kuppens, S.; Maes, B. Staff variables associated with the challenging behaviour of clients with severe or profound intellectual disabilities. J. Intellect. Disabil. Res. 2009, 53, 620–632. [Google Scholar] [CrossRef] [PubMed]
  129. Lundqvist, L.-O. Prevalence and risk markers of behavior problems among adults with intellectual disabilities: A total population study in Örebro County, Sweden. Res. Dev. Disabil. 2013, 34, 1346–1356. [Google Scholar] [CrossRef]
  130. Matson, J.L.; Wilkins, J. Factors associated with the questions about behavior function for functional assessment of low and high rate challenging behaviors in adults with intellectual disability. Behav. Modif. 2009, 33, 207–219. [Google Scholar] [CrossRef]
  131. Murphy, O.; Healy, O.; Leader, G. Risk factors for challenging behaviors among 157 children with autism spectrum disorder in Ireland. Res. Autism Spectr. Disord. 2009, 3, 474–482. [Google Scholar] [CrossRef]
  132. Rose, J.; Nelson, L.; Hardiman, R. The relationship between challenging behaviour, cognitions and stress in mothers of individuals with intellectual disabilities. Behav. Cogn. Psychother. 2016, 44, 691–704. [Google Scholar] [CrossRef]
  133. Smyth, E.; Healy, O.; Lydon, S. An analysis of stress, burnout, and work commitment among disability support staff in the UK. Res. Dev. Disabil. 2015, 47, 297–305. [Google Scholar] [CrossRef]
  134. Thorson, R.T.; Matson, J.L.; Rojahn, J.; Dixon, D.R. Behaviour problems in institutionalised people with intellectual disability and schizophrenia spectrum disorders. J. Intellect. Dev. Disabil. 2008, 33, 316–322. [Google Scholar] [CrossRef]
  135. van Ool, J.S.; Snoeijen-Schouwenaars, F.M.; Tan, I.Y.; Schelhaas, H.J.; Aldenkamp, A.P.; Hendriksen, J.G.M. Challenging behavior in adults with epilepsy and intellectual disability: An analysis of epilepsy characteristics. Epilepsy Behav. 2018, 86, 72–78. [Google Scholar] [CrossRef] [PubMed]
  136. Poppes, P.; Van der Putten, A.A.J.; Vlaskamp, C. Addressing challenging behavior in people with profound intellectual and multiple disabilities: Analyzing the effects of daily practice. J. Policy Pract. Intellect. Disabil. 2014, 11, 128–136. [Google Scholar] [CrossRef]
  137. Schroeder, S.R.; Marquis, J.G.; Reese, R.M.; Richman, D.M.; Mayo-Ortega, L.; Oyama-Ganiko, R.; LeBlanc, J.; Brady, N.; Butler, M.G.; Johnson, T. Risk factors for self-injury, aggression, and stereotyped behavior among young children at risk for intellectual and developmental disabilities. Am. J. Intellect. Dev. Disabil. 2014, 119, 351–370. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  138. Bowring, D.L.; Totsika, V.; Hastings, R.P.; Toogood, S.; Griffith, G.M. Challenging behaviours in adults with an intellectual disability: A total population study and exploration of risk indices. Br. J. Clin. Psychol. 2017, 56, 16–32. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  139. Painter, J.; Hastings, R.; Ingham, B.; Trevithick, L.; Roy, A. Associations between mental health problems and challenging behavior in adults with intellectual disabilities: A test of the behavioral equivalents hypothesis. J. Ment. Health Res. Intellect. Disabil. 2018, 11, 157–172. [Google Scholar] [CrossRef]
  140. Bond, L.; Carroll, R.; Mulryan, N.; O’Dwyer, M.; O’Connell, J.; Monaghan, R.; Sheerin, F.; McCallion, P.; McCarron, M. The association of life events and mental ill health in older adults with intellectual disability: Results of the wave 3 intellectual disability supplement to the Irish longitudinal study on ageing. J. Intellect. Disabil. Res. 2019, 63, 454–465. [Google Scholar] [CrossRef]
  141. Leader, G.; Hogan, A.; Chen, J.L.; Maher, L.; Naughton, K.; O’Rourke, N.; Casburn, M.; Mannion, A. Age of autism spectrum disorder diagnosis and comorbidity in children and adolescents with autism spectrum disorder. Dev. Neurorehabil. 2022, 25, 29–37. [Google Scholar] [CrossRef]
  142. Fetta, A.; Soliani, L.; Trevisan, A.; Pugliano, R.; Ricci, E.; Di Pisa, V.; Pignataro, V.; Angotti, M.; Rocca, A.; Salce, B. Cognitive, Behavioral, and Sensory Profile of Pallister–Killian Syndrome: A Prospective Study of 22 Individuals. Genes 2022, 13, 356. [Google Scholar] [CrossRef]
  143. Oubrahim, L.; Combalbert, N. Frequency and origin (reactive/proactive) of aggressive behavior in young people with intellectual disability and autism spectrum disorder. Int. J. Dev. Disabil. 2021, 67, 209–216. [Google Scholar] [CrossRef]
  144. Eden, K.E.; De Vries, P.J.; Moss, J.; Richards, C.; Oliver, C. Self-injury and aggression in tuberous sclerosis complex: Cross syndrome comparison and associated risk markers. J. Neurodev. Disord. 2014, 6, 10. [Google Scholar] [CrossRef] [Green Version]
  145. Richards, C.; Oliver, C.; Nelson, L.; Moss, J. Self-injurious behaviour in individuals with autism spectrum disorder and intellectual disability. J. Intellect. Disabil. Res. 2012, 56, 476–489. [Google Scholar] [CrossRef] [Green Version]
  146. Wilde, L.; Eden, K.; de Vries, P.; Moss, J.; Welham, A.; Oliver, C. Self-injury and aggression in adults with tuberous sclerosis complex: Frequency, associated person characteristics, and implications for assessment. Res. Dev. Disabil. 2017, 64, 119–130. [Google Scholar] [CrossRef]
  147. Davies, B.; Frude, N.; Jenkins, R.; Harding, C.; Hill, C. A preliminary study into the relationship between emotional perception ability and challenging behaviour in adults with an intellectual disability. J. Intellect. Disabil. 2014, 18, 382–392. [Google Scholar] [CrossRef] [PubMed]
  148. Davies, B.E.; Frude, N.; Jenkins, R.; Hill, C.; Harding, C. A study examining the relationship between alexithymia and challenging behaviour in adults with intellectual disability. J. Intellect. Disabil. Res. 2015, 59, 1022–1032. [Google Scholar] [CrossRef] [PubMed]
