Autism Spectrum Disorders

Autism Spectrum Disorders Isabelle Rapin Seminar on developmental disorders Child neurology January 23, 2013 No conflict of interest

Goldman et al. 2009

What is autism? (2013) • A developmental behaviorally-defined syndrome/phenotype • Impacts social skills & communication • Associated with narrow, rigid, repetitive behaviors • NOT A “DISEASE” ! • Affects the immature, developing brain

Causes of autism • Many genetic influences • in most cases multiple • most with small effects on brain development • Interacting environmental (epigenetic) influences • via their pathophysiologic effects on • molecular networks • cellular networks • brain circuitry

Hierarchies: genes to behavior • Classification - BEHAVIORAL – MAINLY DESCRIPTIVE (dimensional) Living, behaving whole person – many behaviors • Mechanisms – BIOLOGIC PATHOPHYSIOLOGY • Brain – molecules, cells, networks • Cells – molecules, networks • Molecules - networks • Classification - ETIOLOGY, BIOLOGIC CAUSES – MAINLY CATEGORICAL (discrete, yes/no) • Genetics • Environment • Both (incl. epigenetics)

Severity: Bell - shaped at the behavioral levelBehavioral diagnoses = arbitrary cuts in a continuum NOT DICHOTOMOUS

Behavioral classification • Arbitrary cuts in a continuum  • entities with fuzzy margins • entities not either/or (i.e., not discrete, dichotomous) • overlap with “normality” • overlaps with one or more other entities (“co-morbidities”)

Overlapping syndromes – One brain ! Etc. OCD Tourette Autism MR ADHD Learning disability, language disorder, dyslexia, etc.

Biologic classification • For the most part yes/no (dichotomous) • But: • often many different mutations in a given gene  different phenotypes, severity, penetrance • each gene affects complex molecular/cellular networks • a given network is vulnerable to many different gene mutations • gene expression modified by • genetic background • epigenetic (environmental) influences

Early Genetic Evidence • Was 4/10,000 for autistic disorder • Now 1/88 ASD • Recurrence risk: < 10%, thus single mendelian genes rare  mostly multigenic • Multiplex families in Utah (Ritvo 1985-90s) • Male dominance, yet male/male transmission  not often x-linked • Stoppage rule

Current Genetic Views • Now known etiologies no longer rejected • Association with known mono-genetic disorders • PKU • Tuberous sclerosis • Fragile-X • Angelman, Cornelia de Lange, etc., etc. • Candidate gene studies • Multiplex families • Linkage studies (cytogenetics, CNVs [microdeletions, duplications, translocations], loci, genes) • Whole genome searches – gwas (genome-wide association studies, microarrays) • mono- vs. heteroallelic expression • multiple genes with small effects vs. single genes with stronger effects

Genes that influence Type 1A diabetes New Engl J Med April 16, 2009 One disease –type 1A diabetes: many genes, only one for insulin !

Some of the direct and indirect targets of networks of differentially methylated and expressed genes Courtesy Dr. V.W.Hu et al

Genes Genes do not program behaviors ! Brain networks program behaviors Cellular metabolic microcircuitry Brain Anatomo-physiologic networks Behaviors CAVEAT !

Differentiate levels of investigation! AUTISM SPECTRUM -/- THE AUTISMS behavioral biologic severity etiologies dimensionalenumerative

DSM-5 (2013):Autism Spectrum Disorder (ASD) • Deficient social communication and interaction (all 3) • Marked deficit in nonverbal and verbal social communication • Lack of social reciprocity • Poor development and maintenance of peer relationships • Restricted repetitive patterns of behavior, interests and activities (at least 2) • Stereotyped motor or verbal behaviors or unusual sensory behaviors • Excessive routines & ritualized patterns of behavior • Restricted, fixated interests • Clinically significant, persistent, present since early childhood

DSM - 5 • Diagnosis: based entirely on behavioral criteria • Encompasses the entire range of severity • Associated symptoms reflect biologic etiologies • irrelevant to a behavioral diagnosis ! • critical to unraveling pathophysiologies (i.e., what other brain/somatic networks are also affected) • critical to optimal management

Some Standardized Behavioral Diagnostic Tests • Childhood Autism Rating Scale – CARS (Schopler et al., 1980) • Autism Diagnostic Interview – ADI (Lord et al., 1989) • Autistic Diagnostic Observation Schedule – ADOS (Lord et al., 1989) • Modified Checklist for Autism in Toddlers -- M-CHAT (Robin et al., 1999) • Etc.

Physical/neurologic featuresNone present in all cases or required for diagnosis • Abnormal head growth curve • Physical abnormalities/symptoms • Motor findings • Atypical sensory responses • Sleep problems • Language abnormalities • Autistic-language regression • Epilepsy

Trajectory of brain growth in ASD(Courchesne et al, 2007) Selectively affected areas: Frontal lobe Temporal lobe Cerebellum Amygdala

Neuropathology • 1980: 4 cases with severe MR: cerebellar + other brain abnormalities (Williams et al.) • 1985-2002: Cerebellum + limbic pathology (Bauman and Kemper) • No major brain anomalies/lesions • Loss of Purkinje cells in cerebellar cortex, neurons in deep cerebellar nuclei, inferior olive • Stunted neurons in diencephalon, amygdala • Pathology progressive in adults compared to children? • 1996: brainstem malformation in one case (Rodier et al.) • HOXA1 gene • Thalidomide, valproate toxicity

Autism: Hippocampal Neurons(Bauman & Kemper 1985-1994)

Cortical minicolumns in cortical area 4 lamina III in autism vs control brain Normal controlbrain Casanova 2006 ASD brain

Current emphases • Dysfunctional networks • Cortical neurons (GABA inter-neurons) • White matter networks • Synapses (H. Zogbi, Science, 2003) • Neuro-transmitters/-modulators • Serotonin • Dopamine • Acetylcholine • Glutamate • Oxytocin/vasopressin • Etc.

