1.- It’s going to be an oral presentation. I did it already. but what need to be corrected is the 1st slide.
A) 1st slide needs to be in bullet point and under the note section at the bottom, please add notes about the bullet points and according to article for all 3 slides so that I could present well.
B) the other slides: results, and Individual variability are fine, but add notes because I am totally clueless of what to say when presenting.
C) I will attach the article and the power point
ISSN: 1751-8423 (print), 1751-8431 (electronic)
Dev Neurorehabil, 2016; 19(3): 162–174
! 2016 Taylor & Francis. DOI: 10.3109/17518423.2014.933983
O R I G I N A L A R T I C L E
Effect of community interventions on social-communicative abilities of
preschoolers with autism spectrum disorder
Sara Van der Paelt, Petra Warreyn, & Herbert Roeyers
Research Group Developmental Disorders, Department of Experimental Clinical and Health Psychology, Ghent University, Ghent, Belgium
Abstract
Purpose: To evaluate the effect that different intervention methods have on the social-
communicative abilities of children with autism spectrum disorder (ASD) in community
settings. Methods: Intervention based on applied behaviour analysis was compared with a more
specific intervention programme targeting imitation and joint attention (JA) and with treatment
as usual in a sample of 85 children with ASD. Objective measures for imitation, JA, pretend play,
language, autism severity and parent report measures were used to assess the effect of six
months of intervention. Results: Results revealed no differences between the intervention
methods. There was, however, great individual variability in outcome within each treatment
method. Conclusion: These results suggest that it is important to focus on ‘‘What works for
whom’’ instead of trying to find a one-size-fits-all-
treatment for children with ASD.
Keywords
Applied behaviour analysis, social
communication, treatment
History
Received 5 January 2014
Accepted 9 June 2014
Published online 16 July 2014
Introduction
A reliable diagnosis of an autism spectrum disorder (ASD) is
possible from the age of two onwards [1]. Since age at the
start of the treatment is an important predictor for the effect of
an intervention [2], it is essential to start the most beneficial
treatment soon after diagnosis. Of the available interventions,
applied behaviour analysis (ABA) is widely recognized as one
of the most well-established treatments for ASD. Many
controlled studies show gains in language, cognitive and
adaptive functioning, following intensive behavioural inter-
vention [e.g. 3–6]. A review of five recent meta-analyses on
ABA concluded that no other comprehensive treatment model
for children with ASD has the same amount of empirical
support [7]. Several other reviews also concluded ABA is the
treatment of choice for children with ASD [8, 9]. A few
critical comments should, however, be added to these positive
results. Almost all studies in favour of ABA evaluated very
intensive programmes, usually of 20–40 hours a week.
Implementing such programmes on a large scale in clinical
practice is difficult because of a lack of financial resources
and trained staff. Studies with less intensive forms of
ABA
(12–20 hours) do not seem to be as effective as the traditional
type of ABA [10]. Furthermore, most studies have looked
primarily at the effects of the intervention on cognitive and
adaptive abilities. Recently, the effect on the core symptoms
of ASD has also received some attention [11], but most of the
evidence for ABA comes from studies that did not look at the
effects on social and communicative abilities. It is also
important to note that there has been little attention to
variability in outcome. The first results on ABA from the
study by Lovaas [12] already suggested that ABA did not have
positive effects for all children with ASD. Some recent studies
tried to explain the variability in outcome by looking at
factors that predict success of the intervention. Treatment
intensity, age, severity of autism and cognitive functioning are
all related to outcome [13–16]. It is important to note that
ABA is a generic term for a group of intervention methods,
which have the use of principles of operant conditioning in
common. However, these principles can both be used in a very
structured and directive way (discrete trial teaching) as in a
naturalistic behavioural approach (also called incidental
teaching) where the interests of the child are followed.
Apart from comprehensive treatments like ABA, there is
recent attention for specific training programmes in social-
communicative abilities. Most of these interventions, which
differ in the specific abilities targeted, share the use of
behavioural techniques. However, compared to ABA, the time
frame is usually shorter, and the number of treatment goals is
more limited. Social-communicative abilities are proposed
by several researchers as important treatment goals because
they are considered to be pivotal areas of development [e.g.
17,18]. Young children with ASD already show clear deficits
in social-communicative abilities such as imitation and joint
attention (JA), and these deficits are the first to raise parental
concern [19–21]. Because these abilities are important for
further language and social-cognitive development, children
with ASD will miss chances to develop a range of abilities
from early on [22–24]. Targeting these pivotal developmental
behaviours in young children with ASD should help prevent
further developmental delays.
Correspondence: Sara Van der Paelt, Research Group Developmental
Disorders, Department of Experimental Clinical and Health Psychology,
Ghent University, Henri Dunantlaan 2, B-9000 Ghent, Belgium.
Tel: 0032(9)2649412. Fax: 0032(9)2646489. E-mail:
Sara.Vanderpaelt@ugent.be
Several researchers have shown that imitation and JA
abilities of children with ASD can improve with a specific
training [25–27]. Moreover, effects seem to generalize to
abilities that have not been targeted. For instance, it has been
shown that children with ASD exhibit gains in language after
a training in JA or symbolic play and that the effects of
reciprocal imitation training generalize to language, pretend
play and JA [17, 28]. Research also demonstrated that these
treatments may also be effective when provided at a low
intensity. A study by Goods, Ishijima, Chang, and Kasari [29]
revealed that children who did not respond to ABA after one
year of treatment, benefitted from an intervention targeting
JA, symbolic play and regulation. Thirty minutes twice a
week of their regular ABA intervention was replaced by the
social communication intervention. After 12 weeks, these
children demonstrated greater play diversity, initiated more
interactions and showed more engagement. Moreover, inter-
vention techniques targeting social-communicative abilities
can be taught to parents. Several recent studies have shown that
parents can use these techniques effectively, and that social-
communicative abilities of their children improve more than in
children receiving standard care [30, 31].
It should be noted, however, that most of these studies rely
primarily on observational methods, not on standardized
assessment of the social-communicative abilities. Effects on
standardized language and cognitive tests are somewhat
mixed, with some studies reporting greater improvement than
in standard care [28] and other studies not [30, 32].
Although ABA and social communication interventions
are broad categories of therapy methods, which can be used
in a number of ways, in general, these treatments are
promising. However, most studies took place in research
settings under controlled circumstances. It is also important
to look at the effect of interventions when they are being used
in clinical practice, because clinicians tend to adapt evidence-
based programmes to characteristics of the child or setting
[33]. This limits the external validity of randomized
controlled trials (RCT), which test the use of an intervention
under ideal circumstances, which cannot be achieved in the
real world. Results from studies that have compared com-
munity-based interventions were not always in favour of ABA
and have found similar improvements as in treatment as usual
(TAU) [16, 34].
In Belgium, where this study was conducted, the majority
of children with ASD do not have access to intensive early
intervention services. Supplementary to regular or special
education, children with ASD are entitled to a couple of hours
a week of publicly funded intervention. This is usually
provided by the multidisciplinary team of a rehabilitation
centre, serving children with developmental and learning
disabilities. A regular care system with a lack of access to
intensive intervention services is not unique to Belgium and is
therefore an important issue that has not received sufficient
attention in the international literature. The number of studies
that have looked at community interventions in children with
ASD is already low, but even less data are available on low-
intensive interventions in community settings. To our know-
ledge, no study has looked at the effect of this type of
intervention on a broad array of objective measures of social-
communicative abilities in children with ASD.