  149. Mills, S.; Rose, J. The relationship between challenging behaviour, burnout and cognitive variables in staff working with people who have intellectual disabilities. J. Intellect. Disabil. Res. 2011, 55, 844–857. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  150. Rose, J.; Mills, S.; Silva, D.; Thompson, L. Client characteristics, organizational variables and burnout in care staff: The mediating role of fear of assault. Res. Dev. Disabil. 2013, 34, 940–947. [Google Scholar] [CrossRef]
  151. Thompson, C.L.; Reid, A. Behavioural symptoms among people with severe and profound intellectual disabilities: A 26-year follow-up study. Br. J. Psychiatry 2002, 181, 67–71. [Google Scholar] [CrossRef] [Green Version]
  152. Tsiouris, J.A.; Kim, S.Y.; Brown, W.T.; Cohen, I.L. Association of aggressive behaviours with psychiatric disorders, age, sex and degree of intellectual disability: A large-scale survey. J. Intellect. Disabil. Res. 2011, 55, 636–649. [Google Scholar] [CrossRef]
  153. Clark, M.; Crocker, A.G.; Morin, D. Victimization history and aggressive behavior among adults with intellectual disabilities: The mediating role of mental health. Int. J. Forensic Ment. Health 2016, 15, 301–311. [Google Scholar] [CrossRef]
  154. Crocker, A.G.; Mercier, C.; Allaire, J.; Roy, M. Profiles and correlates of aggressive behaviour among adults with intellectual disabilities. J. Intellect. Disabil. Res. 2007, 51, 786–801. [Google Scholar] [CrossRef]
  155. Crocker, A.G.; Prokić, A.; Morin, D.; Reyes, A. Intellectual disability and co-occurring mental health and physical disorders in aggressive behaviour. J. Intellect. Disabil. Res. 2014, 58, 1032–1044. [Google Scholar] [CrossRef]
  156. Moss, J.; Oliver, C.; Arron, K.; Burbidge, C.; Berg, K. The prevalence and phenomenology of repetitive behavior in genetic syndromes. J. Autism Dev. Disord. 2009, 39, 572–588. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  157. Hoch, J.; Spofford, L.; Dimian, A.; Tervo, R.; MacLean, W.E.; Symons, F.J. A direct comparison of self-injurious and stereotyped motor behavior between preschool-aged children with and without developmental delays. J. Pediatr. Psychol. 2016, 41, 566–572. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  158. Oakes, A.; Thurman, A.J.; McDuffie, A.; Bullard, L.M.; Hagerman, R.J.; Abbeduto, L. Characterising repetitive behaviours in young boys with fragile X syndrome. J. Intellect. Disabil. Res. 2016, 60, 54–67. [Google Scholar] [CrossRef] [Green Version]
  159. Wolff, J.J.; Bodfish, J.W.; Hazlett, H.C.; Lightbody, A.A.; Reiss, A.L.; Piven, J. Evidence of a distinct behavioral phenotype in young boys with fragile X syndrome and autism. J. Am. Acad. Child Adolesc. Psychiatry 2012, 51, 1324–1332. [Google Scholar] [CrossRef] [Green Version]
  160. Carminati, G.G.; Gerber, F.; Baud, M.A.; Baud, O. Evaluating the effects of a structured program for adults with autism spectrum disorders and intellectual disabilities. Res. Autism Spectr. Disord. 2007, 1, 256–265. [Google Scholar] [CrossRef]
  161. Gerber, F.; Bessero, S.; Robbiani, B.; Courvoisier, D.S.; Baud, M.-A.; Traoré, M.; Blanco, P.; Giroud, M.; Galli Carminati, G. Comparing residential programmes for adults with autism spectrum disorders and intellectual disability: Outcomes of challenging behaviour and quality of life. J. Intellect. Disabil. Res. 2011, 55, 918–932. [Google Scholar] [CrossRef] [PubMed]
  162. Favre, E.; Peyroux, E.; Babinet, M.-N.; Poisson, A.; Demily, C. Computer-based cognitive remediation program for the treatment of behavioral problems in children with intellectual disability: The «COGNITUS & MOI» study protocol for a randomized controlled trial. BMC Psychiatry 2018, 18, 235. [Google Scholar] [CrossRef] [Green Version]
  163. Hassiotis, A.; Robotham, D.; Canagasabey, A.; Romeo, R.; Langridge, D.; Blizard, R.; Murad, S.; King, M. Randomized, single-blind, controlled trial of a specialist behavior therapy team for challenging behavior in adults with intellectual disabilities. Am. J. Psychiatry 2009, 166, 1278–1285. [Google Scholar] [CrossRef]
  164. Inoue, M.; Oda, M. Consultation on the functional assessment of students with severe challenging behavior in a Japanese special school for intellectual disabilities. Yonago Acta Med. 2020, 63, 107–114. [Google Scholar] [CrossRef]
  165. Ingersoll, B.; Berger, N.; Carlsen, D.; Hamlin, T. Improving social functioning and challenging behaviors in adolescents with ASD and significant ID: A randomized pilot feasibility trial of reciprocal imitation training in a residential setting. Dev. Neurorehabil. 2017, 20, 236–246. [Google Scholar] [CrossRef] [PubMed]
  166. Klaver, M.; de Bildt, A.; Bruinsma, E.; de Kuijper, G.; Hoekstra, P.J.; van den Hoofdakker, B. First steps toward positive behavior support in the Netherlands: A pilot study exploring the effectiveness of a training for staff. J. Policy Pract. Intellect. Disabil. 2020, 17, 188–194. [Google Scholar] [CrossRef]
  167. Strydom, A.; Bosco, A.; Vickerstaff, V.; Hunter, R.; Hassiotis, A. Clinical and cost effectiveness of staff training in the delivery of Positive Behaviour Support (PBS) for adults with intellectual disabilities, autism spectrum disorder and challenging behaviour-randomised trial. BMC Psychiatry 2020, 20, 161. [Google Scholar] [CrossRef] [Green Version]
  168. Beadle-Brown, J.; Hutchinson, A.; Whelton, B. Person-centred active support–increasing choice, promoting independence and reducing challenging behaviour. J. Appl. Res. Intellect. Disabil. 2012, 25, 291–307. [Google Scholar] [CrossRef]
