CHAPTER I
Autism Spectrum Disorder
in Infants and Toddlers
An
Introduction
Fred R Volkmar
Katarzyna
Chawarska
Ami Klin
In his original report
on the syndrome of earlu infantile autism, Leo Kanner (1943/1968) indicated
that autism was a congenitial disorder. Although a minority of children seem to
develop autism after some months of normal development, most of the subsequent
work on autism has generally supported his contention (see Volkmar, Chawarska
& Klin, 2005, for a review). Somewhat paradoxically, however, our knowlwdge
of autism asit expressed in the first years of life is quite limited.
Fortunately, within in
the last year decade ago various factors this situation has begun to change. A
little more that a decade ago various factors to delay case detection and early
diagnosis (Single, Pliner, Eschler, & Elliott, 1998), but now various
programs specifically focused on early diagnosis of infants at risk for autism have been developed. Growing public awareness of the condition and an
increasingly large body of work on the importance of early intervention and
stability of early diagnosis (National Research Council, 2011) have increased
interest in the stage of autism. A growing body of research work focused on
this age group has begun to apper. In previous years most of this work was
based on either parent report (Chawarska, Paul, Et al., 2007; Cohen, Volkmar,
& Paul, 1986) or review of videotapes or movies (e,g., Osterling & Dawson,
1994; Werner, Dawson, Oesterling, & Dinno, 2000), with all the attendant
problems associated with the lack of contemporaneous methods. The first
prospective longitudinal studies of young children (Lord, 1995;Lord et al.,
2006) and the recognition of the importance of early intervention have
stimulated the National Institute of children with autism through early diagnosis
and intervention. In this chapter we are concerned with issues of the clinical
expression of autism in infants. Although our major focus is on infancy and
early childhood, some of the work on preschool children is highly relevant and
is touched upon as well. We attempt to
highlight areas critical for future research on this important topic.
AUTISM AS A DIAGNOSTIC CONCEPT
Kanner’s
Original Report
Kanner’s (1943/1968)
original report contrasted the lack of social interest (autism) with the
normative marked predisposition to engage with others. In reciprocal
interactions; he carefully frame his observation developmentally by citing the
work of Gesell on the early emergence of social interest in first weeks of
life. We now are aware that this interest is present from birth in the
typically developing infant. Since Kanner’s first description, the diagnostic
concept has undergone modification based on research and clinical work. At the
same time, the diagnostic conceptualization retains important historical and
conceptual continuities with Kanner’s first description. Kanner emphasized the
centrality of the social difficulties, as well as the presence of sameness “or”
resistence to change.” These unusual
behaviors included unusual movements and mannerisms as well as problems in
dealing with change and novelty. Of the frist 11 patients described in his
report, only one was below age 3 years when Kanner frist examined him, and
three children were between the ages of
3 and 4.
Although Kanner emphasized the uniqueness of the
conditional and its apparent difference from schizophrenia, other clinicians
tended to assume some from of continuity of the two conditions. This issue was
clarified over the next several decades as longitudinal and other data made it
clear that autism formed a distinct diagnostic category. As a result, however,
Kanner’s early focus on “early infantile autism” was lot and most research
focused on school-age or adolescent children.
DSM-I
and DSM-II
Confusion
with childhood schizophrenia
In the frist two editions of the Diagnostic and Statistical Manual of Mental
Disorders (DSM) only the term childhood schizophrenia was officially
available to describe autism. This situation was very unfortunate.
Subsequently, the work of Kolvin (1971) and Rutter (1972) made clear that
autism was distinctive and could not simply be considered an early form of
schizophrenia (Volkmar & klin,2005). Furthermore, available research suggested
that autism was a brain-based disorder and not a result of deviant parent-child
interaction. In parallel with attempts to provide better definitions of adult
psychiatric disorders for research ( Spitzer, Endicott, & Robins, 1978),
similar attempts were made of childhood-onset disorders like autism. Among the
investigators of this time, Rutter (1978) provided an important and influential
synthesis of Kanner’s original report with subsequent research. Rutter
suggested the importance of four essential features: (1) early onset, (2)
distinctively impaired social development, (3) distinctively impaired
communication, and (4) unusual behaviors of the type suggested in Kanner’s
concept of “insistence on sameness” (resistance to change, idiosyncratic
responses to the environment, motor mannerisms and stereotypies,etc.). Rutter
was clear that the social and communication difficulties were not just a
function of associated intellectual disability. These various issue were
considered as autism was first included in the landmark, third edition of DSM (DSM-III; American Psychiatric
Association, 1980).
DSM-III
and DSM-III-R
DSM-III (American Psychiatric
Association, 1980) represented a marked change from its two predecessors. The
taxonomy proposed was based on research
findings and emphasized the importance of an atheoretical and empirically based
set of criteria. Autism was included in a newly designated class of
childhood-onset disorders, Pervasive Developmental Disorders (PDD). A
“subthreshold” condition was included as well, atypical PDD; this term had
considerable (if unintended) overlap with earlier terms such as atypical
personality development (Volkmar & Klin, 2005). The definition included in
DSM-III was heavily dependent on Rutter’s earlier conceptualization and provided
for a clear differentiation of autism from schizophrenia. Interestingly, the
original DSM-III approach lacked a
developmental orientation and, if anything, the criteria proposed were much
more oppropriate to very young children with autism, that is, consistent with
the term infantile autism. Although the use of a multiaxial approach was a clear benefit fir child
psychiatry, some aspects of the organization of this system were confusing- for
example, autism and related disorders were placed on a different axis than
other developmental disorders. A much more developmental orientation was introduced in DSM-III-R (American Psychiatric
Association, 1987), which was greatly influenced by work of Lorna Wing (Wing
& Gould, 1979). Although the now familiar three major areas of dysfunction
were still included, the new criteria were much more detailed and include a range of examples (with the goal of
producing an approach applicable to the broad range of age and developmental
levels.) The use of a polythetic apporoach was also adopted, and the
requirement for early onset was dropped (although onset before or after age 3
could still be specified). The official name of condition was changed from
infantile autism to Autistic Disoder in reflection of these changes. Although
many aspects of the DSM-III-R approach were improvements, it quickly became
apparent that the system tended to “ overdiagnose” autism, particularly in
the cases of more intellectually
challenged children (Rutter & Schopler, 1992). This observation led to the
potential for major difficulties in the comparison of studies using different
diagnostic criteria and also posed problems for pending revision in the
International Classification of Dieseases-tenth edition (ICD-10); World Health Organization,
1990). The ICD and DSM approaches are
fundamentally related and share many aspects of diagnostic coding, although
there are also important differences.
ICD-10
and DSM-IV
Extensive revision of both the ICD and
DSM systems was undertaken early in 1994. As part of the DSM-IV revision
process (American Psyhiatric Association, 1994), attempts were made to
indentify areas of both consensus and controversy such as clinical utility,
reliability, and descriptive validity of categories and criteria. Coordination
with the pending ICD revision was also a consideration. Literature reviews and
data reanalyses were also undertaken for specific issues, such as those
relative to the concept of Childhood Disintegrative Disorder- a concept
included in previous version of ICD but not DSM. Data reanalyses suggested that
the DSM-III-R approach was overbroad, and a decision was made to undertake a
large multinational fieled trial (Volkmar et al., 1994). This fieled trial was
conducted in coordination with the ICD-10 revision effort and included more
than 100 raters working at more than 20 sites around the world. The final
sample included information on nearly 1,000 cases seen by on (or sometimes more
than one) rater. In the nearly 1,000 cases, more than 300 children were less
than 5 years of age (although most were between ages 3 and 5 and no child
younger than 2 was seen). A standard coding system was used to provide basic
information on case and rater and on a number of diagnostic criteria.
The
overall result of the field trial (see Table 1.1) confirmed that DSM-III-R had
a hinher sensitivity but lower specificity, whereas the ICD 10 draft
definition, designed to be a research diagnostic system, had, as expected,
higher specificity. A series of analyses were undertaken, includeing
realiability of criteria and diagnosis, factor analyses, signal detection
analysis, and so forth (Volkmar et al., 1994, klin, Lang, Cicchetti, &
Volkmar, 2000). As expected, social criteria were, as individual diagnostic
items, generally the most potent single diagnostic predictors, and a decision
was made to weigh them more heavily in the final DSM-IV definition. Possible
modification in the ICD-10 system were examined, the goal being to have
convergent definitions in the DSM and ICD. The final diagnostic approach
provided reasonable converage over the range of syndrome expression in autism
as reflected in the filed trial sample and was applicable from early childhood
(i.e.,at about age 3) through adulthood.