The main goal of this study was to evaluate the effect of
different methods of intervention, used in community settings,
on social-communicative and related abilities in young
children with ASD. Measures of adaptive behaviour, symptom
severity and social-emotional functioning were used in
addition to social communication measures, in order to
provide a broad picture of children’s progress. More specif-
ically, intervention based on ABA was compared with a more
specific intervention programme targeting imitation and JA
and with TAU, in a large sample of children with ASD
receiving community intervention in comparable settings. A
second aim was to map the individual variability in the
different intervention groups.
Methods
Participants
Ninety-two children were recruited from 16 publicly funded
specialized multidisciplinary treatment centres for children
with developmental disabilities. Children qualified for these
services based on a diagnosis of ASD and their need for
multidisciplinary intervention (at least by two therapists of
a different discipline). The children were diagnosed with
ASD by a multidisciplinary team based on criteria of the
Diagnostic and Statistical Manual of Mental Disorders, Fourth
Edition, Text Revision (DSM-IV-TR) [35]. Eight children
received a working diagnosis [36] because they were con-
sidered at risk for ASD due to their young age or because they
did not meet full criteria. Five treatment centres used ABA, six
used a specific training in imitation and JA (imitation/JA) and
five provided TAU. Since this was a community intervention
study, there was no random assignment. Seven children
dropped out before the end of the study, because they started
special education
1
(n¼5), because of practical issues (n¼1)
or because parents chose to end the treatment (n¼1). These
children were excluded from further analysis. The remaining
85 children, aged 22–75 months, were divided into three
groups, based on the intervention method. Their cognitive level
was assessed before the start of the study by the treatment
centre with the Dutch version of one of the following tests:
Bayley Scales of Infant Development, second edition (n¼42)
[37], Wechsler Preschool and Primary Scale of Intelligence,
third edition (WPPSI-III, n¼13) [38], WPPSI – Revised (used
because the WPPSI-III was not yet available in Dutch in all
treatment centres at the time of the assessment, n¼13) [39],
Snijders-Oomen Non-Verbal Intelligence Test – Revised
(n¼14) [40], Psychoeducational Profile – Revised (n¼2)
[41] and McCarthy Developmental Scales (n¼1) [42]. There
was no initial difference between the groups in the mean age,
F(2, 82)¼1.77, p¼0.17, severity of autism symptoms
(Autism Diagnostic Observation Schedule, ADOS) [43], F(2,
82)¼2.52, p¼0.09, amount of intervention before the start of
this study (information provided by the treatment centre), F(2,
82)¼0.30, p¼0.74 and the educational level of the parents,
F(2, 82)¼0.34, p¼0.72 for maternal years of education and
F(2, 82)¼0.44, p¼0.64 for paternal years of education. Mean
scores and standard deviations are presented in Table I.
Furthermore the distribution of gender, �2(2)¼0.49,
p¼0.78, diagnosis, �2(2)¼2.79, p¼0.25 and IQ
�
2
(8)¼13.95, p¼0.08, was also equivalent in the three
DOI: 10.3109/17518423.2014.933983 Effect of community interventions on social-communicative abilities 163
groups. The only initial difference between the groups was in
type of education, �2(6)¼24.39, p50.001. The decision about
what type of education a child with ASD will follow is usually
made based upon the child’s ability to function in a quite large
group of typically developing children. Children in special
education are believed to function better in a smaller group,
with more individual support. Most children in the
TAU
group followed regular education (with and without extra
support at school). The children in the imitation/JA group
were mainly in regular education with extra support or in
special education. The ABA group had a larger part of
children who did not go to school yet compared to the other
two groups (see Table II). In all groups, a part of the children
in regular education received 1:1 intervention at school to
help them integrate in a regular school setting. Usually, this
support is given for 100 minutes a week (in some children 50
or 150 minutes).
Interventions
ABA
Therapists were trained in ABA-techniques by a Board
Certified Assistant Behaviour Analyst before the start of the
study and also received monthly/bimonthly supervision by
this person during the period they participated in this study.
The training focussed on the verbal behaviour approach [44].
This specific type of ABA intervention is based on the theory
of Skinner [45] who specified different categories of verbal
behaviour such as mands (requesting for desired objects and
activities), tacts (naming objects), echoics (imitating lan-
guage) and intraverbals (answering questions). According to
the verbal behaviour approach, each of these categories
should be taught explicitly to children with ASD. For
example, a child who can tact certain objects will not
automatically be able to mand for those same objects and will
need explicit instruction to learn this. Therapists used the
Verbal Behaviour Milestones Assessment and Placement
Program (VB-Mapp) [46] to evaluate progress and determine
new targets. This program puts an emphasis on language,
cognitive and social communication goals (play, imitation and
social skills in groups). The verbal behaviour approach
combines both incidental teaching as well as discrete trial
teaching. Treatment fidelity was checked by the first author
through a questionnaire the therapists were asked to complete
every week, in which they described the amount of time spent
on ABA, the goals, methods and behaviour of the child during
the sessions. In addition, a video of an intervention session
was made to check if the therapists implemented the
techniques correctly
2
. Since this was a community interven-
tion study, it was expected that therapists would adapt the
intervention and combine it with other intervention methods
[33]. For this reason, only broad fidelity criteria were used to
check whether the main teaching techniques (such as
systematic use of prompts and reinforcement) of ABA were
used. All therapists achieved sufficient levels of treatment
fidelity. From the written descriptions and the analysis of the
video, we could conclude that therapists used mainly
incidental teaching techniques: they followed the child’s
lead and used activities/toys the child was motivated for, to
prompt for more complex behaviours. Therapists used several
strategies to provoke communication in the child (e.g. putting
objects in the visual field of the child, but out of their reach).
When the child initiated communication, therapists used
prompts and prompt fading to increase the complexity of the
child’s communicative attempt. In all children, manding was
targeted; and in the majority of the children, this remained the
main goal of the ABA intervention throughout the study.
Other goals were determined individually and included
imitation (in 65% of the children), play (50%), listener
responding (following instructions; in 25% of the children),
tacting (in 20% of the children), social skills with peers (in
10% of the children) and intraverbals (in 5% of the children).
These skills were taught trough differential reinforcement,
prompt and prompt fading strategies, reinforcer assessment,
following the child’s lead and imitating the child. In some
children (15%), discrete trial training was used in addition to
incidental strategies. In 25% of the children, parents attended
the ABA sessions on a regular basis and implemented some of
Table II. Distribution of gender, IQ, diagnosis and school placement in
the different intervention groups.
Characteristic
ABA Imitation/JA TAU
Gender
Male 15 (75%) 24 (80%) 29 (83%)
Female 5 (25%) 6 (20%) 6 (17%)
IQ
555 11 (55%) 12 (40%) 4 (11%)
55–70 3 (15%) 7 (23%) 10 (29%)
71–85 3 (15%) 5 (17%) 11 (31%)
86–115 3 (15%) 6 (20%) 9 (26%)
4115 0 (0%) 0 (0%) 1 (3%)
Diagnosis
Clinical diagnosis 20 (100%) 26 (87%) 31 (91%)
Working diagnosis 0 (0%) 4 (13%) 4 (9%)
Education type
Regular education 5 (25%) 4 (13%) 14 (40%)
Regular education with support 3 (15%) 13 (43%) 14 (40%)
Special education 4 (20%) 11 (37%) 1 (3%)
Not in school yet 8 (40%) 2 (7%) 6 (17%)
Percentages are within each treatment group.
ABA¼applied behaviour analysis; JA¼ joint attention; and
TAU¼ treatment as usual.
Table I. Child’s characteristics and parental education data in the
different intervention groups.