  169. Willner, P.; Rose, J.; Jahoda, A.; Kroese, B.S.; Felce, D.; Cohen, D.; MacMahon, P.; Stimpson, A.; Rose, N.; Gillespie, D. Group-based cognitive–behavioural anger management for people with mild to moderate intellectual disabilities: Cluster randomised controlled trial. Br. J. Psychiatry 2013, 203, 288–296. [Google Scholar] [CrossRef] [Green Version]
  170. Hassiotis, A.; Poppe, M.; Strydom, A.; Vickerstaff, V.; Hall, I.S.; Crabtree, J.; Omar, R.Z.; King, M.; Hunter, R.; Biswas, A. Clinical outcomes of staff training in positive behaviour support to reduce challenging behaviour in adults with intellectual disability: Cluster randomised controlled trial. Br. J. Psychiatry 2018, 212, 161–168. [Google Scholar] [CrossRef] [Green Version]
  171. McGill, P.; Vanono, L.; Clover, W.; Smyth, E.; Cooper, V.; Hopkins, L.; Barratt, N.; Joyce, C.; Henderson, K.; Sekasi, S. Reducing challenging behaviour of adults with intellectual disabilities in supported accommodation: A cluster randomized controlled trial of setting-wide positive behaviour support. Res. Dev. Disabil. 2018, 81, 143–154. [Google Scholar] [CrossRef]
  172. Chan, J.S.L.; Chien, W.T. A randomised controlled trial on evaluation of the clinical efficacy of massage therapy in a multisensory environment for residents with severe and profound intellectual disabilities: A pilot study. J. Intellect. Disabil. Res. 2017, 61, 532–548. [Google Scholar] [CrossRef]
  173. van den Bosch, K.A.; Andringa, T.C.; Post, W.J.; Ruijssenaars, W.A.; Vlaskamp, C. The relationship between soundscapes and challenging behavior: A small-scale intervention study in a healthcare organization for individuals with severe or profound intellectual disabilities. Build. Acoust. 2018, 25, 123–135. [Google Scholar] [CrossRef]
  174. Fuchs, K.; Ravoux, P. Transforming care: Developing a community enhanced intervention service. Adv. Ment. Health Intellect. Disabil. 2019, 13, 133–143. [Google Scholar] [CrossRef]
  175. Grey, I.M.; McClean, B. Service user outcomes of staff training in positive behaviour support using person-focused training: A control group study. J. Appl. Res. Intellect. Disabil. 2007, 20, 6–15. [Google Scholar] [CrossRef]
  176. Gore, N.; Umizawa, H. Challenging behavior training for teaching staff and family carers of children with intellectual disabilities: A preliminary evaluation. J. Policy Pract. Intellect. Disabil. 2011, 8, 266–275. [Google Scholar] [CrossRef]
  177. Antonsson, H.; Graneheim, U.H.; Isaksson, U.; Åström, S.; Lundström, M.O. Evaluation of a web-based training program for professional carers working with people with learning disabilities and challenging behavior: A pilot study with SSED-design. Issues Ment. Health Nurs. 2016, 37, 734–743. [Google Scholar] [CrossRef] [PubMed]
  178. Armstrong, K.; DeLoatche, K.J.; Preece, K.K.; Agazzi, H. Combining parent–child interaction therapy and visual supports for the treatment of challenging behavior in a child with autism and intellectual disabilities and comorbid epilepsy. Clin. Case Stud. 2015, 14, 3–14. [Google Scholar] [CrossRef]
  179. Bhaumik, S.; Watson, J.M.; Devapriam, J.; Raju, L.B.; Tin, N.N.; Kiani, R.; Talbott, L.; Parker, R.; Moore, L.; Majumdar, S.K. Brief report: Aggressive challenging behaviour in adults with intellectual disability following community resettlement. J. Intellect. Disabil. Res. 2009, 53, 298–302. [Google Scholar] [CrossRef] [PubMed]
  180. Poppes, P.; Van der Putten, A.J.J.; Vlaskamp, C. Frequency and severity of challenging behaviour in people with profound intellectual and multiple disabilities. Res. Dev. Disabil. 2010, 31, 1269–1275. [Google Scholar] [CrossRef]
  181. Horner, R.H.; Sugai, G.; Lewis, T.; Is School-Wide Positive Behavior Support an Evidence-Based Practice. Center on Positive Behavioral Interventions and Supports. 2015. Available online: https://www.pbis.org/resource/is-school-wide-positive-behavior-support-an-evidence-based-practice (accessed on 15 June 2022).
  182. Sturmey, P.; Didden, R. Evidence-Based Practice and Intellectual Disabilities; John Wiley & Sons: Hoboken, NJ, USA, 2014; ISBN 1118321227. [Google Scholar]
  183. Muharib, R.; Gregori, E. A Systematic and Quality Review of Function-Based Interventions for Adults with Intellectual and Developmental Disabilities. J. Dev. Phys. Disabil. 2021, 1–35. [Google Scholar] [CrossRef]
  184. Gadaire, D.M.; Kelley, M.E.; LaRue, R.H. Indirect Behavioral Assessments. In Handbook of Applied Behaviour Analysis; Guilford Publications: New York, NY, USA, 2021; p. 193. [Google Scholar]
  185. Steege, M.W.; Pratt, J.L.; Wickerd, G.; Guare, R.; Watson, T.S. Conducting School-Based Functional Behavioral Assessments: A Practitioner’s Guide; Guilford Publications: New York, NY, USA, 2019; ISBN 1462538738. [Google Scholar]
  186. Carr, E.G.; Ladd, M.V.; Schulte, C.F. Validation of the contextual assessment inventory for problem behavior. J. Posit. Behav. Interv. 2008, 10, 91–104. [Google Scholar] [CrossRef]
  187. Simó-Pinatella, D.; Alomar-Kurz, E.; Font-Roura, J.; Gine, C.; Matson, J.L.; Cifre, I. Questions about behavioral function (QABF): Adaptation and validation of the Spanish version. Res. Dev. Disabil. 2013, 34, 1248–1255. [Google Scholar] [CrossRef]
  188. Knotter, M.H.; Spruit, A.; De Swart, J.J.W.; Wissink, I.B.; Moonen, X.M.H.; Stams, G.J.M. Training direct care staff working with persons with intellectual disabilities and challenging behaviour: A meta-analytic review study. Aggress. Violent Behav. 2018, 40, 60–72. [Google Scholar] [CrossRef]
  189. Saloviita, T.; Pakarinen, E. Teacher burnout explained: Teacher-, student-, and organisation-level variables. Teach. Teach. Educ. 2021, 97, 103221. [Google Scholar] [CrossRef]
Table
Table 1. Studies comprising the systematic review (n = 23).