It
must be emphasized that the DSM-IV and ICD-10 approach did consider development
aspects of syndrome change, but not surprisingly at that time, the focus was
not on infants and very young children; that is, it appeared that the approach
derived worked satisfactorily starting at about age 3. Interestingly,
examination of some of the DSM-IV field trial data ( children under age 5)
reveals a few items with stronger developmental correlates. In general, such
items were discarded because they would not be applicable to the entire range
of syndrome expression. For example, attachment to unusual objects has low
sensitivity (.50) but high specificity (.90), so that when it is observed, it
has high predictive power for autism but only in this younger age group.
Interest
in the earliest development of children with problems included in the autism
spectrum was also fueled by inclusion of additional.
#Tabel hal 5
Disorders within the revised PDD section
of DSM-IV (e,g., Asperger’s Disorder, Rett’s Disorder and childhood
Disintegrative Disorder). A need to differentiate these disorders highlighted
the importance of understanding development history and early clinical
presentations.
At
the time that DSM-IV appeared (1994), “these was little concern with the
manifestation of autism in infants and very young children. For children by
about age 3, the DSM system appeared to generally work well with reasonable
stability of diagnosis (Lord & Risi, 2000). However, with the growing interest
in genetic mechanism, screening of at-risk populations such as siblings, and
the marked increase in research in the earliest manifestation of autism, there
has been progressively more concern about autism as it is manifested in
infancy. We consider these issue before returing to the problem of early
diagnosis.
CLINICAL PHENOMENOLOGY
Onset
of the condition
As noted, Kanner (1994/1968) emphasized
the apparently congenital nature of autism in his original report. Direct
evidence regarding the actual onset of the symptoms is still lacking, and a
vast majority of the current reports rely on parental recollection regarding
the age of onset and type of frist abnormalities. Although these report s have
their obvioud limitations and the onset of parental concern is likely to follow
the actual time when the symptoms of autism spectrum disorder (ASD) (equivalent
to the term PDD) begin to manifest, they also offer some insight into the
nature of the first concerns that likely to motivate parents to seek
professional advice, which in turn may lead to an earlier initiation of
treatment. Raising parental awareness of the first signs of various
developmental disorders, including ASD, has become one of the priorities of a
number of parent organizations, such as Autism Speaks (www.cdc.gov/ncbddd/autism/actearly/) , as one of
the factors that are likely to contributr to early identification and treatment
of infants with developmental disabilities.
A
number of studies have suggested that the vast majority of parents of children
with ASD first notice abnormalities during the course of the first 2 years life
(Baghdadli, Picot, Pascal, Pry, & Aussilloux, 2003; Chawarska, Paul, et al.,
2007; De Giacome & Fambonne, 1998; Rongers & DiLalla, 1990; Tolbert,
Brown, Fowler, & Parsons, 2001; Volkamar, Stier, & Cohen, 1995). The
first concerns arise on average, in the second years, usually at about 14 month
(Chawarska, Paul, et al., 2007), 17 months (Baghdidli et al.,2003), or 19 months
(De Giacomo & Fambonne, 1998). These ages are likely to be sensitive to
several factors, such as the time elapsing between the onset of parental
concerns and the time when the information was collected. With a shorter lag,
reports of earlier ages of onset are to be expected; otherwise a
“Forward-telescoping” effect seems mate regarding the age when the child began
manifesting first symptoms to later ages.
The
time when parents begin to notice the first abnormities varies, such that
30-50% of parents report concerns in the first year of the child’s life and
80-90% by the second birthday (Baghdadli et al., 2003;Chawarska, , Paul, et
al., 2007; De Giacomo & Fambonne, 1998; Volkamar et al.,1985) there are
relatively few studies reporting on the association between clinical outcome
and the onset of parental concerns. Most of the studies were conducted
retrospectively and produced very mixed results. A recent study examined
prospectively the link between the onset of parental concerns, measured when
the toddlers were between 18 and 36 month, and clinical diagnosis at the age 4
(Chawarska, Paul, et al., 2007). Children who were identified by their parents
as having problems nosed with autism than with Prevasive Developmental
Disorder-Not Otherwise Specified (PDD-NOS). However, those identified by
parents as having difficulties between 11 and 18 month were equally likely to
receive a diagnosis of autism or PDD-NOS at 4 years. Finally, all children in
the group with concerns arising at or after 18 month received a diagnosis of
tionship between the age of parental recognition (and presumably the onset of
symptoms) and clinical diagnosis assigned 2-3 years later and raises a question
of possible variants that manifest differently in the onset of symptoms.
Among
the most common and often first noted concerns are delays in speech and
language development, followed by an abnormal social responsivity level,
medical problems, and nonspecific difficulties related to sleeping, eating, and
attention (Chawarska, Paul, et al.,2007; De Giacome & Fambonne, 1998).
Notably, in young children, the apprearance of stereotyped behaviors, motor
mannerisms, and unusual interests rarely trigger parental concerns, most likely
because of their relatively mild manifestations in infancy or a later onset.
Although concerns regarding the development of speech and the level of social
engagement are frequent for toddlers with autism and PDD-NOS, the nonspecific
concerns related of feeding, eating, and sleep apper to be more frequent for
toddlers with PDD-NOS (Chawarska, Paul, et al.,2007).
Although
the presence of specific delays constitutes a strong basis for parental
concerns, such concerns may also emerge in response to unusual variations in
the rate of progress, such an apparent slowing of development (e.g.,if babbling
is not followed by the emergence of the first words) or a los of previously
acquired skills (regressions) (Siperstein & Volkamar, 2004). Regression is
usually reported in 20-35% of cases (Chawarska, Paul, et al.,2007;Goldberg et
al.2003;Luyster et al., 2005; Rapin & Katzman,
1998;Ronger,2004;Werner&Dowson,2005) and can involve the loss of words, vocalizations, nonverbal
communication skills (e.g.,eyecontact, gestures, social dyadic interaction
skills, imitation, or pretend play (Davidovitch, Glick, Holtzman, Tirosh &
Safir, 2000; Goldberg et al.,2003; Luyster et al.,2005). The perception of
regression appears to be specific, though clearly not universal, to ASD
(Luyster et al.,2005; Siperstein & Volkamar, 2004). Parental reports of
regression do not necessary indicate normal development prior to the perceived
loss of skills, nor do early abnormalities preclude regression (Lord, Shulman
& DiLavore,2004; Siperstein & Volkamar, 2004; Werner & Dawson,
2005;Wilson, Djukie, Shinnar, Dharmani, & Rapin, 2003). In fact,
unequivocal loss of skills following normal developmental milestones is
relatively uncommon (Siperstein & Volkamar, 2004). However, it is clear
that in some cases a marked regression does occur-such regression has been documented in very young children
with ASD through analysis Of video recording in the first years of life (Werner & Dawson, 2005). Werner and
Dowson (2005) used home videotapes of the first and second birthday parties of
children with ASD and of typically developing controls. Reters blind to diagnosis and history of regression
confirmed regression, as defined by a decline in frequency of joint attention
acts and word/babble use in a subset of the ASD sample.
It is clears that skills loss after a
prolonged period of normal development (e.g., to 3 or 4 years) is relatively
uncommon. A specific diagnostic term, Childhood
Disintegrative Disorder, exist for this category of cases, and the outcome
appears to be worse than that in autism, with little or no recovery of
previously exhibited abilities (Volkamar, Koening, & State, 2005). Given
the complexities of understanding the role of regression in autism, it remains
unclear as to what relationship exist between this less common later-onset condition and reported
early regression in autism.
Among
the factors that precipitate the onset of parental concerns are concurrent
cognitive delays, delays in motor development, and the presence of medical
problems (De Giacomo & Fombonne, 1998). The presence of perinatal
complications and sensory deficits has also been associated with earlier
recognition (Baghdadli et al., 2003). A more recent study suggest that in the
first year, late onset of social smile, delays in responsivity to speech and
language understanding, and late onset of independent walking are possible
factors precipitating parental concerns (Chawaraska, Paul, et al., 2007).
Factors that have not been found to influence the age genetic factors in autism
and increased risk for ASD in younger siblings of the affected to earlier
recognition of developmental problems (Klin et al., 2004; Zwaigenbaun et
al.,2007).