Characteristic
ABA
(n¼20)
Imitation/JA
(n¼30)
TAU
(n¼35)
Age
a
M (SD) 44.47 (16.28) 51.79 (11.29) 49.09 (13.49)
Range 21.64–69.40 30.36–71.92 24.41–70.73
Autism severity
M (SD) 6.55 (2.21) 5.97 (2.44) 5.23 (1.85)
Range 1–10 1–10 1–8
Time elapsed since start of the intervention
a
M (SD) 8.12 (11.04) 8.89 (7.06) 7.31 (7.36)
Range 0.20–41.25 1.15–23.26 0.30–36.38
Maternal years of education
M (SD) 13.30 (2.39) 13.00 (2.23) 13.43 (1.87)
Range 6–17 6-17 12–17
Paternal years of education
M (SD) 12.45 (2.01) 13.03 (1.81) 12.91 (2.26)
Range 6–15 12–17 6–17
ABA¼applied behaviour analysis; JA¼ joint attention; and
TAU¼ treatment as usual.
a
In months.
164 S. Van der Paelt et al. Dev Neurorehabil, 2016; 19(3): 162–174
the techniques at home. In addition to the ABA intervention,
children in this group received TAU targeting mainly
cognitive, language, fine, gross motor and visual-spatial
abilities and daily living skills.
Imitation/JA intervention
The treatment centres in this group had previously taken part in
a study to test the effect of the imitation/JA-intervention [27]
and had incorporated the principles of this intervention in their
regular care. They all received a training manual with 24
sessions describing specific activities to stimulate imitation (of
actions with objects, gestures, body movements and symbolic
imitation), following and initiating imperative and declarative
JA. The training manual briefly described how to use different
levels of prompting to increase the imitation and JA ability of
the children (see [27] for a more detailed description of the
intervention). It is important to note that although this
intervention method had some similarities with the ABA
intervention, such as the use of prompts and rewards, it was
also clearly different in a number of ways. First, this
intervention used prescribed activities to stimulate imitation
and JA, while the ABA intervention used mainly activities
for which the child was motivated to teach new skills. Second,
the ABA intervention relied heavily on the prompt-behaviour-
reward sequence, which was repeated over and over again,
within a session as well as in several subsequent sessions, until
a child could perform a specific skill spontaneously. Prompting
had a far less important place in the imitation/JA programme,
which focussed more on spontaneous behaviour of the children
elicited by the specific situation. Treatment fidelity in the
imitation/JA group was also checked through a file the
therapists were asked to complete every week, in which they
described the amount of time spent on imitation and JA, the
specific goals, methods, whether they used sessions from the
manual and the behaviour of the child during the sessions. The
amount of time spent on these goals depended on the individual
needs of the children. In most children, around 30 minutes a
week was dedicated to direct training of these abilities, but
imitation and JA were also stimulated more indirectly during
other activities (e.g. teaching the child to ask for a drink during
snack time). Because the aim of this study was to look at the
effect of this training as it was used in practice, the therapists
could use the training as they would normally do. In the
majority of the children (63%), therapists used a combination
of sessions described in the manual and variations on those
exercises with other materials. In the other children, the same
teaching principles were used, but not with the exercises
described in the manual. For example, the manual describes
several exercises in which the therapist sabotages an activity
for the child (e.g. giving the child a broken crayon) and waits
for the child to ask for help. Furthermore, the therapists that did
not follow the manual used this principle (e.g. giving the child
an empty cup during snack time). Both describing using
specific sessions from the manual and describing similar
techniques as in the manual were considered sufficient to
achieve treatment fidelity (given the community focus of the
study). In addition to imitation and JA treatment targeted
cognitive, language, fine, gross motor and visual-spatial
abilities and daily living skills.
TAU
For each child, therapists completed a file, describing the
goals and methods of the intervention. The majority of the
therapy centres of this group used one or more methods
designed primarily for children with ASD. They mainly
included strategies from the TEACCH model (in 34% of the
children), social skills training with social scripts and role
play (17%) and Hanen (11%). In 34% of the children, no
ASD-specific method was used. In the last three months
before the post-test, the therapists of one child received a
training in ABA and started to use some ABA-techniques
with this child. A specific training for imitation and JA was
not used with any of the children. This implicated that the
intervention methods in TAU were clearly different from the
methods in the other two groups. Cognitive, language, fine,
gross motor and visual-spatial abilities and daily living skills
were targeted in most of the children. Social-communicative
abilities were also mentioned as a treatment goal in all
children. In some children, therapists targeted play (43%),
imitation (20%) and/or JA (11%).
Comparison of intervention techniques
Table III provides an overview of the intervention techniques
and programmes that were used by the therapists. It is
apparent from the table that in TAU the therapists mentioned
less-specific intervention techniques than in the other two
groups. Moreover, following the child’s lead and prompt
fading are techniques, which were used especially in the ABA
group, but rarely in the other two groups.
Treatment intensity
See Table IV for an overview of the average distribution of the
intervention time in the different groups. The total amount of
time spent on 1:1 intervention (in the treatment centre and for
Table III. Number of children in each group with whom certain
intervention techniques/programmes were used.
ABA
(n¼20)
Imitation/JA
(n¼30)
TAU
(n¼35)
TEACCH (visualisation, structured
tasks)
5 (25%) 2 (7%) 12 (34%)
Hanen 0 (0%) 2 (7%) 4 (11%)
Social skills training with modelling
and role-play
0 (0%) 2 (7%) 6 (17%)
Following the child’s lead 20 (100%) 3 (10%) 3 (9%)
Communicative temptations (e.g.
sabotage and placing objects in
sight and out of reach)
20 (100%) 26 (87%) 0 (0%)
Prompt fading 20 (100%) 3 (10%) 0 (0%)
Social scripts 0 (0%) 2 (7%) 0 (0%)
Imitating the child 4 (20%) 1 (3%) 0 (0%)
Discrete trial training 3 (15%) 0 (0%) 0 (0%)
PECS 1 (5%) 0 (0%) 0 (0%)
Shadowing (prompting social skills
with peers)
3 (15%) 0 (0%) 0 (0%)
Including parents in intervention
sessions
5 (25%) 0 (0%) 0 (0%)
Percentages are within each treatment group.
ABA¼applied behaviour analysis; JA¼ joint attention;
TAU¼ treatment as usual; PECS¼picture exchange communication
system.
DOI: 10.3109/17518423.2014.933983 Effect of community interventions on social-communicative abilities 165
some children also at school) was the same in all three groups,
F(2,82)¼2.17, p¼0.12. However, the total amount of time in
group intervention was not the same in the different groups,
F(2, 82)¼6.10, p¼0.003. Games-Howell post hoc procedure
(used because of inequality of variances and different sample
sizes) showed that children in the ABA group had signifi-
cantly less group intervention than children in the imitation/
JA group, 95% CI of difference [2.84–111.33], p¼0.04 or
TAU group, 95% CI of difference [52.17–141.90], p50.001.
There was no difference between the imitation/JA and TAU
group, p¼0.34.
Outcome measures
The severity index of the ADOS [43] was used to assess
severity of autism symptoms [48].
The Preschool Imitation and Praxis Scale (PIPS) [49] was
used to measure motor imitation. The PIPS consists of 30
items, of which 21 items measure bodily imitation (gestural
and facial imitation) and 9 procedural imitation. The bodily
imitation scale comprises meaningful (e.g. wave good-bye)
and non-meaningful (e.g. place one fist on top of the other)
actions. The procedural scale encompasses goal directed (e.g.
raise a toy bear by pulling a cord) and non-goal directed (e.g.
open a box, turn it upside down and put a block on the bottom
of the box) actions.