Table 1. Studies comprising the systematic review (n = 23).
Tools (Abbreviation; Reference)Purpose and FocusN° ItemsDomainsEvaluation TypeValidity and Reliability
ABC or ABC-R 1 [36]Assess the presence and severity of various CB 2
Intended for adults and children with IDD 3		58Irritability, agitation, crying; Lethargy, social withdrawal; Stereotypic behavior; Hyperactivity, non-compliance; Inappropriate speechFrequency, severityInternal consistency (Cronbach’s α): 0.86 to 0.94
Inter-rater reliability: 0.55 to 0.69
Test-retest reliability: 0.96 to 0.99
Criterion validity: very good
ABC-C 4; [37]Review of the original ABC to remove references to institutional exclusive use
Intended for adults and children with IDD		58Irritability, agitation, crying; Lethargy, social withdrawal; Stereotypic behavior; Hyperactivity, noncompliance; Inappropriate speechFrequency, severityInternal consistency (alpha coefficients): 0.84 to 0.94
A-SHARP 5 [47]Measure the severity and direction of aggression
Intended for adults with IDD		52Verbal aggression; Physical aggression; Hostile affect; Covert aggression; BullyingSeverity, ‘‘origin’’ (reactive versus proactive)Inter-rater reliability (ICCs 6) = Problem subscales: 0.59 to 0.78. Provocation subscales: 0.54 to 0.78
Internal consistency (item-total correlations): Verbal aggression: 0.54 to 0.89
Concurrent validity with BPI (Pearson correlations): 0.33 to 0.86
C-SHARP 7 [41]It examines different forms of aggression and categorizes the child’s behavior as reactive or proactive
Intended for children with IDD		52Verbal aggression; Bullying; Covert aggression; Hostility; Physical aggressionSeverity, the ‘‘origin’’Inter-rater reliability (ICCs) = Problem subscales: high. 0.67 to 0.91; Provocation Scale: 0.01 to 0.76
Internal consistency (Cronbach’s α): 0.74 to 0.90
Item-total correlations: 0.59 to 0.75
ASD-BPA 8 [49]Part of a comprehensive assessment for adults with ASD 9 and PDD-NOS 10, along with the diagnosis and comorbidity
Intended for adults with ASD and IDD		19Aggression/destruction; Disruptive behavior; Self-injurious behaviorOccurrenceInter-rater reliability (Kappa coefficients): 0.14 to 0.68
Test-retest reliability (Kappa coefficients): 0.24 to 0.81
Internal consistency (KR-20 coefficients): 0.43 to 0.83
ASD-PBC 11 [48]Part of a comprehensive battery of measures that assess CBs, comorbid psychopathology and ASD symptoms
Intended for children and adolescents with ASD with IDD		18Internalizing scale (Self-injurious behavior, stereotyped behavior, inappropriate
sexual behavior, and other odd behaviors) and Externalizing scale (physical and verbal aggression,
property destruction, and tantrums)		Occurrence, severityInter-rater reliability: 0.49; mean agreement of 92%
Test–retest reliability: 64 with mean agreement at 92%
Inter-item correlation: 0.32
Internal consistency: 0.90
BPI-01 12 [55]Behavior rating scale
Intended for adults and children with IDD		52Self-injurious behavior; Stereotyped behavior; Aggressive/
destructive behavior		Frequency; severityInter-rater reliability (ICCs): 0.91
Internal Consistency (Cronbach’s α): 0.83
Factor Structure (RMSEA): 0.078
BPI-S 13 [56]Abbreviated version of the BPI-01
Intended for adults and children with IDD		30Self-injurious behavior; Stereotyped behavior; Aggressive/destructive
Behavior		Frequency; severityInternal consistency (Cronbach’s alpha) 0.85 to 0.87
Convergent validity: NCBRF, ICAP, DASH-II, ABC
Factor Structure: models fit the data well
Spearman r correlations between BPI-01 and the BPI-s: very high (r 0.958 to 0.99)
BPI-PIMD 14 [53]Revised version of BPI-01 Dutch with some adaptations to increase its applicability to people with PIMD 15
Intended for people with PIMD		58Self-injurious behavior; Stereotypical behavior; Withdrawn behavior; Aggressive/destructive behaviorFrequency; SeverityTest–retest reliability: frequency scale good to excellent
Internal consistency (Cronbach’s α): 0.85
BPI-S-SCHOOL 16 [51]Adaptation of the BPI-S for children with IDD in the school environment
Intended for children and young people with IDD		32Self-injurious behavior; Stereotyped behavior; Aggressive/destructive behaviorFrequency; SeverityInternal consistency (Cronbach’s α): good to excellent
BSIQ 17 [42]Continuous dimensional instrument that assesses repetitive behaviors, restricted interests and other unusual sensory behaviors
Intended for children and adults with range of neurodevelopmental disorders, including ASD		174Repetitive Sensory Motor behaviors; Insistence on Sameness; and othersType; Frequency; Intensity; Age of onset; Duration; Sensory interestsInter-rater reliability: stable
Item-total correlations 0.20 to 0.51 (Repetitive Sensory Motor) and 0.12 to 0.53 (Insistence on Sameness)
Internal consistency (Cronbach’s α): 0.831 (Repetitive Sensory Motor) and 0.731 (Insistence on Sameness)
CBI 18 [52]Assess the severity of the CB
Intended for children and adults with IDD		19Self-injury, physical aggression, verbal aggression, disruption of the environment and inappropriate vocalizationsOccurrence; Frequency; Duration; Management strategies used by carers.Inter-rater: 0.90
Test–retest agreement: 0.96
Concurrent validity: ABC (0.19 and 0.68)
CBQ 19 [44]Assessment of CB