Frequently reported somatic abnormalities • Minor anomalies, dysmorphic features • Many known syndromes/genetic disorders • Middle ear infections,URIs • GI symptoms • Immunologic abnormalities • THEY DO NOT INVALIDATE AN ASD DX • HAVE TO DO WITH BIOLOGIC CAUSES

Open questions • Are somatic features symptoms of ASD? • Is ASD ↑ genetic vulnerability to environmental stresses (physical & emotional) ? (e.g., Herbert, 2012) • Optimal physical health is good for all • But to what extent does striving for optimal physical & emotional health (holistic medicine) improve ASD symptoms? • To what extent are ASD symptoms reversible by optimizing health?

Frequent motor findings • Stereotypies • motor, +/- object • behavioral • Dystonic postures • Toe walking • Increased joint laxity (hypotonia) • Clumsiness • Dyspraxia

Frequent sensory findings:hyper- & hypo-sensitivity • Touch • Pain, temperature • Proprioception • Vestibular • Audition • Vision • Taste • Smell

Sleep problems • Difficulty falling asleep • Difficulty staying asleep • Need for less sleep time • Need for excessive sleep • Inadequate circadian entrainment

Levels of language coding (1) • Phonology – speech sounds -phonetics…...segmental - prosody……..suprasegmental • Grammar −sentence structure - syntax………..word order - morphology…word endings, etc.

Levels of language coding (2) • Semantics – meaning of utterance - lexicon…….word dictionary in brain - meaning of connected speech • Pragmatics – conversational language - verbal………turn taking, referencing, etc. - nonverbal….facial expression, gestures, body posture, prosody

Impaired language in autism • At preschool • Comprehension: ~ always impaired • Expression: pragmatics always impaired + • (1) no language / language regression: often presenting sign or • (2) verbiage, echolalia, impaired conversational use (pragmatics) and prosody • At schoolage • More than one subtype of language deficit • Pragmatics impaired life-long

Subtypes of dysphasia in ASD • Nonverbal/dysfluent • ↓ phonology, syntax, semantics & pragmatics impaired (impoverished language) • ↓ comprehension, even up to VAA • Verbal, mostly fluent (semantic-pragmatic) • Phonology, syntax OK • Atypical vocabulary; some anomic • ↓ comprehension of discourse (questions) - worse than expression • Impaired pragmatics, conversation, chatterboxes • Atypical prosody, delayed echolalia, perseveration

(62 ASD school-agers) (M) (-1 sd) (-1 sd) (M)

Language / Autistic Regression • Parents: language/autistic regression in ~ 1/3 of toddlers • Mean age 21 months (~12-36 mos.) • Triggers? • Infectious/immunologic? • Psychological stress? • Improvement but not full recovery • Relation to long-term prognosis ?

Age < 3 years 91% autistic 14% seizures Age > 3 years 58% autistic 53% seizures Shinnar et al. 2001 Language regression(N = 177 children)

Without seizures 21% EEG abnormal 92% autistic With seizures 78% EEG abnormal 69% autistic (Shinnar et al, 2001) Language RegressionEEG sleep study(N = 177 children)

Epilepsy in autism • Related to the severity, location, type of brain pathology/cognitive level • Related to type of language disorder • Rare in high functioning children • Peaks in early childhood and in adolescence • Rarely the cause of autistic regression

Autistic Regression and Epilepsy • Relation to Landau-Kleffner syndrome (language regression with either seizures or a subclinical epileptiform EEG)? • Relation to status epilepticus in slow wave sleep (ESES)? • Limited value of all-night EEG monitoring • TO TREAT OR NOT TO TREAT ???

Autistic Regression vs Disintegrative Disorder • Heller (1908 & 1930): behavioral and language regression in preschooler/schoolage children, including ADL • Poor prognosis • Heterogeneous disorder (a few degenerative diseases, most not) • Are late autistic regression and DD on a continuum ???

ERPs / Imaging • ERPs – oddball method: real time measures of sensory processing  data in the msec. domain • Parcellated morphometry • white matter enlargement in radiate fibers (Herbert) • reversed asymmetry of language areas (also in DLD !) • fMRI to study sensory processing by altered blood flow in activated regions  networks • PET ditto, but also study of metabolism using ligands (e.g., glucose, serotonin, DA, AMPA…) • Diffusion tensor imaging to study connectivity

Goals of Intervention • Stop looking for a cure • Stop striving for ‘normality’ • Think adaptation, i.e., fixing, circumventing • Consider the individual’s needs • Tolerate socially acceptable differences • Welcome the unique contributions of some

Where to go: biology • Elucidate pathophysiology, i.e., what goes on in the brain (neurotransmitters, neuromodulators, epilepsy, etc…) • Pathophysiology more likely to lead to new drugs than genetics • Elucidate basis of autistic regression • Devise a rational treatment for autistic regression

Where to go: genetics • In the clinic: • Limited referral based on family history & phenotype • Probability of a specific genetic diagnosis low • Always discuss recurrence risk ! • Lack of prenatal diagnosis unless etiology known • For research (paid for by research funds !) • Strongly encourage enrollment in a funded comprehensive study, but • ~ never results in specific Rx of child

Where to go: medical interventions • Discourage use of medical/dietary treatments that have no reasonable rationale • Urgent need to evaluate efficacy of medical and educational interventions in well studied subgroups of individuals

Autism Spectrum Disorders