The structured version of the Test of Pretend play (ToPP)
[50] was used to asses three main types of pretend play: object
substitution, property attribution and reference to an absent
object. The test assesses the child’s ability to use him/herself
as the object of pretend play as well as the ability to use a doll
or teddy bear as agent. Moreover, the ability to combine play
acts into a script is tested. A nonverbal version, in which
actions were modelled, was used in children with a language
comprehension level of less than three years old. In children
with a better language comprehension, we used the verbal
version, in which besides modelled actions, also verbal
instructions were used. Every item consists of a part were
the child can produce original play and a part were the child is
asked to copy a modelled action (e.g. using an ambiguous
object as a hat for a doll) or to follow an instruction (‘‘show
me the bear is sad’’).
The abridged version of the Early Social Communication
Scales (ESCS) [51] was used to measure initiation of JA
(IJA), initiating behaviour request (IBR) and response to JA
(RJA). Four different mechanical toys (three wind-up toys
and a pop-up puppet) were activated in sight of the
children. The experimenter gave each toy to the child when
he or she requested it. The child could play with the toy for
30 seconds, after which the experimenter requested the toy
back and activated it again. This procedure was repeated
with each toy three times. Two of the toys were first placed
in a box that the child could not open by himself and were
given to the child in the box in order to elicit requesting to
open it. In order to assess RJA, four pictures (A4 size) of
Winnie the Pooh and friends were placed on the walls right
and left of the child, two in their visual field (at
approximately 60 degrees from the child’s midline) and
two behind the child (at approximately 150 degrees form
the child’s midline). After gaining the child’s attention, the
experimenter gazed at each of the four posters and said the
name of the child three times before looking back to the
child. If the child did not follow the gaze of the
experimenter to the first two posters, a pointing gesture
was added for the last two posters. Children received a
score from 0 to 4, depending on the number of posters they
followed the gaze and/or point to.
The coding of the ESCS was done with the Observer XT,
version 9.0, Wageningen, The Netherlands [52] by four
independent coders. Scores for IJA and IBR were based on
frequency counts of nonverbal and verbal communication
during the whole observation. Verbal communication was
included because we tested children up to six years old in our
sample. It can be expected that the older children become, the
more they will use language as a means for sharing attention.
Yoder et al. [53] also used the ESCS to count the frequency of
nonverbal and verbal JA, (called unweighted triadic commu-
nication) and showed that the frequency of the unweighted
triadic communication remained stable in siblings of children
with ASD between 15 and 34 months. Because this is a period
in which children become more verbal, these results suggest
that the amount of nonverbal JA decreased in that same
period. It seemed thus important for this study to use a
combined measure of nonverbal and verbal JA to be able to
draw conclusions on the effect of the interventions on JA.
The following nonverbal IJA behaviours were observed:
(1) making eye contact with the experimenter to share
interest, (2) alternating eye contact between an active/moving
toy and the experimenter, (3) proximal or distal pointing with
or without eye contact to share interest and (4) showing an
Table IV. Average distribution of the treatment time and total weekly
treatment duration in the different intervention groups.
Intervention type ABA Imitation/JA TAU
ABA-intervention
Individual 42% (27%) 0% 0%
Group 0% 0% 0%
Imitation/JA training
Individual 0% 14% (8%) 0%
Group 0% 1% (3%) 0%
Other ASD specific
Individual 1% (4%) 2% (6%) 7% (13%)
Group 0% 1% (4%) 15% (26%)
General speech-language therapy
Individual 12% (18%) 16% (12%) 20% (19%)
Group 0% 7% (10%) 5% (7%)
Occupational training
Individual 20% (17%) 19% (11%) 17% (12%)
Group 0% 4% (9%) 6% (9%)
Physiotherapy
Individual 16% (15%) 15% (12%) 12% (11%)
Group 2% (6%) 6% (9%) 8% (12%)
School intervention
Individual 6% (15%) 15% (19%) 12% (16%)
Group 0% 0% 0%
Total intervention time
Individual 178.50 (49.77) 196.67 (77.17) 162.00 (65.70)
Group 5.25 (12.82) 62.33 (119.49) 102.29 (107.21)
Total 183.75 (51.55) 259.00 (101.95) 264.29 (117.61)
Percentages are averages and standard deviations (between brackets)
within each treatment group. Total intervention time is presented in
minutes a week.
ABA¼applied behaviour analysis; JA¼ joint attention; and
TAU¼ treatment as usual.
166 S. Van der Paelt et al. Dev Neurorehabil, 2016; 19(3): 162–174
object to the experimenter with eye contact. Verbal IJA was
defined as using one or more words to share interest with the
experimenter. The following nonverbal IBR behaviours were
coded: (1) making eye contact with the experimenter to
request something, (2) reaching for a toy, with and without
eye contact, (3) proximal or distal pointing with and without
eye contact to request and (4) giving an object to the
experimenter. Verbal IBR was defined as using one or more
words to request something. Nonverbal and verbal scores for
IJA and IBR were combined in a total IJA score and a total
IBR score. Interrater reliability was determined with single
measures intraclass correlations (ICCs) by double coding of
25% of the observations. The ICCs were 0.94 for nonverbal
IJA, 0.96 for verbal IJA, 0.87 for nonverbal IBR, 0.91 for
verbal IBR and 0.84 for RJA.
The Reynell Developmental Language Scales – Dutch
version (RTOS) [54] was used to assess expressive and
receptive language. Normative data, based on a sample of
Dutch speaking children, were available.
Parents were asked to fill out a screener version of the
Vineland Adaptive Behavior Scales [55]. This questionnaire
was used to measure adaptive behaviour. This questionnaire
has good psychometric properties: internal consistency
Cronbach’s alpha of 0.90, inter-observer agreement between
mothers and fathers ICC of 0.97, test–retest reliability ICC of
0.99 and adequate contents-, construct- and criterion
validity.
The Dutch version [56] of the Social Communication
Questionnaire [57] was used as a parent report measure of
symptom severity at home. The psychometric properties of
this instrument are good: internal consistency Cronbach’s
alpha of 0.90 and adequate construct validity.
The total problem score on the Dutch version [58] of the
Child Behaviour Checklist 1
1/2
–5 years, [59] was used as a
measure of social-emotional problems at home. This measure
has good psychometric properties: test–retest reliability r of
0.90, inter-observer agreement between mothers and fathers r
of 0.65 and adequate contents-, construct- and criterion
validity.
Procedure
Pre-and post-tests were administered in the treatment centres
of the children, both on two separate days, with approximately
one week in between. The first assessment started with the
ADOS, after which the PIPS was administered. The second
assessment consisted of the ESCS, ToPP and RTOS, in this
order. Both assessments took approximately 60–90 minutes.
Time between pre- and post assessment was six months. The
assessment was videotaped, and all the tests were scored
afterwards from the video.
Parents received the questionnaires from the therapy
centre. They were asked to fill them out at home and hand
them in afterwards in the therapy centre. Fifty-eight percent
of the parents filled out and returned the questionnaires both
at the pre- and post-test. The study design was prospectively
reviewed and approved by the Ethics Committee of
the Faculty of Psychology and Educational Sciences of
Ghent University, where the study was conducted. Parents
gave their written consent prior to the inclusion of their
children in the study.
Results
Comparison of treatment effect between the
intervention groups
We performed two repeated measures MANOVAs with time
(pre- vs. post-test) as a within group independent variable and
intervention group as a between group independent variable.
Imitation, pretend play, IJA, IBR, RJA, receptive language,
expressive language and ADOS symptom severity were
entered as dependent variables in the first analysis. The
results from parent questionnaires (adaptive behaviour, ASD
symptoms and social-emotional problems) were entered in a
separate analysis because these data were not available for all
children. Raw scores were used for imitation, pretend play,
language and adaptive behaviour because some children had
bottom scores on age equivalent scores (AE). Furthermore,
for social-emotional problems, we used the raw scores,
because some children were older than the upper age limit
of five years. Descriptive statistics for pre- and post meas-
urement in the different intervention groups of all dependent
variables are presented in Table V.