Intended for people with IDD		8Self-injurious behavior; Physical aggression; Property destruction; Stereotypic behaviorPrevalence and topographyInter-rater reliability: good 0.46 to 0.72
CCB 20 [43]Assess aggressive behavior
and other CB
Intended for children and adults with IDD		Part 1 (14); part 2 (18)Part 1: Aggressive behaviors involving harmful, physical contact with others; Part 2: A list of other types of challenging behaviorFrequency; Severity; Management difficultyThe rating scales are not sufficiently reliable as measures of change especially at the individual level
ECBI 21 [40]A companion behavioral rating scale for children from a range of ethnic and socioeconomic, chronically ill and with IDD36Noncompliance; Defiance; Aggressiveness; ImpulsivenessIntensityInternal consistencies: 0.93 to 0.98
SESBI-R 22 [40]A companion behavioral rating scale for children from a range of ethnic and socioeconomic, chronically ill and with IDD38Noncompliance; Defiance; Aggressiveness; ImpulsivenessIntensityInter-rater: 0.43 to 0.84
Test retest: Intensity 0.81, Problem 0.84
Internal consistency (Chronbach’s α): Intensity 0.98
IBR-MOAS 23 [39]Measure of aggressiveness in people with IDD
Intended for adults with IDD		20Verbal aggression toward others; Physical aggression against other people; Physical aggression against objects; Physical aggression against self; and Verbal aggression toward selfFrequency; SeverityInter-rater reliability (Cronbach’s α): 0.70 to 0.83
Test–retest reliability (Cronbach’s α): 0.84 to 0.96
MOAS 24 [46]Measure nature and prevalence of types of aggression
It has been used with psychiatric populations and adults with IDD		20Verbal aggression; Aggression against property; Autoaggressions; Physical aggressionsSeverityInter-rater reliability (Pearson r): 0.85 to 0.94
Test-retest: 0.72
Internal consistency: (coefficient of concordance) W = 0.68
PBCL 25 [58]Short scale to assess CBs
Intended for children and adults with IDD		28Personal violence; Violence against property; Self-harm; Sexually inappropriate; Contrary; Demanding; Disappearing behaviorSeverityInter-rater reliability (kappa): 0.91; 95% CI 0.83–0.99
RBQ 26 [50]Assessment of the nature of repetitive behavior in people with different neurological syndrome
Intended for children and adults with IDD		19Stereotyped behavior; Compulsive behavior; Insistence on sameness; Restricted preferences; Repetitive speechFrequencyInter-rater reliability (Spearman coefficients): 0.46 to 0.80 at item level
Test retest reliability (Spearman coefficients): 0.61 to 0.93
Internal consistency: (α > 0.80)
RBS-R 27 [38]Evaluate ritualized behaviors, insistence on equality, and restricted interests
Intended children and adults with ASD and/or IDD 		43Stereotyped Behavior; Self-Injurious Behavior; Compulsive Behavior; Ritualistic Behavior; Sameness Behavior; Restricted BehaviorSeverityInter-rater reliability: 0.55 to 0.78
Test-retest reliability: 0.52 to 0.96
SIT Scale 28 [45]Measure to quantify surface tissue damage caused by self-injurious behavior
Individuals with functional abilities varied		3 partsSIBTopography; location of the injury in the body; type of injury; number of injuries; severity.Part 2: Reliability: Mean = 97%; Median = 98% R (86–100)
Part 3: Number Index(NI) = 90%; Severity Index(SI) = 92%; Estimate of Current Risk = 100%
SBS 29 [57]Assess stereotyped behavior in people with IDD
Intended for adolescents and adults with IDD		26StereotypedFrequencyTest-retest reliability (ICC) 0.82
Inter-rater reliability (ICC) 0.33
Internal consistency: 0.88
SBS-R 30 [54]SBS review
Intended for adults with IDD		24StereotypedSeverity; FrequencyTest-retest Reliability (ICC): 0.93 and 0.71
Inter-rater agreement (ICC): 0.76 and 0.75
Internal consistency: 0.91
Criterion validity with ABC-R “Stereotypy”
Note: 1 Aberrant behavior Checklist; 2 Challenging behavior; 3 Intellectual and developmental disabilities; 4 Aberrant behavior Checklist-Community; 5 Adult Scale of Hostility and Aggression: Reactive–Proactive; 6 Intraclass correlation coefficient; 7 Children’s Scale of Hostility and Aggression: Reactive–Proactive; 8 Autism Spectrum Disorders—Behavior Problems for Adults; 9 Autism Spectrum Disorder; 10 Pervasive developmental disorder—not otherwise specified; 11 Autism Spectrum Disorders—Problem Behaviors Child; 12 The Behavior Problems Inventory; 13 The Behavior Problems Inventory—Short; 14 The Behavior Problems Inventory for people with PIMD; 15 profound intellectual and multiple disabilities; 16 The Behavior Problems Inventory for School; 17 Behavior and Sensory Interests Questionnaire; 18 Challenging Behavior Interview; 19 Challenging Behavior Questionnaire; 20 Checklist of Challenging Behavior; 21 Eyberg Child Behavior Inventory; 22 Sutter–Eyberg Student Behavior Inventory—Revised; 23 Institute for Basic Research—Modified Overt Aggression Scale; 24 Modified Overt Aggression Scale; 25 The Problem Behavior CheckList; 26 The Repetitive Behavior Questionnaire; 27 The Repetitive Behavior Scale—Revised; 28 Self-Injury Trauma Scale; 29 The Stereotyped Behavior Scale; 30 The Stereotyped Behavior Scale Revised.
Table
Table 2. Measurement studies of challenging behavior instruments.
Table 2. Measurement studies of challenging behavior instruments.