Clinical
Presentation in the First Years of Life
Kanner’s original report emphasized the
central role of social difficulties in autism. It is tribute to his powers of
observation that most subsequent research has supports this observation, albeit
with considerable refinement (Carter, Davis, Klin & Volkamar;2005;see also
Chawarska & Volkamar, 2005, for a review). Although early repots on
symptoms of autism in the first year of life relied heavily on parental report
(e.g., Dahlgren &Gilllberg, 1989; Klin, Volkamar & Sparrow, 1992) and
single case studies (Dawson, Oesterling, Meltzoff & Kuhl, 2000), these
reports were later supplemented by analytic studies of home video recording
depicting, for instance, a first birthday party or other family events (e.g.,
Baranek,1999; Maestro et al., 2001; Oesterling, Dawson & Munson, 2002;
Werner et al.,2000). Studies based on these approaches have contributed greatly
to raising awareness, regardless of possible early sympotoms of ASD. However,
they suffer a number of important methodological limitations related, for instance,
to parental ability to detect and report on the more subtle and contextualized
symptoms of ASD (Chawarska, Klin, Paul, Volkmar, 2007;S Stone, Hoffman, Lewis,
& Ausley, 1994) as well as to the sensitivity and specificity of the
deficits to ASD owing to issues with control groups or the representativenesss
of the source material (i.e., vidiotapes) (see also Zwaigenbaum et al.,2007 for
a review).
More
recently, however, the finding of increased genetic liability for ASD in
younger children enable researchers to study ASD in statu nascendi by following prospectively large cohorts of younger
siblings at risk for developing the disorders (Zwiegenbaum et al.,2007). The
sibling recurrence rate of autism has been estimated between 3 and 8% (Bailey
et al.,1995;Bailey, Philips & Rutter, 1996; Ritvo et al., 1989). These
numbers may underestimate the true recurrence rate for several reasons,
including (1) increased prevalence rates related to the employment of more
inclusive diagnostic criteria for autism and PDD-NOS since the advent of
DSM-IV, and (2) the stoppage phenomenon exemplified by a high number of
families avoiding futher pregnancies once of offspring is diagnosed with autism
(Jones & Szatmari, 1988;Slager, Faround, Haghighi, Spence & Hodge,
2001). Increased rates for nonautistic PDD in siblings (Asperger Syndrome,
PDD-NOS) have also been reported in 15-45% of family members (Bailey,
Palferman, Heavey & Le Couter 1998; Folstein et al.,1999), with higher rates of both narrow and board
autistic phnotype in male rather than female relatives of individuals with
autism (Bolton et al., 1994; Pickles et al.,1995; Piven, Palmer, Jacobi,
Childress & Arndt, 1997). Preliminary findings from ongoing studies on
high-risk siblings suggest that 20-25% of younger siblings of children with
autism may exhibit developmental impairments in the first or second year of
life (Zwaigenbaum et al., 2005), thaough studies examining the developmental
trajectories of younger siblings are clearly needed and are slowly emerging
(Lnda % Garrett-Mayer, 2006; Yirmiya et al., 2006).
Analysis
of videotapes suggests that as compared with typical controls, infants who were
later diagnosed with ASD were less likely to look at and seek other people, and
they were less likely to smile and vocalize at others in the first year,
infants later diagnosed with ASD might show difficulties in responding when
their names were called and look at others less frequently, as compared with
typically developing children oe infants with developmental delays (Baranek,
1999; Oesterling et al.,2002;Werner et al., 2000). However, as recent
prospective study of high-risk infants suggests, limited response to their
names at 12 month, although quite specific to infants with ASD as well as
high-risk siblings with developmental delays, is by no means universally
parents in all infants who are later diagnosed with the disorder (Nadig et
al.,2007). Thus, failure to respond to his or he by name may be an indicator
that a 12-month-old child would benefit from futher evaluation, but passing the
“name-calling” test does not mean tnat the child is not at risk of developing
ASD. Studies of the presence of unusual sensory behaviors and motor
stereotypies in sample of children with ASD, as compared with children with
developmental delays, yield mixed result. Although some suggest the presence of
excessive mouthing and possibly aversion to social touch (Barenek, 1999; Loh et
al., 2007; Oesterling et al., 2002), others fail to detect similar effects.
Furthermore, motor stereotypies have been reported in some sample (Loh et al.,
2007; Oestreling et al., 2002) but not in others (Baranek, 1999; Werner &
Dawson, 2005).
Presently
the vast majority of prospective baby sibling studies report on the expression
of the broader autism phenotype that can be detected in infant siblings who are
not affected with a full-blown ASD, rather than in children who were actually
diagnosed with ASD later on (e.g., Toth, Dawson, meltzoff, Greenson & Fien,
2007; Cassel at al., 2007; Merin, Young, Ozonoff & Rongers 2007; Gamliel,
Yirmiya & Sigman, 2007). This current trend is related to the fact that
owing to a relatively low recurrence rate among sibilings, very large
longitudinal samples need to accumulate for certain research questions to be
addressed. Nonetheless, the first experimental studies reporting on the
presentation of infants with ASD in the
first years of life are beginning to emerge. Prospective studies of infant
siblings, followed from 6 to 24 or 36 months and identified as having some from
of ASD, suggest that robust behavioral features of ASD that could be captured
through standard assessment instruments such the autism Observation Scale for
Infants (AOSI; Bryson, Zwaigenbaum, McDermott, Rombough & Brian, 2007) and the Mullen Scales of Early Learning (MSEL;
Mullem, 1995) may not emerge until some time after 6 months and before 12
months, with further intensification of their expression occurring between 12
and 24 months (Bryson, Zwaigenbaum, Brian, et al., 2007; Landa &
Garrett-Mayer, 2006; Zwaigenbaum et al., 2005). Zwaigenbaum and colleagues
(2005) identified several features at 12 month that are likely to differentiate
siblings with ASD from those without social disability. Among the features were
poor eye contact, limited social interest and smiling, limited use of gestures,
poor response to name, poor imitation, and delays in receptive and expressive
language. These infants also exhibited temperamental abnormalities, including
initial passivity in early development followed by the emergence of a tendency
for extreme distress reactions by 12 months. Difficulties in disengagement of
visual attention were also noted. Studies such as these constitute the first
step toward establishing clear diagnostic criteria for ASD in the first years
of life, although extensive studies are needed to establish both sensitivity to
and specificity of the identified abnormalities.
A
complementary approach to identifying behavior markers of ASD in infancy
involves the employment of experimental designs targeting basic perceptual and
cognitive processes involved in development of social interaction and
communication. Among these are eye-tracking studies of perception of social and
nonsocial stimuli (e.g.,Chawarska & Shic, 2007; Klin & Jones, in press;
Merin et al., 2007) and speech perception (Nadig et al., 2007). These studies
are discussed detail by Klin, Saulnier, Chawarska, and Volkamar (Chapter 6,
this volume).
Symptoms
of ASD in the Second and Third Years of Life
Several factors have contributed to much
large body of data on autism as it manifest after the first birthday and before
age 3. Recent advances in clinical research suggest that in 2 and 3 years- old,
symptoms of autism center on areas of social interaction and communication and
are often accompanied by delays in multiple areas of functioning, including
motor and nonverbal cognitive development (see Chawarska &Volkamar, 2005 for a review; see also Bishop, luyster,
Richler, & Lord, Chapter 2 Chawarska
&Bearss, Chapter 3; and Paul, Chapter 4 for this volume). In the social
domain, the most frequently reported symptoms are diminished aye contact,
limited inters in social games and trun-taking exchanges, low frequency of
looking referentially at parents, and preference for being olone (Cox et al.,
1999; Lord, 1995; Stone, Lee, et al., 1999). Vocal and motor imitation and
symbolic play skills appears delays as compared with the children’s overall
developmental levels (Baron-Cohen, Cox,
Baired, Sweettenham & Nightingale, 1996; Cox et al., 1999). Young children
with autism direct their visual
attention more frequently toward objects than toward people (Dawson et al.,
2004; Swettenham et al.,1998). A limited range of facial expressions and
infrequent instances of sharing affect (e.g., by smiling and looking at others)
have been reported as well (Cox et al., 1999; Lord, 1995; Stone, Lee, et al.,
1999). In the areas communicative exchange through nonverbal (e,g., use of
gestures or gaze to communication interest or joint attention) and vocal or
verbal means. The child’s responsivity
to speech in general, and to his
or her name particular, continues limited (Baron-Cohen et al., 1996; Cox et
al., 1999;DiLavore, Lord & Rutter, 1995; Klin 1991; Lord & Pickles,
1996; Paul, Chawarska, Klin & Volkamar 2007). Vocalizations may take on an
abnormal quality (Sheinkopf, Mundy, Oller & steffens, 2000; Wetherby,
Yonclas, & Bryan, 1989). Stereotypic and repetitive behaviors reach a
clinical threshold in the second years in some children (Chawarska, Klin et
al., 2007), and in a vast manjority of children by the age of 4 (e.g., Lord,
1995). Adaptive skills are usually delayed beyond what would be expected based
on the developmental level (Klin et al., 1992; Stone, Ousley, Hepburn, Hogan,
& Brown, 1999).