The repeated measures MANOVA with the test results
as dependent measures revealed no interaction between
intervention group and time, which means that the progress
children made, was not different in the three intervention
groups, F(16, 152)¼0.59, p¼0.89. There was also no
main effect of intervention group, which shows the groups
did not have significantly different scores on these meas-
ures, irrespective of the progress they had made during
the intervention phase, F(16, 152)¼1.41, p¼0.14.
However, there was a main effect of time, indicating that
irrespective of the intervention group, post scores differed
significantly from pre scores, F(8, 75)¼14.69, p50.001,
��2¼0.61. Univariate analyses showed a significant increase
in imitation, F(1, 82)¼20.59, p50.001, ��2¼0.20, pretend
play, F(1, 82)¼38.86, p50.001, ��2¼0.32, receptive lan-
guage, F(1, 82)¼99.70, p50.001, ��2¼0.55, expressive
language, F(1, 82)¼47.68, p50.001, ��2¼0.37 and IJA,
F(1, 82)¼4.01, p¼0.048, ��2¼0.05 and a significant
decrease in ADOS severity score, F(1, 82)¼5.32, p¼0.02,
��2¼0.06. There was no significant difference between pre-
and post-test in IBR, F(1, 82)¼0.22, p¼0.64, or RJA,
F(1, 82)¼0.50, p¼0.48.
The repeated measures MANOVA with the parent report
variables also showed no difference in the progress of the three
intervention groups, F(6, 90)¼0.47, p¼0.83 and no differ-
ence between the groups, irrespective of time, F(6, 90)¼1.00,
p¼0.43. Again, there was a significant main effect of time,
F(3, 44)¼6.18, p¼0.001, ��2¼0.30. Univariate tests
revealed a significant increase in adaptive behaviour, F(1,
46)¼16.48, p50.001, ��2¼0.26. There was no difference
between pre- and post-test in social-emotional problems,
F(1,46)¼0.04, p¼0.84 or ASD symptoms, F(1, 46)¼3.87,
p¼0.06.
Individual variability
For imitation, pretend play, language abilities and adaptive
behaviour (parent report), AE scores were available (the
manuals of these instruments contained information to
DOI: 10.3109/17518423.2014.933983 Effect of community interventions on social-communicative abilities 167
convert the raw scores in AE scores), making it possible to
compare the progress children had made with a normal
developmental path. Difference scores of the pre- and post AE
scores were computed for each of these abilities. For each
intervention method, we categorized each child in one of four
groups, based on the progress they had made. A distinction
was made between children who declined, made limited
progress (0–2 months progress in AE in a six-month-period),
moderate progress (3–5 months progress in AE in a six-
month-period) or followed a normal developmental path/
progressed faster than the average normal developmental path
(�6 months progress in AE in a six-month-period). Figure 1
shows the percentage of children in each group for imitation
(a), pretend play (b), receptive language (c), expressive
language (d) and adaptive behaviour (e). The graphs show that
for all abilities measured and in all the intervention groups,
there was clear variability in outcome. It is apparent that for
each of the abilities and in each intervention group, a
substantial number of children either declined (between 5%
and 35% depending on the specific ability and intervention
method) or made limited progress (between 7% and 70%
depending on the specific ability and intervention method),
but also a substantial number progressed at an age-equivalent
developmental rate or even faster (between 20% and 63%
depending on the specific ability and intervention method).
For pretend play, receptive and expressive language only a
minority progressed at a moderate rate (most percentages
between 6% and 14%, except for receptive language in the
TAU group 34%). For imitation and adaptive behaviour, this
group was larger, but still consisted of less than one-third of
the children (between 18% and 33% depending on the specific
ability and intervention method). The distribution of the
amount of progress was not different in the three intervention
groups for imitation, �2(6)¼6.99, p¼0.32, pretend play,
�2(6)¼6.55, p¼0.37, expressive language, �2(6)¼5.76,
p¼0.45 and adaptive behaviour, �2(6)¼2.96, p¼0.81.
There was however a difference between the groups in the
distribution of the progress in receptive language,
�
2
(6)¼15.82, p¼0.02. Children in the TAU group were
equally distributed in minimal, moderate and age-equivalent
progress, whereas the majority (65%) of the children in the
ABA group showed minimal progress and most children in
the imitation/JA group either showed minimal (33%) or age-
equivalent (50%) progress.
Besides a categorisation for each outcome measure
separately, it seemed relevant to make a global categorisation
to describe the progress children made in general. The
categorisation was done post-hoc and was based on the
Table V. Descriptive statistics of the dependent measures at pre- and posttest in the different intervention groups.
ABA Imitation/JA TAU
Measure Pre Post Pre Post Pre Post
Imitation
a
M (SD) 16.30 (21.10) 23.00 (22.57) 34.80 (24.10) 40.37 (21.91) 39.97 (22.31) 44.69 (19.07)
Range 0–68 0–66 0–67 0–69 0–78 0–73
Pretend play
a
M (SD) 5.35 (7.49) 8.80 (9.13) 10.33 (8.62) 14.00 (9.25) 13.37 (9.36) 17.17 (9.06)
Range 0–25 0–27 0–30 0–29 0–33 0–33
Receptive language
a
M (SD) 12.75 (18.42) 20.30 (20.79) 29.27 (21.02) 36.80 (20.37) 36.03 (22.30) 43.31 (19.64)
Range 0–58 0–64 0–69 0–71 0–69 2–71
Expressive language
a
M (SD) 12.05 (20.68) 17.10 (22.94) 27.03 (23.78) 35.97 (22.76) 34.91 (25.45) 43.37 (22.30)
Range 0–69 0–65 0–67 0–74 0–75 0–76
ADOS symptom severity
M (SD) 6.55 (2.21) 5.70 (1.92) 5.97 (2.44) 5.43 (2.81) 5.23 (1.85) 4.97 (2.18)
Range 1–10 1–9 1–10 1–10 1–8 1–9
IJA
b
M (SD) 1.81 (2.40) 1.95 (2.02) 2.69 (1.34) 3.26 (2.11) 2.98 (1.55) 3.39 (1.96)
Range 0.00–9.67 0.00–6.56 0.08–5.33 0.00–7.51 0.24–6.94 0.40–7.56
IBR
c
M (SD) 1.88 (1.40) 2.18 (1.70) 2.10 (1.33) 1.98 (1.37) 2.25 (1.22) 2.27 (1.11)
Range 0.00–5.66 0.24–6.72 0.45–5.51 0.28–5.71 0.12–5.73 0.22–5.14
RJA
d
M (SD) 0.46 (0.39) 0.43 (0.33) 0.52 (0.29) 0.62 (0.29) 0.60 (0.30) 0.61 (0.30)
Range 0–1 0–1 0–1 0–1 0–1 0–1
Adaptive behaviour (PR)
a,e
M (SD) 51.00 (37.31) 56.17 (34.58) 61.24 (28.09) 71.53 (34.76) 68.25 (30.91) 74.80 (27.28)
Range 8–112 6–118 12–103 6–120 13–118 17–122
ASD symptoms (PR)
a,e
M (SD) 18.33 (7.79) 18.25 (7.11) 15.94 (6.39) 14.06 (7.27) 16.65 (6.12) 15.05 (5.46)
Range 6–27 7–28 5–26 1–28 6–30 6–29
Social–emotional problems (PR)
a,e
M (SD) 58.58 (29.49) 58.17 (31.21) 52.00 (21.38) 49.82 (22.36) 62.40 (27.31) 63.25 (27.28)
Range 15–111 16–114 15–86 9–80 26–121 19–112
a
Raw score.
b
Rate per minute of initiating joint attention.
c
Rate per minute of initiating behavioural request.
d
Proportion of responding to joint attention.
e
Parent report.