ToolStudyCountryN
(Male)		RangePsychometric Properties
ABC[67]Norway, English339 (220)4–18Internal consistency (Cronbach’s α): 0.76 to 0.95
ABC/BPI-01/RBS-R[68]EEUU and Peru; English180 (110)0.33–4BPI-01
Test-retest (Spearman’s ρ correlations): 0.41 to 0.64; ICC 1 = 0.68 to 0.80
Internal consistency (Cronbach’s α): 0.85 to 0.90
Convergent with ABC and RBS-R
ABC
Internal consistency (Cronbach’s α): 0.96
RSB-R
Internal consistency (Cronbach’s α): 0.89
ABC/BPI-01[69]UK; English69 (58)9.3–29.59Convergent validity ABC with BPI-01 (MANCOVA and Multiple regression)
ABC-C[70]EEUU English601 (339)6–22Internal consistency (Cronbach’s α): 0.77 to 0.95
Construct validity: four factor accounted 48% of the total common variance
ABC-C[71]Austria and German, English270 (151)18–80Inter-rater: 0.79
Test-retest (Spearman’s ρ correlations): 0.97 (4 weeks) and 0.43 (2 years)
Internal consistency (Cronbach’s α): 0.95
Factor validity: Five factors
A-SHARP BPI-01[72]EEUU, English155 (108)16–71Internal consistency (Cronbach’s α): 0.95 (problem); 0.90 (provocation)
Congruent validity with the BPI-01 Aggressive/Destructive Behavior (Pearson correlations): 0.15 to 0.71
Construct validity: five factor 1 χ2 (1.070) = 1494.07, p < 0.001, 2 CFI = 0.949, 3 TLI = 0.946, 4 RMSEA = 0.051
BPI-01[73]China English222 (167)1.5–21.5Internal consistency (Cronbach’s α): 0.92
Construct validity: Three factors model fit the data well
BPI-01[74]Brazil, English60 (38)6–18Internal consistency subscales (Cronbach’s α): 0.65 to 0.91
Convergent validity with 5 ASQ and 6 CBCL/6–18
BPI-01[75]Holland, English195 (113)2–73Inter-rater: 7 ICC = 0.73; 8 EA/AA = 83.6%/90.1%; Cohen’s kappa: 0.36
Intra-rater ICC = 0.93; EA/AA = 89.6%/95.4%; Cohen’s kappa: 0.63
Internal consistency (Cronbach’s α): 0.89
Construct validity: Three factors model fit the data well
Convergent validity with ABC
BPI-01[76]EEUU, English425 (235)15–87Internal consistency (Cronbach’s α): frequency and severity samples 1 and 2. Stereotyped Behavior and Aggression/Destruction subscales 0.65 to 0.87 and SIB 0.40 to 0.48
Inter-rater: 9 SIB frequency 0.67, severity 0.63; Stereotyped Behavior frequency 0.41, severity 0.50; Aggression/Destruction frequency 0.80, severity 0.77
Test–retest: SIB frequency 0.65, severity 0.70; Stereotyped Behavior frequency 0.45, severity 0.28; Aggression/Destruction frequency 0.66, severity 0.67
Construct validity: Three factors, RMSEA = frequency 0.063 and severity 0.075
BPI-01[77]Korea, English52 (31)3–36Content validity: nine questions on content validity
Inter-rater: ICC = frequency 0.72 and severity 0.070
Test–retest: ICC = frequency 0.87 and severity 0.84
Internal consistency (Cronbach’s α): frequency 0.88 and severity 0.87
BPI-01[78]Sweden, English915 (503)18–87Internal consistency (Cronbach’s α): frequency 0.84 and severity 0.85
Construct validity: Three factors χ2 = 3832.7, df = 1124, χ2/df = 3.41, p < 0.001 and RMSEA = 0.051,
BPI-01[79]EEUU, English115 (51)3–23Internal Consistency (Cronbach’s α): 0.88 to 0.95
Convergent validity with 10 NCBRF
BPI-01[80]EEUU, English237 (160)4–22Inter-rater (teacher-teacher): ICC = 0.76
Inter-rater (teacher-parent): ICC = 0.24
Test-retest: ICC = 0.84
Internal consistency: 0.59 to 0.88
Convergent validity with NCBRF
Construct validity: Three factors, RMSEA = frequency 0.083 CFI = frequency 0.52
BPI-01[81]EEUU, English130 (92)AdultsInter-rater: ICC = 0.75 to 0.84
Test–retest: ICC = 0.88 to 0.91
Internal consistency (Cronbach’s a): 0.61 to 0.90
Convergent validity with 11 ICAP
BPI-01/BPI-S[82]USA, United Kingdom, Romania, Holland English1122 (768)2.1–93Construct validity: Three factors
BPI-01: χ2 (260) = 730.92, p < 0.05; CFI = 0.93; TLI = 0.98; RMSEA = 0.04
BPI-S: χ2 (260) = 860.15, p < 0.05 CFI = 0.93 TLI = 0.97; RMSEA = 0.05
BPI-S[83]Japan, English227 (142)adolescents/adultsTest–retest: ICC = frequency 0.954; severity 0.927
Inter-rater: ICC = frequency 0.721; severity 0.740
Internal consistency (Cronbach’s a): frequency 0.83; severity 0.83
Criterion-related validity (Spearman correlation) with 12 CDSPB r = 0.499
and 13 ABC-J r = 0.699
BPI-S[84]EEUU, English232 (157)16–71Inter-rater: ICC = 0.46 to 0.74
Test–retest r (Pearson’s r correlation): Primary raters 0.79 to 0.91 and secondary raters 0.66 to 0.84
Internal Consistency (Cronbach’s α): 0.91
Construct validity: Three factors. χ2 (402) = 2018.8, p < 0.001; CFI = 0.74, TLI = 0.72; 14 SRMS = 0.08; RMSEA = 0.08
BPI-S[85]France, English305 (172)7–24Inter-rater ICC = frequency 0.66 to 0.81 and severity 0.54 to 0.92
Test retest: (Pearson correlation coefficients): frequency 0.45 to 0.53 and severity positive and significant covariance between aggressive and destructive behaviors and SIB
Internal consistency (Cronbach’s α): frequency 0.90 and severity 0.62
Construct validity: Three factors. Frequency CFI = 0.96; TLI = 0.96 and RMSEA = 0.07. Severity CFI = 0.91; TLI = 0.90; RMSEA = 0.04
MOAS[59]UK, English14 (9)23–58Inter-rater: ICC = 0.93
RBS-R[86]Japan, english310 (243)3–40Internal consistency (Cronbach’s α): 0.928
RBS-R[87]Germany, English948 (546)4–17Internal consistency (Cronbach’s a): 0.96
Concurrent-Discriminant Validity with ABC (r = 0.69); CBCL (r = 0.72) and 15 SRS (r = 0.70)
Construct validity: four-factor solution
RBS-R[88]Spain, English233 (181)3–63Inter-rater: ICC=
Test-retest: ICC =  0.97
Item-total correlations 0.50 and 0.80
Internal consistency (Cronbach’s α):  0.93
Concurrent-divergent validity with 16 SCQ-B (r = 0.42–0.68)
Note: 1 chi-square:χ2; CFI: 2 Comparative Fit Index; 3 TLI: Tucker–Lewis index; 4 RMSEA: Mean Square Error of Approximation; 5 ASQ: Autism Screening Questionnaire; 6 CBCL/6–18: Child Behavior Checklist for Ages 6–18; 7 ICC: Intraclass correlation coefficient; 8 EA/AA: Exact agreement/adjacent agreement; 9 Self-injury behavior; 10 NCBRF: Nisonger Child Behavior Rating Form [89]; 11 ICAP: Inventory for Client and Agency Planning [90]; 12 CDSPB: Criteria for Determining Severe Problem Behavior; 13 ABC-J: Aberrant Behavior Checklist—Japanese [91]; 14 SRMS: standardized root mean square residual; 15 SRS: The German version of Social Responsiveness Scale [92]; 16 SCQ: Social Communication Questionnaire, SCQ form B [93].