The
relative mild expression of the unusual repetitive behaviors (stereotyped
movements and mannerisms) and the general category of “resistance to change”
behaviors in this age group is of some interest (e.g., Chawarska, Klin et al.,
2007; Loh et al., 2007;Lord, 1995). The absence of clears- cut behaviors in
this general category is one of the more general conceptual problems in the
application of categorical (DSM-IV or ICD-10) diagnostic criteria. In Lord’s
longitudinal study the absence of such behaviors before age 3 was a frequent
reason that a diagnosis of autism could not be made (Lord, 1995; Lord et al.,
2006). Although clear precursors of such behaviors may potentially be used as
alternatives for this age group, relatively few attempts have been made to
identify such precursors (Loh et al., 2007) and assess their specificity in
visually repetitive phenomena (e,g., ceiling fans), and overattention to the
nonsocial environment (focusing on alphabet latters on blocks or small details
or play materials) are potential candidates. Furthermore, an increase in the
second years, rather than the expected decrease, of some of the repentitive
movements observed in the first year (Thelen, 1979) may be a sign of abnormal
development in this areas (Loh et al., 2007).
IMPLICATIONS FOR DIAGNOSIS AND SCREENING
Issue of diagnosis and screening are
discussed in detail by Bishop et al. (chapter 2 this volume) and are only
briefly touched upon here. Clearly by about age 3 (and often even before) the
current DSM-IV/ICD-10 categorical approach can be used with little difficulty.
Available work does highlight some limitations of their criteria for very young
children (Stone, Lee, et al., 1999). An alternative categorical classification
(National Center for Clinical Infant Programs (NCCIP), 1994) has been proposed,
but its utilization in the clinical community has been limited, probably
because its nosological research in autism. Thus, there is little information
on its concurrent validity with DSM-IV and related literature. because the history of this system precedes the
current wave of nosological effeorts related to children under the age of 3
years, it would be critical for the NCCIP (now Zero to Three) system to be
properly researched and its clinical and concurrent validity (relative to other
systems), reliability, and other psychometric properties to be adequately
assessed.
More
generally, well-documented diagnostic instruments may work well after age 3-4
years or past a certain development level (often around 18 months), but their
use is not clearly established for the first years of life. Dimensional
assessment instruments have a number of potential advantages-for example, in
their approach to developmental change and/ or developmental level-and may be
of particular use, given the greater potential for change in this age group.
Similarly, screening approaches (see Bishop et al., Chapter 2, this volume) are
particularly important in terms of identification of children in need of
services but present their own issue in terms of design and evalution.
Unfortunately, what is critically needed, but not yet available, are methods
that rely on biological markers or some other robust, readily measured
indicator of risk. Given the lack of such makers, clinician-assigned diagnosis,
as provided by experienced clinicians, remains the “gold standart” for
diagnosis in infancy (Chawarska, Klin, et al., 2007; Cox et al., 1999; Gillberg
et al., 1990; Lord, 1995; Stone. Lee, et al., 1999).
SUMMARY AND
CONCLUSIONS:
THE SIGNIFICANCE
OF EARLY CASE DETECTION
The
growing body of work on autism in infants is important for several reason.
Available data suggest that earlier case detection the out come of autism is
gradually improving; for example, more and more individuals are able to live
indenpendently and fawer are likely to remain mute and to exhibit comorbid
intellectual disability (Howalin, 2005). The recent National Research Council
(2001) review of evidence on early treatment notes that, despite various limitations,
a considerable body of work on the important for treatment and log-term
outcome, early detection is also important in clarifying the earliest
developmental processes, which may be disrupted in autism.
Prospective research is critically
needed to help us to more fully understand basic mechanism of
psychopathology and to clarify how early
difficulties become entrained in subsequent development. Somewhat
paradoxically, those who work with both higher-functioning older indivuals with
autism and very young infants are impressed not only by the potential for
significant development change, but also by the severty and continuity of
difficulties across time and developmental- for example, in modulation of the
human voice in prosody and in the use of eye contact to mediate social
interaction (Paul, Augustyn, Klin, & Volkmar 2005). The ability to observe
these early processes without the accompanying overaly of subsequent
development will be particularly important. Study of the range of early
developmental skills in this population may also result in some clinical
surprises; for example, there is now a suggestion that for a subgroup may be
the more striking initial signs of autism rather than disturbances in social
interaction (Bryson, Zwaigenbaum, Brian, et al., 2007).
Consistent with kanner’s (1943/1968)
orginal description, it ap[ears that in many cases infants are born with
autism. It is also clear that in a variably reportand, apparently small number
of cases, the child develops reasonably normally for a time before autism
appears. Although much work remains to be done, it is possible even now to begin to understand how some of
the early manifestations of autism become antrained in subsequent development.
Data from this age group may shed important light on perplexing clinical
question-for instance, the well established differences in gender ratio and
severity may be apparent before age 3 years (Certer et al., 2007). Careful
follow-up studies also emphasize the potential difficulties of early diagnosis
(Sutera et al., 2007), futher underscoring the importance of biological markers
and the study of specific biological and neuropsychological processes for
batter early diagnosis. To this end, the study of very specific social
processes under highly controlled conditions may be particularly important
(e,g., Chawarska, Klin & Volkmar, 2003; Chawarska & Volkmar, 2005;
Chawarska & shic, 2007; Klin, 1992; Klin & Jones, in press; Klin,
Jones, Schultz, Volkmar & Cohen, 2002; Merin et al., 2007; Presmanes et
al., 2007). As such processes are identified, siblings can also be studied to
address potential contributions of these processes to the broader autism
phenotype (Cassel et al.,2007; Presmenes, Walden, Stone & Yoder, 2007; Toth
et al., 2007; Gamliel et al., 2007).
ACKNOWLEDGMENTS
Preparation
of this chapter was supported in part by grants from the National Alliances for
Autism Research/Autism, Speaks and the National Institute of Mental Health
(Grant No. U54 MH676494) to Fred R. Volkar, Katarzyna Chawarska, and Ami Klin.
CHAPTER 2
Diagnostic
Assessment
SOMER L. BISHOP
RHIANNON LUYSTER
JENNIFER RICHLER
CATHERINE LORD
Autism is a
neurodevelopmental disorder characterized by deficits in social reciprocity and
communication and by the presence of restriced and repentitive behaviors and/or
interests. According to the criteria out lined in the Diagnostic and Statistical Manual of Mental Disorders (DSM-IV;
American Psychiatric Association, 1994) and the International Classification of Diseses (ICD-10;World Health
Organization, 1992), in order to receive a diagnosis of autism, a child must
have shown abnormalities, or symbolic/imaginative paly before the age of 3
years. If a child does not meat all of the above criteria for autism, her or
she may given a diagnosis of Asperger Syndrome (AS) or Pervasive Developmental
Disorder-Not Otherwise specified (PDD-NOS). we refer to these three diagnoses together as autism
spectrum disorder (ASD).
Because there is not yet a
biological marker for ASD, a diagnosis of ASD is made on the basis of a
behavioral profile, which is characterized by both the absence of typical
behaviors as well as the presence of atypical behaviors. Recently, researchers
and clinicians have sought to identify ASD earlier and earlier, owing to
finding that early intervation is associated with improved outcomes (Harris
& Handleman, 2000). This is somewhat problematic, however, because whereas
the behaviors features of ASD are well established for children in the
preschool years and beyond, less in know about symptom presentation in the
first 2 years of life (Zwaigenbaum et al., 2005; Mitchell et al., 2006). Indeed,
DSM-IV criteria were established based on the profile exhibited in early and
middle childhood and do not necessarily apply to children under the age of 3.
Therefore, professionals should exercise caution when making diagnoses in very
young children. Furthermore, any assessmention of other disorders of early childhood. Because ASD is a
developmental disorder and different symptoms are diagnostic at different
points in development, understanding what is developmentally appropriate for
children under 3 is an important first step in early identification of the
disorder.
This
chapter addresses issues in the assessment and diagnosis of ASD in onfants and
toddlers. The first section provides a brief summary of the development of
social, communication, and play behaviors in typically developing young
children. Next, we provide guidelines for assessment and differential diagnosis
of children with ASD, including the importance of considering social,
communication, and play behaviors in the context of a child’s overall
developmental functioning. Finally, we review the currently available screening
instruments for identifiying ASD in infants and toddlers, with special
attention given to their appropriateness and liniatations for use with children
under 3 years of age.