168 S. Van der Paelt et al. Dev Neurorehabil, 2016; 19(3): 162–174
difference scores of the AE scores for imitation, pretend play,
receptive and expressive language. The AE score for adaptive
behaviour was not used in this study because these data were
missing for part of the children. The resulting (mutually
exclusive) categories were as follows:
(1) Good progress: These children followed for at least three
of the four outcome measures a normal developmental
path or faster (� 6 months progress in AE in a six-month-
period).
(2) Moderate to good progress: These were children who
made moderate progress (3–5 months progress in AE) on
at least three outcome measures or made moderate
progress on two outcome measures and followed a
normal developmental path or faster on the other two
outcome
measures.
(3) Mixed: These children followed a normal developmental
path or faster on one or two outcome measures, but made
limited (not more than two months progress in AE) or no
progress or even deteriorated on at least one other
outcome measure.
(4) Limited to moderate progress: These children made
moderate progress (3–5 months progress in AE) on one
or two outcome measures and limited progress (not more
than two months progress in AE), no progress or
deteriorated on the other outcome measures.
(5) Limited progress: These children made either limited
progress (not more than two months progress in AE), no
progress or deteriorated on each of the four outcome
measures.
Figure 2 shows the percentage of children in each outcome
category for the three intervention groups.
The graph shows that the largest part of the children either
made good progress (26% of the total group), limited progress
(19% of the total group) or showed a mixed profile (34% of
the total group). Few children made predominately moderate
progress (with 7% of the total group in the moderate to good
and 14% in the limited to moderate categories). The
distribution of the amount of progress was not different in
the three intervention groups, �2(8)¼11.90, p¼0.16.
Predicting outcome
Because we found no difference in the average scores for the
different intervention groups, we additionally performed a
multinomial logistic regression analysis to explore possible
factors contributing to the individual variability in the global
100%90%80%70%60%50%40%30%20%10%0%
100%90%80%70%60%50%40%30%20%10%0%
100%90%80%70%60%50%40%30%20%10%0%
100%90%80%70%60%50%40%30%20%10%0%
100%90%80%70%60%50%40%30%20%10%0%
Decline
0-2 months progress
3-5 months progress
≥ 6 months progress
Decline
0-2 months progress
3-5 months progress
≥ 6 months progress
Decline
0-2 months progress
3-5 months progress
≥ 6 months progress
Decline
0-2 months progress
3-5 months progress
≥ 6 months progress
Decline
0-2 months progress
3-5 months progress
≥ 6 months progress
ABA (a) (b)
(c)
(e)
(d)
Imitation/JA TAU
ABA Imitation/JA TAU
ABA Imitation/JA TAU ABA Imitation/JA TAU
ABA Imitation/JA TAU
Figure 1. Percentage of children in each of the different outcome categories in the applied behaviour analysis (ABA), Imitation/Joint attention
(Imitation/JA) and Treatment as usual (TAU) intervention groups for imitation (a), pretend play (b), receptive language (c), expressive language (d) and
adaptive behaviour (e).
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
Limited progress
Limited-moderate progress
Mixed
Moderate-good progress
ABA Imitation/JA TAU
Good progress
Figure 2. Percentage of children in each of the different global outcome
categories in the applied behaviour analysis (ABA), Imitation/Joint
attention (Imitation/JA) and Treatment as usual (TAU) intervention
groups.
DOI: 10.3109/17518423.2014.933983 Effect of community interventions on social-communicative abilities 169
outcome categorisation. We chose a model with the global
progress categories over several multiple regression analyses
with the different outcome measures as dependent variables to
avoid making type-I errors due to multiple testing and
because predicting the global categorisation seemed more
clinically relevant. Age, IQ-category, autism severity and
treatment intensity (total number of hours of intervention a
week, number of hours of 1:1 intervention and number of
months in intervention before the start of the study) were
chosen as predictors because previous research pointed to
these variables as predictors of the outcome of an interven-
tion. Moreover, since there was a significant difference in the
distribution of the education types in the three intervention
groups, we also assessed whether children in different types of
education (regular education, regular education with support,
special education and not in school yet) progressed in
different ways. Intervention group and the interactions
between each of the continuous predictors and intervention
group were added to test for the possible moderating effect of
the intervention group (different effect of predictors on
outcome for children who received a different intervention).
In order to comply with the assumptions of logistic regres-
sion, two adaptations were made. First, we merged the
moderate to good and good progress categories and also the
limited to moderate and limited progress categories. This was
done to assure that there would be enough observations in
each cell of the IQ-category�progress-category-matrix,
education-category�progress-category-matrix and interven-
tion group�progress-category-matrix. Second, age was
omitted as predictor because this predictor violated the
linearity-assumption (there was no linear relationship between
age and the logit of the outcome variable). IQ, intervention-
group, autism severity, total number of hours of intervention,
number of hours of 1:1 intervention and amount of interven-
tion before the study started were forced into the model.
Education type and the interaction between the intensity
variables and autism severity with the intervention group were
entered in a second step with the forward entry method (only
variables that significantly improve the predictive ability of
the model are added).
The multinomial regression analysis showed that the only
significant predictors in the final model were IQ,
�2(6)¼21.04, p¼0.002 and education type, �2(6)¼17.02,
p¼0.01. Parameter estimates of the final model showed that
children with an IQ below 55 were less likely to belong to the
mixed progress group, than the least progress group, in
comparison to children with a normal IQ, �2(1)¼4.57,
p¼0.03. The odds ratio was 0.09 (with a 95% CI of [0.01–
0.82]. Moreover, children with an IQ below 55 were also less
likely to belong to the best progress group, than the least
progress group, in comparison to children with a normal IQ,
�
2
(1)¼3.75, p¼0.05. The odds ratio was 0.10, with a 95%
CI of [0.01–1.03]. There were no other significant IQ effects.
Furthermore, parameter estimates for education type, showed
that children in special education were more likely to belong
to the mixed progress group than the least progress group, in
comparison with children that did not go to school,
�2(1)¼4.30, p¼0.04. The odds ratio was 13.97, with a
95% CI of [1.15–196.16]. There were no other significant
education type effects. There was no significant contribution
to the model of total number of hours of intervention,
�2(2)¼3.89, p¼0.14, number of hours of 1:1 interven-
tion, �2(2)¼0.68, p¼0.71, number of months in interven-
tion, �
2
(2)¼0.52, p¼0.77, autism severity, �2(2)¼0.92,
p¼0.63 or intervention group, �2(4)¼3.37, p¼0.50.
Discussion
The first goal of this study was to compare the effect of
different methods of intervention, used in community settings,
on social-communicative abilities in young children with
ASD. Our results reveal that on average, there is no difference
between the intervention methods in the amount of progress
children make with respect to their social-communicative
abilities in a six-month-period. This is in contradiction with
several previous studies that have found that ABA [3, 10, 11,
60] or interventions targeting imitation or JA [27, 30, 31]
were more effective in stimulating these abilities than TAU.
There are several possible explanations for the lack of
difference between the interventions. First, we studied the
interventions in a community setting, where it is more
difficult to clearly distinguish one method from another than
when using a RCT. Clinicians tend to adapt evidence-based
interventions and often use combinations of interventions,
with a varied level of scientific support [33]. Indeed, also in
this research, few therapists in the imitation/JA group exactly
followed the intervention manual they were given. Instead,
most therapists only used part of the sessions described in the
manual, supplemented with variations to the sessions with
other materials. Moreover, the goals targeted in the three
intervention groups were partly similar, with social-commu-
nicative abilities being targeted in almost all children. This
means that despite the clear differences between the inter-
vention methods, they also had similarities which could have
been responsible for the similar effect observed with all three
methods. Our results are in line with previous studies that also
found no difference between ABA and TAU in community
settings [16, 34].
A second factor, that could explain the lack of difference
found in this study, is the low treatment intensity. Previous
studies [13, 15] have shown that the treatment intensity is
associated with the amount of progress children make.
Moreover, Eldevik et al. [10] found that less intensive ABA
(12–20 hours a week) is not as effective as the traditional 40
hours a week of ABA-intervention. In this study, children in
the ABA group only received one hour of ABA-intervention a
week on average (maximum 4.5 hours a week). Since ABA is
a method that relies heavily on the repetition of the prompt-
behaviour-reward-sequence, it is plausible that one hour per
week does not give a child with ASD an adequate amount of
opportunities to practice the skills that are being taught.
Moreover, imitation and JA were on average targeted for only
30 minutes a week in the imitation/JA group. Although
previous studies have shown that also low-intensive interven-
tions can lead to a bigger improvement in social-communi-
cative abilities compared to TAU [27, 29], it is plausible that a
more intensive training of these abilities would be more likely
to reveal differences with TAU.
Third, if children in the TAU group make on average the
same amount of progress than children receiving ABA and
170 S. Van der Paelt et al. Dev Neurorehabil, 2016; 19(3): 162–174
imitation/JA interventions, this could point to a good quality
of regular care for children with ASD in Flanders (the Dutch
speaking part of Belgium, where the study took place).
Support for this claim can be found in the significant progress
that children in the TAU group have made on most outcome
measures, which contrasts with several previous studies that
found no progress or even a deterioration in TAU [3, 10, 30,
31, 60]. However, we cannot be sure that the participating
centres of the TAU group are representative of regular care in
Flanders. There could be a selection bias, with centres
providing more than average quality of care to children with
ASD, being more willing to participate in the study. Either
way, since children in the TAU group made substantial
progress, it was more difficult to find a significant difference
with the imitation/JA and ABA interventions.
Even though the intervention was less intensive than
interventions in a lot of earlier reported studies, we found
significant progress on almost all dependent measures,
irrespective of the method. Especially, the decrease in the
ADOS severity score is remarkable, since several previous
studies with more intensive interventions, failed to show a
decrease in symptoms of ASD on the ADOS [16, 32]. The
majority of the studies on early intervention use cognitive and
adaptive behaviour and sometimes also language as outcome
measures. This study is one of the first to show significant
progress with a low-intensive intervention on a comprehen-
sive standardized assessment battery of social-communicative
abilities in a large sample of preschoolers with ASD.
A second goal of the study was to assess the individual
variability in outcome. We found clear individual variability
for all outcome measures, for which AE scores were available.
There was no difference between the intervention groups in
the distribution of the amount of progress for four out of five
outcome measures. Only the distribution of receptive lan-
guage differed. Half of the children in the imitation/JA group
progressed at a rate equivalent to normal development or
faster. This is in line with studies showing a collateral effect
of training imitation and JA on language [18, 28]. However,
also 40% of the children in this group made very limited
progress or declined on receptive language, which means that
the training did not have the same effect on all children. In the
ABA-group, 65% made no progress or limited progress on
receptive language, while only 25% progressed at a normal
rate. Although on average, there was no significant difference
on any of the outcome measures between the groups at the
start of the study, the ABA-group had the largest part of
children who had no spoken language at the pre-test and
showed no or limited receptive language skills. Before
receptive language could be stimulated in these children,
certain other skills (for example basic interaction skills and
JA) may have had to improve first. This could account for the
large part of children of the ABA-group making limited
progress on receptive language.
Furthermore, the general categorisation of children, taking
into account progress on imitation, pretend play and language,
shows clear individual variability. The large individual
variability could imply that there are good and poor
responders to each of the intervention methods. Children
who manage to make the same amount of progress or
even more than typically developing children on
social-communicative abilities are children who seem to
respond well to the intervention. In general, 26% of the
children made good progress on most outcome measures.
Thirty-four percent showed a mixed profile, with good
progress on some but very little or no progress on other
outcome measures. Possibly, the limited intensity of the
intervention implies that therapists can only target some of the
social-communicative abilities at once in the six-month-
period, which could explain the discrepancy in the progress in
this group of children. However, there is also a substantial
part of the children (19%) that made little or no progress or
even deteriorated on imitation, pretend play and language. It
seems thus important to gain more information on the
characteristics of these good and poor responders. Possibly,
these are different for several intervention methods, making it
crucial to focus future research on the question ‘‘What works
for whom?’’ instead of trying to find a one-size-fits-all-
treatment for children with ASD.
Few studies report on the individual variability of outcome
in community interventions, making it difficult to compare
our results. An exception is the study by Perry et al. [14], who
divided 332 children in several categories based on their
outcome after completion of an intensive ABA intervention in
community settings. Although this study used different
outcome measures (autism severity, cognitive and adaptive
functioning) and the intervention was much more intensive,
the results are quite similar to ours. They found that 25% of
their sample made clear improvement (had typical rates of
development or better and a decrease in autism severity), 41%
moderate improvement (rate of development between 0.50
and average or significant improvement in autism severity)
and 33% minimal improvement or deterioration (rate of
development of less than 0.50 and no improvement in autism
severity).
Remarkably, only a minority of the children in our study
belonged to the category that made predominantly moderate
progress. This has important implications, because a lot of the
research on early intervention in ASD bases its conclusions on
group-averages. If few children are average, conclusions
based on averages may be less informative. It seems crucial
for future research to take into account more the variability in
outcome.
Our results show that part of the variability in progress can
be explained by differences in IQ and education type. That IQ
is a significant predictor for the outcome of an intervention
replicates earlier studies [e.g. 13, 14]. In our sample,
especially children with an IQ below 55 had a smaller
chance of making moderate or good progress compared to
children with an average IQ. To our knowledge, no study
before compared children with ASD in regular and special
education to children who do not go to school. Our results
reveal that children with ASD who do not go to school yet,
have a higher chance at making minimal progress compared
to mixed progress (good progress on some, but limited
progress on other outcome measures) than children in special
education. A possible explanation for this finding could be
that children who do not go to school receive substantially
less stimulation of their social-communicative abilities, which
could lead to a lesser amount of progress. An alternative
explanation is that these children are less used to following
DOI: 10.3109/17518423.2014.933983 Effect of community interventions on social-communicative abilities 171
instructions, which leads to less cooperation during testing.
However, causal inferences cannot be made from this kind of
analysis, which implies that a third unknown factor related to
the education type, could also be responsible for the results.
There was only a significant difference between no education
and special education, not between no education and regular
education. This could have been caused by a more even
distribution between mixed and good progress in the children
who attended regular education, while children in special
education were more in the mixed category. The different
progress dependent on education type is an important finding,
given the differences in distribution of education types in the
intervention groups. The ABA group had more children who
did not go to school yet, which may have influenced the
results. The predictive value of the intensity of the interven-
tion that was found in previous studies was not replicated in
this study. A possible explanation of this result is that
relatively small differences in intensity (e.g. one hour more or
less) do not have an equally big impact on the outcome as the
larger differences in intensity that were reported in other
studies [e.g. 13]. Whether age could predict the progress
children made, could not be assessed, since the assumption
of linearity was not met. Possibly the relationship between
age and progress is non-linear with peaks in progress at
certain ages.
A limitation of this study is that since random assignment
was not possible, we cannot assure that the three groups
differed only on the intervention method. There was, however,
no bias in the allocation to the treatment groups, because
parents chose for a particular treatment centre based solely
on the place of residence. Moreover, we showed that the
treatment groups did not differ significantly on any of the
outcome measures at the start of the study. However, we
should note that the p-levels of the tests concerning the pre-
existing differences between the groups on the outcome
measures, age and IQ were all below 0.20, which is too low to
conclude that the groups were well-matched. Both IQ and age
are related to the outcome of intervention [13–15]. However,
since the children in the ABA group seemed to have a lower
IQ on average, they also seemed to be slightly younger, these
factors may have levelled each other out in their effect on the
progress of the children. Although there were no average age
differences, the youngest child in the imitation/JA group was
already 30 months, while the youngest children in the ABA
and TAU group were respectively 22 and 24 months old. It
seems, however, unlikely that this had a large effect on the
results, since the number of children in both the ABA and
TAU groups between 22 and 30 months was very limited.
Moreover, there were differences in education type, which is a
factor that was associated with overall progress. Although
quasi-experimental designs have obvious disadvantages, the
benefit of studying interventions in the real world is that it
maximizes external validity. RCT’s are important in showing
the effect of an intervention under ideal circumstances. It is,
however, equally important to show that a treatment is
effective in a naturalistic setting, where circumstances are
seldom ideal.
Second, since there was no comparison group, which
received no treatment, we cannot be sure that the progress we
observed was caused by the treatment and not merely by
maturation. However, the significant decrease in symptoms of
ASD after only six months of intervention does not seem to be
the result of maturation. Moreover, a substantial subgroup
made progress in social-communicative abilities at the same
rate as typically developing children, which is not what one
would expect without intervention, given that these abilities
are generally impaired in children with ASD [20, 21, 61].
A third limitation is the rather low response rate on the
parent questionnaires. We cannot rule out that parents who
were more motivated to fill out questionnaires differed in
some respects from parents who did not fill out the
questionnaires. For example, this could be parents who were
more involved with the intervention of their children or
parents who were higher educated, which are factors that
could have an influence on the progress children make. The
low response rate may be explained partly by the lack of
personal contact between researcher and parents. The children
were tested in the therapy centres, without the parents being
present. Because of this, the questionnaires were not handed
directly to the parents by the researcher but afterwards by the
therapists. Fourth, the assessments were conducted by the first
author or one of three research assistants. Only the research
assistants were blind for the treatment group. A last limitation
is the rather small sample size of the subgroups, especially of
the ABA group. A study with a larger sample size would have
had more power to detect differences between the intervention
groups. Given the large p values for the repeated measures
analyses of the interaction between intervention group and
time, it seems, however, unlikely that the lack of difference in
treatment effect can be attributed to limited power. On the
other hand, a larger sample size would have been useful to
assess the effect of the intervention method as a moderator in
the regression model. We found no significant moderating
effect of intervention group, but cannot exclude that this was
not due to limited power.
This study has important implications for clinical practice.
First of all, it does not seem beneficial to add low intensity
ABA or imitation/JA intervention to TAU for all children with
ASD. However, adding these interventions can possibly lead
to better results for a subgroup of children. Therefore more
research is needed to define the characteristics of those
children. Second, there is a substantial number of children
that makes limited or no progress. Possibly, these children
would benefit from a more intensive intervention or would
make more progress with a different intervention method.
Future research could address this question by studying poor
responders and looking at the effect of changes in treatment
intensity and method. Clinicians can address this issue by
regular evaluation of the treatment effect and adapting the
intervention method used, when progress fails to occur.
Concluding, on average, there is no different effect of low-
intensive ABA, imitation/JA training and TAU used in
community settings after six months intervention on social-
communicative abilities, symptoms of ASD, adaptive behav-
iour and social-emotional functioning. On average, children in
all three groups made significant progress on imitation,
pretend play, IJA, receptive and expressive language and
adaptive behaviour and showed a decrease in autism severity.
There was however great individual variability in the
outcome in all three intervention groups. While a substantial
172 S. Van der Paelt et al. Dev Neurorehabil, 2016; 19(3): 162–174
proportion of children made good progress, there was a
subgroup that made hardly any progress. It seems important to
focus on ‘‘What works for whom’’ instead of trying to find a
one-size-fits-all-treatment for children with ASD.
Notes
1. Some treatment centres only provided intervention to
children in regular education.
2. The videos were collected for a separate study on the
interaction between therapist and child during an ABA-
session [47] and were thus only available for the children
in the ABA-group.
Acknowledgements
We thank Sig vzw for their help in the recruitment and we
thank the treatment centres and families for participating.
Declaration of interest
The authors declare that they have no conflict of interest.
Partial funding for this research was provided by support
from Steunpunt Expertisenetwerken, Vlaamse Vereniging
Autisme and Sig vzw.
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Introduction
Methods
Results
Discussion
Notes
Acknowledgements
Declaration of interest
References
Procedure
ASD children
92 children recruited
16 Funded multidisciplinary centers
Using DSM-IV-TR
8 children with Dx. at HR for ASD
5 treatment centers used ABA
6 treatment centers used Imitation & TAU
7 children dropped out
85 children, ages 22-75 months
5 treatment centers TAU
Characteristics investigated
Age
Autism severity
Time elapsed
Maternal & paternal
Gender
IQ
Education
Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition, Text Revision (DSM-IV-TR).
Children divided into 3 intervention groups.
1
Results
Based on 3 interventions
ABA – Applied Behavior Analysis
JA- Joint attention
TAU- Treatment as usual.
Study was analyzed based on comparison of treatment between intervention groups.
Using 2 repeated MANOVA Analysis
Results from questionnaires were analyzed differently.
Descriptive statistics for pre & post measurement in the different intervention groups of all dependent variables.
Test results revealed no interaction between intervention group & time, which means that the progress children made, was not different in the 3 intervention groups.
There was an effect of time irrespective of intervention group.
Time
Intervention group
There was no stastical difference in intervention groups and the various intervention measures carried out.
2
Individual variability
Progress Age Outcomes % of Progress
1 Measurement of interventions 22- 75 months Imitation, Pretend Play, language abilities & adaptive behavior. All three intervention groups (ABA, TAU, & JA)
Good progress > 6 months in AE 3 or 4 outcomes. 26%
Moderate to good progress 3-5 months in AE 3 outcomes 7%
Mixed progress Normal development plan 1-2 outcomes 34%
Limited to moderate progress 3-5 months 1-2 outcomes 14%
Limited progress No progress or deteriorated Not ˃ 2 months, 19%
This is a simplified table of how the results were presented. For the various interventions they employed, there had to be measurements. They classified progress into categories of good to little progress (5 categories). Then, defined the ages that would signify if a child has undergone improvement or not, depending on how good they perform in different outcomes like Imitation, pretend play etc. Then analyze the total progress percentages of all three interventions.
3
Predicting Outcomes
1. No difference in average scores for different intervention groups.
Used global progress categories over multiple regression analysis.
This enables better analysis of outcomes.
Predictors: Age, IQ-category, autism severity & treatment intensity & number of months in intervention.
2. Significant difference in education types in intervention groups.
3. Found that children in different types of education progressed differently
regular education,
regular education with support,
special education and not in school yet.
4. Merging of progress, intervention groups & analyzing of continuous predictors to ensure enough observations.
5. Age was omitted as a factor.
6. Education type & IQ were the only significant predictors using multinomial regression analysis.
total number of hours of intervention a week, number of hours of 1:1 intervention.
Predictors were used as outcomes- as stated.
4
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