Table
Table 3. Relational studies using the instruments identified in the review.
Table 3. Relational studies using the instruments identified in the review.
ToolStudyn (Male)RangeVariables Related to Challenging BehaviorVariables Not Related to Challenging Behavior
ABC[94]82 (46)11–17AgeAge (General pattern stability)
ABC[95]818 (433)18–90 Adaptive behavior; ASD 1 symptoms Gender
ABC[96]312 (134)- Psychiatric disorder np 2
ABC[97]427 (250)15–86 Adaptive behavior; social, community and home participation; support np
ABC[98]132 (89)16–66 Age np
ABC[99]140 (73)14–72 Level IDD 3; ASD symptoms; quality of life np
ABC[100]106 (90)≥18 years Age; language impairment; level IDD; sleep disorder; ASD symptoms; gastrointestinal disorder Age
ABC[101]122 (67)1–35 Developmental and Epileptic Encephalopathies np
ABC/MOAS[102]181 (128)28–47 Staff rate users’ anger np
ABC/MOAS[103]203 (139)≥18 years Emotional development, ASD symptoms np
ABC/SIT Scale[104]32 (26)0.67–4.3 Age np
ABC-2[105]62 (34)2.5–18 Dup15q syndrome np
ABC-C[106]240 (156)≥18 years Age, adaptive behavior Epilepsy
ABC-C[107]833 (432)18–84 Age; level IDD; psychiatric disorder; ASD symptoms; psychiatric medication; pain Epilepsy; sex
ABC-C[108]124 (64)2–26 Age; gender Age
ABC-C[109]34 (20)≥18 years DS 5 and dementia np
ABC-C[110]80 (39)16–68 Negative life events np
ABC-C[33]97 (73)0.80–4.81 Age np
ABC-C[111]60 (30)0.92–23 Phelan-McDermid syndrome np
ABC-C/CBI[112]100 (48)Children np Cornelia de Lange Syndrome
ABC-C/MOAS[113]167 (137)5–18 Sleep disorder; psychiatric disorders np
ABC-C/MOAS[114]44 (31)19–56 Family caregiver burden; family caregiver uplift np
ASD-BPA[115]175 (94)20–87ASD symptomatologyRace
ASD-BPA[116]298 (167)21–88ASD symptomsnp
ASD-BPA[117]100 (72)29–72ASD symptoms; epilepsynp
ASD-BPA[118]45 (23)16–88 Language impairment; ASD symptoms np
ASD-BPA[119]7018–43 Quality of life mediated the relationships between ASD- challenging behaviors np
ASD-PBC/BPI-01/RBS-R[120]313 (211)2–17 ASD symptoms np
A-SHARP[121]200 (109)≥18 years Burnout and instability of support staff np
BPI-01[122]99 (43)1.5–51 Smith–Magenis Syndrome np
BPI-01[123]1871 (1085)2.1–93 Stereotyped behavior construct–self injury construct np
BPI-01[124]120 (58)≥18 years Level IDD np
BPI-01[29]244 (156)10–19 Level IDD; psychiatric disorders np
BPI-01[125]159 (69)19–56 Psychiatric disorders np
BPI-01[126]57 (39)4.25–18 ASD symptoms; DS 4np
BPI-01[127]39 (22)19–49 Psychiatric disorders np
BPI-01[128]51 (31)8–70 Emotional reactions support staff np
BPI-01[129]915 (504)18–87 Language impairment; level IDD; sleep disorder; sensory hypersensitivity; psychiatric medication; DS 5 and cerebral palsy; ASD symptoms np
BPI-01[130]95 (59)15–86 Reliability of high-rate versus low-rate responses. np
BPI-01[131]157 (130)3–14.2 np Age; gender
BPI-01[31]180 (76)1.5–61.4 Language impairment; level IDD Level IDD
BPI-01[132]46 (31)4–27 Maternal stress np
BPI-01[133]Staff’s dataStaff’s data Perceived stress and emotional exhaustion of support staff np
BPI-01[134]58 (39)21–60 Psychiatric disorders np
BPI-01[135]189 (111)18.3–85.9 Level IDD Epilepsy
BPI-01[136]30 (20)2–65 Intervention plans np
BPI-01[137]180 (112)0.33–4 Age; gender; diagnosis; communication levels; visual impairment; parent education; family income Sleep disorder; psychiatric medication
BPI-01/ASD-BPA[32]57 (38)23–81 ASD symptoms np
BPI-S[138]265 (134)≥18 years Language impairment; level IDD np
BPI-S[139]160 (88)18–71 Psychiatric disorders np
BPI-S[140]598 (266)≥18 years Negative life events np
BPI-S[141]129 (100)3–18 Age of ASD diagnosis np
BPI-S[142]22 (11)0.75–28 Phenotype of Pallister–Killian Syndrome np
BPI-S/CBI[28]50 (38)19–49 Interest/pleasure; negative mood np
BPI-S/C-SHARP[143]305 (172)7–18 ASD and age np
CBQ/RBQ[144]441 (337)4–15,9 np Tuberous sclerosis complex
CBQ/RBQ[145]321 (276)4–62 DS 5 and FXS 5; level IDD; negative mood; ASD symptoms associated with genetic syndrome np
CBQ/RBQ[146]79 (42)≥18 years Tuberous sclerosis complex np
CCB[147]96 (50)18–79 Emotional perception skills np
CCB[148]96 (50)18–79 Alexithymia np
CCB[149]Staff’s dataStaff’s data Burnout and cognitive variables support workers np
CCB[150]Staff’s dataStaff’s data Burnout and fear of assault support workers np
CCB[151]53 (21)42–92 Age Age
CCB[30]74 (49)19–73 Level IDD np
IBR-MOAS[152]4069 (2441)≥18 years Psychiatric disorders np
MOAS[153]215 (118)18–65 Negative life events; psychiatric disorder np
MOAS[154]296 (162)18–65 Psychiatric disorder np
MOAS[155]296 (162)18–65 Psychiatric disorder np
RBQ[156]797 (519)4–51Genetic syndromesnp
RBS-R[157]490.6–6.75 Age; typical developmental Gender
RBS-R[158]396–10 SXF; level IDD; psychiatric disorder np
RBS-R[159]61 (61)3–5npFXS; ASD
Note: 1 Autism Spectrum Disorders; 2 not provided; 3 Intellectual and developmental disabilities; 4 Down’s Syndrome; 5 Fragile X syndrome.