EARLY TYPICAL
DEVELOPMENT
The
impairments that result from ASD are defined in relation to typical
development. Reciprocal interaction and communication difficulties involve
dificits in behaviors that emerge in typically developing children without
explicit teaching and that are adaptive their social context. In the area of
restricted and repentitive behaviors and interest (RRBs), impairement refers to
the presence of unusual, sometimes maladaptive behaviors that are, at least
according to commom wisdom, not usually seen in typically developing children.
Thus, in order to determine if a child is showing signs of ASD, it is crucial
to have a clear understanding of what constitutes typical behavior in a child
of the same developmental level. As more and more children are being referred for
a diagnosis of ASD at very young ages, it has becomes particularly important to
have a comprehensive picture of social and communicative behaviors in typically
developing infants and toddlers. This understanding can help clinicians and
researchers avoild overdiagnosing autism as well as wrongly dismissing real,
appropriate concerns about behaviors associated with ASD.
A large body of evidence suggest
that children come into the world already socially oriented and that their
social understanding becomes richer and more sophisticated in relatively short
period of time. Newborns prefer looking at faces over nonface patterns
(Valenza, Simon, Cassia, & Umilta, 1996) and prefer listening to speech
over nonspeech sound (Vouloumanos &
Werker, 2004). Meltzoff and Moore (1989) have shown that newborns can
imitate simple human gestures, such as tongue protrusions and head movements,
and by just 6 weeks ago of age they can engage in deferrend imitation,
emulating others facial movements after a 24-hours delay (Meltzoff and Moore,
1994). Children as young as 6 months can distinguish between purposeful and
nonpurposeful action (Woodwards, 1999)
and by 9 months of ag they are able to follow and direct the attention of
adults to outside, a capacity know as joint attention (Tomasello, 1995). At
approximately 12 months of age, infants begin to angage in social referencing
byy using the emotional reactions of others to determine how to behave (Walden
& Ogan, 1988). At approximately 18 months, toddlers can infer an adult’s
intended action by watching failed attempts (Meltzoff, 1995). By 24 months age,
children adjust the language they use in conversation based on their
understanding of what the listener knows (Tomasello, Farrar & Dines, 1984).
This progressions shows an increasing
understanding of others’s intentions in the first 2 years of life. Tomasello
(1995) has proposed a developmental trajectory for the understanding of other’s
intentions, whereby children progress from following and directing the
attention of others without understanding their intentions, to understanding
other’s as international agents, to learning that other’s intentions may not
always match the situation. This work has recently been expanded to suggest
that these early developments culminate in the understanding of shared
intentions with another individual, which is believed to be a defining feature of
human social interaction (Tomasello, Carpenter, Call, Behne & Moll, 2005).
Understanding of other’s intentions is also thought to underline the ability to
learn the referent of novel word, he or she must infer the referential intent of the speaker,
using subtle cues such as the direction of the speaker’s gaze and other
contextual clues (Baldwin, 1993).
One of the most remarkable aspects
of early development is it rapid pace. In a relatively short period of time,
children’s understanding of the social world becomes quite sophisticated. Yet
it is important to remember that there is a great deal of variability in early
trajectories of social and communication development. Fenson et al. (1994)
emphasize the importance of going beyond descriptions of the “Modal Child” in
order to understand the range of variability that can be expected in typically
developing children.
For example, there is a great deal of
variability in both early receptive language and expressive vocabulary
development. As children get older, this variability increases, because
children whose initial language is more advanced also shoe a higher rate of
word acquisition. When considering variability in early social and
communication development, then, it may be useful to examine not only
differences in children’s abilities at a given point in development, but also
differences in the developmental trajectories of these abilities over time.
Marked individual differences have
been found in other areas of communication, such as use of gestures, as well as
in the development of social cognition. In a comprehensive study of children’s
social and communication development from 9 to 15 months of age, Carpenter,
Nangell, Tomasello, Butterworth, and Moore (1998) found considerable
variability in attention and gaze following, imitation, gesture production, and
joint angegement, among other skills. Although the manority of the children in
their sample displayed these skills by the age of 12 months, some children
acquired these skills earlier than others (e.g., as young as 9 months) and some
children had not acquired certain skills 15 months.
Some researchers have argued that
differences in child temperament might explain some of the variability in early
social and communication development. Dixon and smith (2000) found that
temperament exhibited in early development was related to subsequent langue
skill, both receptive and expressive. In their sample, children who showed
greater adaptability, more positive mood, and greater persistence at 13 months
tended to have more productive language at 20 months, and children who had long
durations of orientation, smiled and laughed frequently, or were easily soothed
at 7 months tended to have advanced comprehension at 7 and 10 months of age.
Other studies have found similar
relationships between children’s early temperament and later language
(Slomkowski, Nelson, Dunn, & Plomin, 2992). Dixon and Smith (2000) suggest
that the relationship between temperament and language may be mediated by
amount of joint engagement. This is, parents and others may be less likely to
enter into a social exchange with a child who shows negative affect and poor
adaptability than they would with a child who shows positive affect. The reduce
amount of social interaction may in turn adcersely affect the chhild’s
understanding and production language. This model partly supported by a finding
in the study by Carpenter et al., (1998) that the amount of time mother-infant
dyads spent in joint engagement was related to the child’s early verbal non
verbal communication skills.
The fact that there is a wide range
of social and communication skills among typically developing young children
presents a challenge to those trying to identify “Markers” of ASD in children
of this age. How does one decide if a toddler has a true puts him at risk for a
diagnosis of ASD, or and/ or communication that puts him at risk for a
continuum of typical whether he simply falls on the lower and of the continuum
of typically development in these areas? Is a toodler who does not smile at
others very often simply showing less positive affect than the “average”
typically child of the same age because of her temperament, or does she have a
more fundamental difficulty in interacting with others? It is also important to
consider the role that culture differences play in a child’s social and
communication behaviors (see babad et al., 1983). The child’s social
environment, including culturally based parenting practices, is likely to
influence some of the aspects of infants social communication behaviors.
Additional insight into this issue
may come from considering “constellation” of deficit, rather than individual
impairments. ASD is commonly though of
as involving deficits in several different areas (Siegel, Pliner, Eschler &
Elliott, 1988). It may be that, order to be considered “at risk” for ASD, a
child should be showing deficits in more than one of these areas. Therefore,
when considering a particular social or communicative behavior in young child,
it may important to consider whether the child is “below average” or “impaired”
in a specific behavior, but also whether difficulties in that behavior occur in
the context of other impairments. For example, a child who shows delays in
using sounds and words but who shows positive affect, good eye contact, and use
of early gestures would likely not elicit much concern as a child who, in
addition to having delayed expressive language, shows impairments in others
areas. Practitioners may also want to consider these issue when conducting
evaluations of slightly older children. Despit the minimum onset requirement
presented by DSM-IV-delay or abnormality in social interaction, or in language
as used in social communication, or in imaginative play to age 3-practitioners
may want to require that types of early atypicalities occur in conjuction with
one another in order to establish the onset of ASD.
Even with these destinctions in
mind, it can be difficult for clinicians and researchers to determine whether a
child who shows two or three developmental difficulties falls somewhere on the
spectrum, is developmentally delayed but not on the spectrum, or is simply
behind relative to the “average” typical child, but still within the range of typical
development. PDD-NOS is usually diagnosed in young children who show some
impairments is fewer than that required for a diagnosis of autism, the
impairments do not occur across all there areas specified (i.e., social,
communication, RRBs), or the impairments are not as severe. This could explain
why studies have found that the majority of children diagnosed with PDD-NOS at
age 2 remained on the autism spectrum at age 9. Nevertheless, more than 100% of
the children with PDD-NOS diagnoses at 2 years moved to a nonspectrume
classifications by 5 or 9 years (Lord et al., 2006). Given these criteria, it
is possible to see how some young children thaough to have “ mild autism”
might, at older ages, more clearly appear to have nonspectrume development
delays or fall at the lower end of the continuum of typical development.
RRBs differ from most social and
communication deficits required for a diagnosis of ASD, because they involve
the presence of “atypical” behaviors rather than the absence of typical ones. Yet it is important to remember that some RRBs
are actually seen in young children with typical development. Thelen (1979)
reported motor stereotypies, such as kicking, waving, bangin, rocking and
bouncing in normal infants in their first year of life, especially between the
ages of 24 and 42 weeks. As toddlers and preschoolers, many typical young
children display compulsive like behaviors, such as insistence on sameness in
their routines and/or environment, strong likes and dislikes, a rigid idea of
how thighs should transition, such as at bedtime. Evants et al., (1997) found
evidence for two kinds of compulsive-like behaviors in a substantial portion of
young children: “Just right” behaviors (e.,g.m Lining objects up or insistence
on sameness (e.g.,Preferring to have the same schedule every day). It has also
been argued that some repetition in object use or exploration (i.e., Piagetian
secondary circular reactions) is important for developing cognitive skills,
such as problem solving.
It is interesting to note the
similarities between these behaviors and those considered to be “restricted and
repetitive behaviors and interests” (American Psychiatric Association, 1994) in
children with ASD. Many of the behaviors
that constitute the category of RRBs are similar to those described in studies
of typical children. Factor analyses of RRBs scales in ASD have also found
evidence for the two “subtypes” of RRBs described above (Cuccaro et.al.,
2003;Bishop,Richler, & Lord, 2006). Given these similarities, it is
important to ask what is defferent about these behaviors in typically
developing children as opposed to children on the autism spectrum, and why
their presence at a young age is not necessarily and indicator of later
impairment.
Part of the answer may lie in the
developmental trajectories of these behaviors in typically developing children
as compared to those of children with ASD. In the study by Evans et al. (1997)
, children between the ages of 24 and 36 months were
found to exhibit the highest frequency and intensity of compulsive-like
behaviors; after 26 months, score tended to decrease steadily and then more
steeply, so that mean score between the that most typically developing should
be made with caution, given that the data in this study were cross-sectional. In
contrast, longitudinal studies of RRBs in children with ASD have found that
many of these behaviors tend to increase in prevalence and severity with time,
at least up until the age of 5 and possible until older ages (Moore &
Goodson, 2003; Charman et al.,2005). One of the main differences in these
behavior typically developing children versus those with ASD could be that, for
most typical children, the behaviors tend to be common only within a relatively
narrow window of development, in contrast to children, with ASD, who exhibit
these behaviors for longer periods of time (Thelen, 1979).
This
again highlights the importance of considering the differences in
constellations of behaviors in young children with typical development as
opposed to those with ASD. In the study by Evans et al. (1997), mean scores of
typical children on the Childhood Roputines Invetory (CRI) were very low
relative to the maximum achievable score. Most children exhibited one or two of
these behaviors, or if they did exhibit a few, the behaviors were relatively
mild. In contrast, studies of RRBs in children with ASD indicate that the
majority of children, even those at young ages, tent to exhibit more than two repetitive behaviors, and that these
behaviors often interfere with the functioning of the child of the family
(Richler, Bishop, Kleinke & Lord, 2007). These findings suggest that it is
important to consider whether a child who shows on particular compulsive-like
behavior (e.g.,lining up toy cars) also shows other similarly it is important
to consider whether the interaction communication.
Part of the reason that repetitive
behaviors tend not to be as severe in typically developing children may be that
these children do not have the added component of impairment in social
interaction and communication to contend with. As a result, they are likely to
spend more of their time interacting and communicating with others than
engaging in repetitive activities. Even when they do engage in repetitive
activities, they are likely to involve others in these activities, which makes
the activities, which makes the activities more social and flexible. In
contrast, children with ASD often prefer to participate in repetitive
activities rather than interact with others, which further deprives them of
social stimulation (Rogers & Ozonoff, 2005).
Considering the early pictures of
typical development and typical development in social interaction communication
side by side, it is interesting to consider why the trajectories of typical
development begin to diverge from those of the development of children with
ASD. Some have argued that most children are born “hard-wired” to be oriented
to turn, receiving more input (see Johnson et al., 2005). It has also been
suggested that the early plasticity of the brain may provide an opportunity for
experience to shape synaptic connections, eliminating those that are not needed
and strengthening those that are crucial for higher-order functions, such as
social cognition (Courchesne, Carper, & Akshoomoff, 2003). In contrast,
some children may be born without the some predisposition to prioritize social
input over nonsocial input (Dawson, Meltzoff, Osterling, Rinaldi & Brown,
1998; Dowson et al.,2004) or may experience change in trajectories of social
and communication development, such as reaching a developmental plateau
(Siperstein & Volkmar, 2004) or experiencing an actual worsening or
regression in social and communication skills (Ozonoff, Williams & Landa,
2005). Thus, for a number of reason,
children with ASD may not receive the same social input from the environment as
typically developing children during this critical period of brain development
(Mudy & Nael, 2001). Consequwntly, the parts of the brain normally involved
in social cognition may not be selectively shaped for this role (Johnson et al.,
2005). As typically developing children become more socially sophisticated in
the first few years of life, the impairments of children with ASD may build on
each other and become more apparent.
EARLY ASSESSMENT
OF ASD
Because of the cumulative effect of early
appearing deficits, such as those describe above, detection of the symptoms of
ASD tends to become easier as children get older. However, as we have come to
understand more about early development of ASD, it has become increasingly
possible to differentiate children with ASD from typically developing young
children. Furthermore, whereas professionals have traditionally been hesitant
to make diagnoses of ASD in children under the age of 3, recent literature suggests that when made by
experienced clinicians, diagnoses of toddlers are relatively stable over time.
Because different methods (i.e., clinical observation and parent report)
provide different types of information, diagnoses are most accurate and stable
when based on information obtained from multiple source (e.g., Lord at al.,
2006;Chawarska, Klin et al., 2007).
Even for experienced clinicians,
diagnosis can be difficult when trying to distinguish between ASD and other
early childhood disorders. Psychological diagnoses, such as intellectual
disability, expressive and receptive language disorders, anxiety disorder, and
Attention-Deficit/Hyperactivity Disorder (ADHD), as well as genetic disorder,
such as fragile-X syndrome, share many features with ASD. Making diagnostic
distinctions in very young children is therefore a difficult process.
Diagnosis of ASD is further
complicated when a researcher or clinician is trying to determine whether a
child meets the criteria for autism versus another spectrum condition (e.g.,
PDD-NOS,AS). Childhood Disintegrative Disorder (GDD) and Rett syndrome are
quite rere and are less likely to be confused with autism, especially if a
through medical history is obtained. On
the other hand, clinicians often find themselves trying to distinguish between
autism and AS or PDD-NOS, in part because of poor agreement about the
diagnostic criteria of these disorders (Ozonoff, South & Miller,
2000).DSM-IV provides guidelines for making diagnostic distinctions between
these disorder, but these guidelines were written on the basis of studies of
substantially older children (Volkamer et.al.,1994; Chawarska & Volkmar
2005).
Both GDD abd Rett syndrome are
characterized by period of apparently normal development followed by a
substantial regression. The onset of GDD must occur after 2 years of age, and
the child must exhibit loss of skills, adaptive behaviors, play, toileting,
or motor skills (American Psychiatric
Association, 1994). After the regression, children with GDD must also exhibit
impairment in at least two of the three domains in autism (i.e., social
interaction communications, restricted and repetitive behaviors/interests). The
regression in Rett syndrome, which is genetic disorder that occurs primarily in
grils, occurs between between the ages of 5 and 48 months and is characterized
by decelerated head growth; loss of previously acquired purposeful hand
movements, such as holding utensils or picking up the objects; development of stereotyped midline hand
movements, such as hand wringing; loss of social engagement; appearance of
poorly coordinated gait or trunk movements; and severaly impaired language
development (Amercan Psyhiatric ASssociation,1994).
Although approximately 20% of
children with autism experience a regression in language or social behaviors
(Lord, Shulman & DiLavore 2004; Volkamar, Chawarska & Klin, 2005), the
regressions in GDD and Rett syndrome are qualitatively distinct from the most
common forms of regression in autism. First, whereas the regressions in GDD and
Rett syndrome follow a period of typical development, some abnormality in
children with autism is most often recognized, in hindsight, in the first years
life (Oesterling & dawson, 1994), period to the onset of regression.
Second, the regression in autism is characterize by a loss of language and/or
social behaviors, without a loss of adaptive or motor skills (Volkamar &
Rutter, 1995; Luyster et al., 2005), which are both typically with autism is
almost always before the age of 24 months (Lord et al., 2004;Luster et al.,
2005; Ozonoff et al., 2005; Chawarska, Paul, et al., 2007).
In addition to early regression,
there are other behaviors markers that have established as indicators of ASD in
the first few years of life.
Retrospective analyses of videotapes of ASD in the first years of life have
indicated that those who later receive a diagnosis to name, lack of socially
directed looking, excessive mouthing of objects, and aversion to social touch,
relative to comparison groups of typically developing children and children
with non ASD development delays (Baranek, 1999; Oesteling Dawson & Munson
2002).
More recently, prospective studies of infants
siblings of children with ASD, a population of children a high risk for
developing ASD, have suggested a number of early features that are associated
with a later diagnosis of ASD. Using the autism Observation Scale for Infants
(AOSI) (see below), Zwaigenbaum et al. (2005) found that at 12 months of age,
children who were later diagnosed with ASD showed evidence of language delay,
as well as several behaviors abnormalities, such as difficulties with eye
contact, visual tracking and attention, social smiling, imitation, social
interest and affect. These infants also tended to demonstrate decreased
positive affect and were more likely to exhibit extreme distress reactions and
to fixate on objects. Using a parent-report measure of early communication
skills, the MacArthur-Bates Communication Development Inventory-Infants Form (Fenson et al., 1993), Mitchell et all. (2006)
found that infant siblings who later met criteria for ASD reportedly understood
fewer phrases and demonstrated significantly fewer gestures at 12 months of age
than typically developing controls or siblings who at 12 months of age than
typically developing controls or siblings who did not receive ASD diagnoses.
These delays in understanding and use of single words.
Studies comparing very young
children with ASD to those with other types of development delays have made it
increasingly possible for clinicians and researchers to differentiate between
ASD and other non spectrum disorders. However, obtaining agrrement between
diagnoses of autism, AS, and PDD-NOS has been much more difficult, particularly
in young children, several different definitions for these disorder exits,
which has complicated communication between professionals in the field (Ozonoff
et al., 2000;Klin, Pauls, Schultz & Volkmar 2005). According to DSM-IV, AS
is characterized by both qualitative impairments in social interaction and the
presence of RRBs that are identicthose seen in
autism. However, unlike autism there can be no delay in language,
cognitive development, or adaptive behaviors (except social skills) in a
diagnosis of AS (American Psychiatric Association, 1994). A diagnosis of PDD-NOS
is intended for children who exhibit significant impairments in reciprocal
social interaction, as well as difficulties in either communication or the
presences of RRBs (or subthreshold difficulties in both areas), who do not meet
criteria for another ASD.
Evidence suggest that diagnoses of
PDD-NOS in early preschool are less stable than autism diagnoses (e.g., Stone
et al., 1999; Lord et al., 2006). Chinicians are more reliable when making
distinctions in 2-year older between ASD and nonspectrume diagnoses that
between specific diagnoses on the spectrum, and it is not uncommon for children
to heve a change in diagnosis within the spectrum (e.g., from a diagnosis od
PDD-NOS to autism) (Stone et al., 1999; Lord et al., 2006). What may be important
for very young children, therefore , is making a distinction between a spectrum
and nonspectrume diagnosis, because differential diagnoses within the spectrum
tend to be less stable (Lord et al., 2006). Thus, the intervention that
children receive should be based more on their individual profiles of strengths
and weakness, rather than on their specific diagnostic classifications.
SCREENING FOR
ASD
General
Issues
Our
increasing knowledge of early development in children later diagnosed with ASD has
facilitated the creation of a number of screeners targeted identifying young
children with ASD. A major challenge as sociated with the development of these
instruments is being able to discriminate children with significant
developmental delays. In large with less pervasive and often temporary
developmental delays. In large part, the ability to do this depends on our
understanding of what verbal and nonverbal skills cluster together in the frst
few years of typical development, and the degree to which these skills are
impaired in children for whom ASD is a concern
Clarifying
these early profiles of development and using them to screen for ASD in young
children has both theoretical and practical implications. First, identifying
children with ASD in the first few years of life allows for the collection of
data about early profiles and trajectories of development. Such information
efforts to improve the accuracy of the screening instrument themselves. In
addition, earlier research has indicated that intervention is more effective if
provided earlier (Harris & Handlemen, 2000).
Different
approaches have been taken in designing screeners, some using caregivers as
informants and others using professional. There are also two levels of
screeners, one designed for population-based screening (i.e.,lavel 1
screeners), and the other designed for more targeted screening of children
suspected of having a developmental disorder (i.e., level 2 screeners). In
general, screening is distinct from diagnostic assessment in children with
unrecognized or ambiguous symptoms of developmental disabilities, whereas the
latter is most apporopriate for children for whom there is already some clear
evidence of developmental abnormality.
Level
1 screeners typically employ caregiver reports as a means of gathering
information. The primary advantage of this approach is that parents and
caregivers are most familiar with the skills of the child across a variety of
situations, and they may be more accurate than professionals in reporting
low-frequency behaviors (such as using another person’s hand as a tool).
However, caregivers may have less experience with children and a less refined
understanding of the questions on the screener, which could potentially result
in either over- or underestimating their child’s skills. There is also a risk
of biased reporting (if caregivers already have beliefs about the diagnostic
status of their child). Finally, creating a scale that caregivers will
interpret as intended can be quite difficult.
Level 2 screeners that use the
reports of professional (such as health care worker or psychologist) have a
different set of advantages and disadvantages. Professional may be more highly
trained in observing and identifying certain diagnostically meaningful behaviors,
and completion of the screeners can be standardized across reporters. However,
they spend much less time with the child. As a result, they generally do not
have the opportunity to evaluate the child across context and are musch less
likely than caregivers to note low-frequency behaviors.
In evaluating the effectiveness of
level 1 and 2 screeners, it is useful to consider the constructs “rule in” all
individuals with the targeted trait, and specificity refers to its ability to
accurately “rule out” all individuals without the target trait. In the context
of screening for ASD, sensitivity can maximize the detection of children who
are showing a behaviors profile suggestive of ASD. Regardless of whether ASD is
their final diagnosis or not, these children are likely to be “at risk” for one
from of disability or another and will benefit from identifaction and result in
more false positive, which can be expensive and potentially problematic, it is
better to identify these children with developmental complicaers and diagnostic
measure, specificity is a higher priority, because it is phenotypically similar
conditions, such as language delay or intellectual disability.
Screening
Instruments
Current
measures for screening and diagnosis are considered here in turn, with
reference to current research on their advantages and limitation for children
under age 3. Population (level 1) and focused (level 2) screening are addressed
(see Fingure 2.1)
The Checklist for autism in Toddlers
(CHAT;a level 1 screener) was initially introduced in the United Kingdom as a
population screening measure for ASD (Baron-Cohen, Allen& Gilberg, 1992).
The CHAT emphasized joint attention and imagination and was administered to
children by health nurse, who routinely visit 18-month-olds in their homes in
the Unites Kingdom. During the visit, the parents were also asked a series of
question about their child’s development. Results indicated that most children
classified by the CHAT as having autism were, in fact, later diagnosed with the
disorder. However, it later became clear that two-thirds of the children who
eventually received an ASD diagnosis were missed by the CHAT (Baird et al.,
2000). Moreover, because children with suspected developmental disabilities
were eliminated even before the screening, the CHAT’s effectiveness in
distinguishing between ASD and other developmental disabilities was unclear.
The Modified Checklist for Autism in
Toddlers (M-CHAT), a modified version of the CHAT (Robins, Fein, Barton &
Green, 2001), was created to address some of these concerns. The M-CHAT was
administered.
Level 1 Screeners
CHAT
M-CHAT
ESAT
CSBS Checklist
PDDST-Stage 1
Physician Referrals
Public Awareness
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Level 2 Screeners
CSBS Behaviors Sample/SORF
PDDST-Stage 2
SCQ
STAT
CARS
GARS
|
Diagnosis
ADI-R
ADOS
Clinician’s best
estimate
|
Figures
2.1.
Level of screening and diagnosis for children with ASD at age 3 or younger.
To parents of
24-month-old children who were recruited from pediatric practices and special
education program in the United State. In contrast to the CHAT, the M-CHAT is
not administered to the child and instead relies on parent report. Like its
predecessor, the M-CHAT successfully identifies children with autism at age 2.
The M-CHAT was tested on two groups of children, a population sample and sample
from special education program. More than 90% of the children identified as
having autism were already in special education
program (Robins et al.., 2001), so the effictiveness of the M-CHAT for
use in the general population is not yet clear. Initial report of sensitivity
and specificity were very high (.87 and .99, respectively), but the authors
coution that absolute psychometrics for this measure cannot be determined until
follow-up evaluations are completed (Robins et al., 2001; Robins & Dumont
Mathieu, 2006). A large study of the M-CHAT in a more representative sample is
now under way, and the result of this study will be important in evaluating the
effectiveneed of the M-CHAT.
The Early Screening for Autistic Traits (ESAT;Swinkels et
al.,2006) in level 1 screener questionnaire with a greater emphasis on play and
less on joint attention that the previous instrument. Children who earned high
score on the instrument were likely to have developmental problems. However,
for children younger than 24 months of age, the EAST did successfully
distinguish children with ASD from those with non-ASD conditions. In addition,
like the CHAT and M-CHAT, it also failed to identify many children who were
later diagnosed with ASD (see, e.g., Buitelaat et al., 2000). Despite the measure’s problems with poor provided
easy access to referrals. As a result of these realted benefits, early
identification increased.
The communication and Symbolic Behaviors
Scales-Developmental profile (SCBS-DP;Wetherby & Prizant, 2002) is a brief
caregiver questionnaire intended to identify children with communication
disorder (not specifically ASD) between the ages of 6 and 24 months. If a child
screens positively on the questionnaire besed on his or her caregiver’s
responsed then a direct assessment (the behaviors Sample) and an additional
caregiver questionnaire are administered. Although the initial questionnaire is
a level 1 screener, a level 2 screener- the Scale of Red Flags (SORF;wetherby
&Woods, 2002) for autism –was developed for use in scoring vidiotapes of
the Behaviors Sample. With the SORF, researchers were able successfully
identify most children with language delays as having or not having autism.
However, because most of the children observed had screened positively on the
CBS caregiver questionnaire, there was no way to identify missed cases and
determine the measures’s sensitivity.
The pervasive Developmental Disorder Screening Test
(PDDST;Siegel, 1996) also offers a level 1 and a level screener and is intended
for children over age 18 months and under the age of 6 years. It is a parent
report questionnaire and is designed to screen specifically for ASD
children with ASD, such as nonverbal
communication, temperament, play, language, and social engagement. Stage 1 of
the PDDST (intended for use in primary care settings) was reported to have a sensitivity
of .85 and a specificity of .71 in a clinic-based
sample. In a sample of children with ASD and children with other developmental
disorders, sensitivity and specificity of .71 of the PDDST-stage 2 (intended for use in the developmental
disorders clinics) varied according to the cutoff used, ranging from .69 to .88
and.25 to .63, respectively (siegel, 1996;
siegel & Hayer, 1999). Research on the PDDST is ongoing to provide
further details about its pyschomeytric properties and usefulness in different
populations.
The Screening Test for Autisn in Two-Year-Olds (STAT;
Stone, Coonrod, & Ousley, 2000) involves a direct assessment and , as a
level 2 screener, is intended for children already suspected of having ASD.
However, unlike the diagnostic tests described below, it is relatively brief.
In addition, it is more straightforward to administer and score; consequently,
it does not require extensive training on the part of the examiner. In a
validation sample of 12 children with autism and 21 children with non-spectrum
developmental disorders, the STAT correctly identified 10 (83%) of the children
with autism and 18 (86%) of the children
with other developmental disorders (stone et al., 2000).
The Social Communication Questionnaire (SCQ) Rutter,
Bailey, Lord,& Berument, 2003) is a level 2 caregiver questionnaire
designed to identify participants with ASD for research purposes. Although the
meansure was normed on older children and adults, research has indicated that
if the cutoff is modified so that fewer endorsed items are required, the SCQ
works well for children as young as 3 years old (Corsello et al., 2007). However, because the children had already
been referred for services, it is unclear how appropriate the SCQ is for use in
the general population.
There are two other well-known scales primarily intended
for level 2 screening but which may be mistaken for diagnostic instruments: the
Childhood Autism Rating Scale (CARS) and the Gilliam Autism Rating Scale
(GARS). The CARS (Schopler,Reichler,& Renner, 1988) is most useful with children
beyond the 2-year-old level and up to 4 or 5 years in developmental skills, and
it has been shown to have high sensitivity in older children and adults (
Sevin, Matson, Coe, Fee, & Sevin, 1991; Eaves & Milner, 1993). Studies
have yielded mixed results with regard to the utility of the CARS for use with
very young children. Lord (1995) reported that the CARS overidentified autism
in 2-year-old with cognitive impairments, whereas Stone and colleagues
(1999)reported good agreement with clinical diagnosis at age 2 (82% agreement).
Agreement of ther CARS and clinical impression is better by age (Lord, 1995;
Stone et al ., 1999), and specificity can be improved by raisig the CARS cutoff
by 2 points (Lord, 1995).
The GARS( Gilliam, 1995) is a behavioral checklist that was
developed to screen for autism. However, the measure was not designed for or
normed on children under 3 years of age, and thus its usefulness for a young
population is unknown. One study (South et al., 2002) employed the GARS underdiagnosed autism, failing to accurately
classify more then half of the sample. Until revisions are made, the
appropriateness of the GARS for children under 3 is limited.
EARLY DIAGNOSIS OF ASD
Once a child has been
identified as being at risk for ASD , he or she should be referred to a
psychologist, psychiatrist , or developmental
pediatrician who specializes in early diagnosis of developmental
disabilities. To aid clinicians in making accurate diagnoses, it is essential
that a diagnostic assessment be multidimensional and multidisciplinary ( see
Figure 2.2).
This includes gathering information from different sources
and assessing a child’s behavior across
a variety of contexts. Research has indicated that diagnoses of 2-years-olds were significantly more stable
when confirmed across two or three sources (I,e., standardized parent
interview, direct child observation, and clinician’s best estimate diagnosis)
as opposed to just one (Lord et al., 2006).
Several instruments have been designed to aid professionals
in gathering information needed to make a diagnosis of ASD. ( For a more
comprehensive discussion of practice parameters and diagnostic instruments, see
Filipek , Accardo, & Ashwal, 2000; Klinger & Renner, 2000; Lord &
Corsello, 2005; and Bishop & Lord , 2006,) Standardized parent interviews
and questionnaires can be useful in eliciting information from parents about
their child’s behavior. In contrast to the traditional open-ended interview,
semistructured interviews allow for a more comprehensive assessment of
communication, social, and play behaviors associated with ASD and other
developmental disorders. The most widely used and well established semistructured interview that is designed to
diagnose ASD is the Autism Diagnostic Interview-Revised (ADI-R; Lord, Rutter ,
& Le Couteur , 1994). The ADI-R provides quantifiable scores related to
severity of symptoms in the areas of communication, reciprocal social
interaction, verbal and nonverbal children. In order to meet criteria for a diagnosis
of autism, the child must meet cutoffs in communication, Reciprocal Social
Interaction, Restricted and Repetitive Behaviors and Interests, and Age of
Onset. In children over the age of 3, these cutoffs have been found to clearly
differentiate between children with autism and those with other disorders (Lord
et al., 1994).
Diagnostic
Assessment
Medical Examination
•Rule
out sensory impairment (chek hearing and vision)
•Conduct
genetic testing if indicated based on dysmorphology or family history
•Conduct
neurological exam
|
Parent Interview
•Obtain
thorough developmental history (attainment and/or loss motor, speech,
self-help milestones).
•Administer
semistructured interview to gather information about social and communication development,
play, restricted and repetitive behaviors, and adaptive skills.
|
Child Observation
•Create
context in which to observe child’s social communication behaviors, play, and
repetitive behaviors (with both parent and examiner).
•Consult
parents and teachers about whether behaviors observed during assessment were
consistent with child’s behavior in other settings.
|
Developmental
and Language Testing
•Assess
verbal (expressive and receptive) and nonverbal abilities.
•Gather
information about receptive and expressive language abilities.
•Evaliate
gross and fine motor skills.
|
The validity of this instrument for children under the age
of 3 has not been established. Therefore, a “toddler” version of the ADI-R is
undergoing development and being used in some investigations. It includes 32
additional questions and codes specifically relevant to onset of difficulties
in the early (C-Lord, personal communication, August,2006). Because this
modified instrument is not yet available for general use, professionals may
decide to use the published version of the ADI-R the age of 3. In particular,
some studies have reported low sensitivity of the ADI-R for populations of young children because
many children do not meet cutoffs in the Restricted, Repetitive and Stereotyped
Patterns of Behavior Domain (Ventola et al ., 2006; Chawarska, Klin , et al.,
2007). Although the majority of 2-years-olds with ASD exhibit RRBs (Richler et
al., 2007), some of the RRBs items that are currently include in the ADI-R
algorithm (e.g.,compulsions on rituals) may be less prevalent in very young
children with ASD.
The diagnostic Interview for Social and Communication
Disorder (DISCO;Wings, Leekeam, Libby, Gouls & Larcombe, 2002) is another
semistructured interview designed to aid in the diagnosis of ASD Whereas the
ADI-R is a diagnostic measure of ASD, the DISCO includes question about a wider
range of difficulties and can be used to compile infor,ation necessary to
diagnose other developmental and psychiatric disorders. The development,
Diagnostic and Dimensonal and psychiatric disorders.
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