Table
Table 4. Intervention studies included in the review.
Table 4. Intervention studies included in the review.
ToolStudyn (Male)Age (Range)IDD 1 Level (Mild/Moderate/Severe/Profound)DesignComponentsOutcomes
ABC[160] 19 (15)39 (np 2)npLongitudinal prospective design Experimental designAutism Programme with a Structured MethodNo significant changes in experimental group
Significant reduction in social withdrawal behavior in the control group
ABC[34] 30 (23)39.9
(24–62)		0/4/19/7Quasi-experimental, repeated-measures designAutism Programme with a Structured MethodA significant reduction in behavior disorders
ABC[161] 31 (23)39.7
(24–62)		0/4/20/7Quasi-experimental between-groupsAutism Programme with a Structured MethodStereotypic behavior and inappropriate speech significantly decreased
ABC[162] 200 (np)np (6–13.11)Mild-moderateExperimental Design between-groupCognitive remediationSignificant reduction in CBs 3
ABC[163] 63 (37)40.45 (np)Mild-profoundParallel-group, randomized, single-blind controlled trialCommunity-based specialist behavior therapySignificant differences in total scores
ABC[164] 8 (5)Children0/0/8/0Quasi-experimental, repeated-measures designA functional assessment based consultation in cooperation with a team of teacherImproved score on behavior scales
ABC[165] 19 (16)16.58 (12–20)0/0/19/0Experimental Design between-groupImitation trainingModerate to large effects on CB
ABC[166] 11 (7)47.45 (np)0/4/6/1One group pretest–post-test design with a double
pretest		PBS training for staff in reducing CBs of individuals with IDDSignificant reductions in CB
ABC[167] 113 (83) 34.6 (np)npA multicentre, two-arm cluster randomized controlled trial (PBS/TAU)PBS training for staffDid not reduce challenging behavior in people with IDD and comorbid ASD 4
ABC[168] 29 (np)44
(20–61)		Severe-profoundQuasi-experimental, repeated-measures designPerson-Centred Active SupportSignificant reduction in CB
ABC[35] 188 (105)67
(20–79)		npQuasi-experimental between-groupsPerson-Centred Active SupportThe effectiveness of support offered to people with CB did not significantly increase
ABC-(H/I)/MOAS[169] 181 (128)37.75 (27.5–48.5)Mild-moderateMulticentre cluster randomized controlled trial (RCT)Cognitive–behavioral therapyKeyworkers and home carers showed significantly better outcomes at 16-week follow-up
ABC-C[170] 245 (157)37
(25–51)		41/76/127/0Multicentre cluster researcher-masked randomized controlled trialStaff training in Positive Behavior SupportNo treatment effects were found
ABC-C[171] 81 (35) 39.7 (19–84)npExperimental Design between-groupPositive Behavior SupportSignificant reductions in CB
BPI-01[172] 42 (17)43.40
(18–64)		Severe-profoundExperimental Design between-groupRelaxation activities: multisensory environment and massage therapyNo significant differences in frequency and severity
BPI-S[138] 85 (27)25.38
(3–73)		npQuasi-experimental, repeated-measures designPositive Behavior SupportSignificant reductions in CB
BPI.PIMDI[173] 15 (8)43.33 (18–55)Severe-profoundQuasi-experimental, repeated-measures designSoundscapes (an application for smartphones)Significant reduction in the severity of stereotyped behavior
BPI-01[174] 32 (24)21
(17–29)		0/11/21/0Longitudinal
Quasi-experimental, repeated-measures design		Positive Behavior Support + Systemic approaches. Community intensive servie for adults with IDD and challenge behaviors: The Southwark Enhanced Intervention ServiceImprovements in behavior, well-being, quality of life and financial savings
CCB[175] 60 (36)35.5
(3–70)		12/21/21/16Experimental Design between-group
A non-randomized matched control group design		Person- focused trainingReductions in the frequency, management difficulty and severity of CB
CCB[176] 37 (29)9.5 (np)Severe-moderateA within-subjects, pre- and post-, quasi-experimental, repeated-measures designTraining program delivered at the same time to teaching staff and family careersSignificant positive changes were found regarding ratings of CB
CCB[177] 1 (1)400/0/1/0A single subject experimental designWeb-based training program aimed at improving careers’ abilities to interact with people with IDDSignificant reduction in CB
ECBI/ SESBI-R[178] 1 (0)50/1/0/0Case study pre–post-interventionParent–Child Interaction Therapy combined with visual supportsSignificant reduction in CB
MOAS[179] 49 (36)50.05
(31–96)		1/3/11/34Quasi-experimental, repeated-measures designCommunity resettlement using a person-centred approachAll areas of aggressive defiant behavior were significantly reduced
Note: 1 Intellectual and developmental disabilities; 2 Not provided; 3 challenging behavior; 4 Autism Spectrum Disorder.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Reyes-Martín, J.; Simó-Pinatella, D.; Font-Roura, J. Assessment of Challenging Behavior Exhibited by People with Intellectual and Developmental Disabilities: A Systematic Review. Int. J. Environ. Res. Public Health 2022, 19, 8701. https://doi.org/10.3390/ijerph19148701

AMA Style

Reyes-Martín J, Simó-Pinatella D, Font-Roura J. Assessment of Challenging Behavior Exhibited by People with Intellectual and Developmental Disabilities: A Systematic Review. International Journal of Environmental Research and Public Health. 2022; 19(14):8701. https://doi.org/10.3390/ijerph19148701

Chicago/Turabian Style

Reyes-Martín, Juliana, David Simó-Pinatella, and Josep Font-Roura. 2022. "Assessment of Challenging Behavior Exhibited by People with Intellectual and Developmental Disabilities: A Systematic Review" International Journal of Environmental Research and Public Health 19, no. 14: 8701. https://doi.org/10.3390/ijerph19148701

APA Style

Reyes-Martín, J., Simó-Pinatella, D., & Font-Roura, J. (2022). Assessment of Challenging Behavior Exhibited by People with Intellectual and Developmental Disabilities: A Systematic Review. International Journal of Environmental Research and Public Health, 19(14), 8701. https://doi.org/10.3390/ijerph19148701

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop