Karen Ballaban-Gil

Longitudinal examination of the behavioral, language, and social changes in a population of adolescents and young adults with autistic disorder

This follow-up study evaluates the behavioral, language, and social outcomes in a population of autistic patients initially examined in childhood. We evaluated 102 (63%) of the 163 eligible subjects, including 54 adolescents (12-17 years of age) and 45 adults (> or = 18 years of age). Three patients had died in the interim. Behavior difficulties continued to be a problem in 69% of adolescents and adults. Thirty-five percent of adolescents and 49% of adults engaged in self-injurious behavior, and slightly more than 50% of adolescents and adults exhibited some stereotypic behaviors. Over 90% of both adolescents and adults had persisting social deficits. Language improved with age, although only 35% achieved normal or near-normal fluency. Comprehension also improved, although only 29% of subjects had achieved normal or near-normal comprehension of oral language. At the time of last follow-up, 28% of all patients and 53% of adults were living in residential placement. Only 11% of adults were employed on the open market, all in menial jobs; an additional 16% were employed in sheltered workshops. The social, behavioral, and language deficits identified in early life in autistic children tend to persist into adolescence and young adulthood.

Complications of the Ketogenic Diet

Summary: Purpose: The ketogenic diet has been successfully used in treatment of pediatric epilepsy for >70 years. Few serious complications caused by the diet have been reported. We report complications that have been experienced by children receiving the ketogenic diet.

Language regression in childhood

Language regression is observed both in autistic regression and as part of acquired epileptic aphasia (Landau-Kleffner Syndrome). We prospectively identified 177 children with language regression at four major medical centers, and their clinical characteristics were recorded. Their mean age at regression was 22.8 months. The mean time-to-specialist referral was 38 months of age. Most children (88%) met criteria for autism or manifested autistic features. Males (P = 0.02) and children less than 3 years of age who regressed (P = 0.016) had a higher probability of developing autistic behaviors. Seizures were more common in children who regressed after they reached 3 years of age (P < 0.001), and children with seizures were less likely to have associated autistic regression (P < 0.001). Electroencephalogram abnormalities were reported in 37% of patients and were more common in children with seizures (P < 0.001). At last follow-up, language function was impaired in 88% of the children, although some improvement was noted in 57%. We conclude that the loss of previously acquired language at any age, even if that language only includes a few words or communicative gestures, is often associated with a more global regression in cognition and/or behavior and has serious implications for future function. Early identification and referral of these children is necessary to allow for diagnosis and intervention.Language regression is observed both in autistic regression and as part of acquired epileptic aphasia (Landau-Kleffner Syndrome). We prospectively identified 177 children with language regression at four major medical centers, and their clinical characteristics were recorded. Their mean age at regression was 22.8 months. The mean time-to-specialist referral was 38 months of age. Most children (88%) met criteria for autism or manifested autistic features. Males (P = 0.02) and children less than 3 years of age who regressed (P = 0.016) had a higher probability of developing autistic behaviors. Seizures were more common in children who regressed after they reached 3 years of age (P < 0.001), and children with seizures were less likely to have associated autistic regression (P < 0.001). Electroencephalogram abnormalities were reported in 37% of patients and were more common in children with seizures (P < 0.001). At last follow-up, language function was impaired in 88% of the children, although some improvement was noted in 57%. We conclude that the loss of previously acquired language at any age, even if that language only includes a few words or communicative gestures, is often associated with a more global regression in cognition and/or behavior and has serious implications for future function. Early identification and referral of these children is necessary to allow for diagnosis and intervention.

Genome Scan of Idiopathic Generalized Epilepsy: Evidence for Major Susceptibility Gene and Modifying Genes Influencing the Seizure Type

Idiopathic generalized epilepsy (IGE) is a common, complex disease with an almost exclusively genetic etiology but with variable phenotypes. Clinically, IGE can be divided into different syndromes. Varying lines of evidence point to the involvement of several interacting genes in the etiology of IGE. We performed a genome scan in 91 families ascertained through a proband with adolescent‐onset IGE. The IGEs included juvenile myoclonic epilepsy (JME), juvenile absence epilepsy (JAE), and epilepsy with generalized tonic clonic seizures (EGTCS). Our linkage results support an oligogenic model for IGE, with strong evidence for a locus common to most IGEs on chromosome 18 (lod score 4.4/5.2 multipoint/two‐point) and other loci that may influence specific seizure phenotypes for different IGEs: a previously identified locus on chromosome 6 for JME (lod score 2.5/4.2), a locus on chromosome 8 influencing non‐JME forms of IGE (lod score 3.8/2.5), and, more tentatively, two newly discovered loci for absence seizures on chromosome 5 (lod scores 3.8/2.8 and 3.4/1.9). Our data also suggest that the genetic classification of different forms of IGE is likely to cut across the clinical classification of these subforms of IGE. We hypothesize that interactions of different combinations of these loci produce the related heterogeneous phenotypes seen in IGE families. Ann Neurol 2001;49:328–335

Epilepsy and epileptiform EEG: Association with autism and language disorders

The relationship between epilepsy, language, behavior, and cognition is not well understood. Developmental and acquired disabilities such as autistic spectrum disorders, Landau-Kleffner Syndrome, electrical status epilepticus in sleep, and developmental dysphasias have been associated with epileptiform abnormalities. These disorders share many common features and raise important questions regarding this intricate relationship. This article reviews these disorders and discusses the proposed interaction between epileptiform abnormalities and cognitive dysfunction. Diagnostic and treatment issues will also be reviewed.

Reproducibility and Complications in Gene Searches: Linkage on Chromosome 6, Heterogeneity, Association, and Maternal Inheritance in Juvenile Myoclonic Epilepsy

Evidence for genetic influences in epilepsy is strong, but reports identifying specific chromosomal origins of those influences conflict. One early study reported that human leukocyte antigen (HLA) markers were genetically linked to juvenile myoclonic epilepsy (JME); this was confirmed in a later study. Other reports did not find linkage to HLA markers. One found evidence of linkage to markers on chromosome 15, another to markers on chromosome 6, centromeric to HLA. We identified families through a patient with JME and genotyped markers throughout chromosome 6. Linkage analysis assuming equal male-female recombination probabilities showed evidence for linkage (LOD score 2.5), but at a high recombination fraction (theta), suggesting heterogeneity. When linkage analysis was redone to allow independent male-female thetas, the LOD score was significantly higher (4.2) at a male-female theta of.5,.01. Although the overall pattern of LOD scores with respect to male-female theta could not be explained solely by heterogeneity, the presence of heterogeneity and predominantly maternal inheritance of JME might explain it. By analyzing loci between HLA-DP and HLA-DR and stratifying the families on the basis of evidence for or against linkage, we were able to show evidence of heterogeneity within JME and to propose a marker associated with the linked form. These data also suggest that JME may be predominantly maternally inherited and that the HLA-linked form is more likely to occur in families of European origin.

Epileptiform EEG abnormalities in children with language regression

The authors examined the records of 149 children with language regression (LR) who had overnight EEG monitoring. Children with isolated LR had a higher frequency of epileptiform abnormalities (60%) than those with LR in the context of autistic regression (31%, p = 0.002) and also a higher rate of clinical seizures (33% vs 8%, p < 0.001). EEG abnormalities in the LR only group were also more prominent. This suggests two subtypes of language regression.

Evidence for Linkage of Adolescent-Onset Idiopathic Generalized Epilepsies to Chromosome 8—and Genetic Heterogeneity

Several loci and candidate genes for epilepsies or epileptic syndromes map or have been suggested to map to chromosome 8. We investigated families with adolescent-onset idiopathic generalized epilepsy (IGE), for linkage to markers spanning chromosome 8. The IGEs that we studied included juvenile myoclonic epilepsy (JME), epilepsy with only generalized tonic-clonic seizures occurring either randomly during the day (random grand mal) or on awakening (awakening grand mal), and juvenile absence epilepsy (JAE). We looked for a gene common to all these IGEs, but we also investigated linkage to specific subforms of IGE. We found evidence for linkage to chromosome 8 in adolescent-onset IGE families in which JME was not present. The maximum multipoint LOD score was 3.24 when family members with IGE or generalized spike-and-waves (SW) were considered affected. The LOD score remained very similar (3.18) when clinically normal family members with SW were not considered to be affected. Families with either pure grand mal epilepsy or absence epilepsy contributed equally to the positive LOD score. The area where the LOD score reaches the maximum encompasses the location of the gene for the beta3-subunit of the nicotinic acetylcholine receptor (CHRNB3), thus making this gene a possible candidate for these specific forms of adolescent-onset IGE. The data excluded linkage of JME to this region. These results indicate genetic heterogeneity within IGE and provide no evidence, on chromosome 8, for a gene common to all IGEs.

No evidence for a major susceptibility locus for juvenile myoclonic epilepsy on chromosome 15q

Juvenile myoclonic epilepsy (JME) is a distinct epileptic syndrome with a complex mode of inheritance. Several studies found evidence for a locus involved in JME on chromosome 6 near the HLA region. Recently, Elmslie et al. [1997] reported evidence of linkage in JME to chromosome 15q14 assuming a recessive mode of inheritance with 50% penetrance and 65% linked families. The area on chromosome 15q14 encompasses the location of the gene for the alpha-7 subunit of the nicotinic acetylcholine receptor. This could fit the hypothesis that there are two interacting loci, one on chromosome 6 and on chromosome 15 or that there is genetic heterogeneity in JME. In an independent dataset of JME families, we tested for linkage to chromosome 15 but found little evidence for linkage. Moreover, families with more than one family member affected with JME provide a lodscore of 3.4 for the HLA-DR/DQ haplotype on chromosome 6. The lodscore for these same families on chromosome 15q14 is <-2 assuming homogeneity and the maximum lodscore is 0.2 assuming alpha =.25. Only one of these families has a negative lodscore on chromosome 6 and a positive lodscore of 0.5 on chromosome 15q14. Our results indicate that this possible gene on chromosome 15 plays at most a minor role in our JME families. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:49-52, 2000.

Treatment Outcomes of West Syndrome in Infants With Down Syndrome

West syndrome constitutes the most frequent of all seizure types in infants with Down syndrome. We retrospectively reviewed records of 12 infants with Down syndrome and West syndrome, accounting for 5% of 239 infants with West syndrome from a comprehensive epilepsy database during a 17-year period. All demonstrated classic hypsarrhythmia on video electroencephalograms. One had clinically responded to clonazepam, and one was not treated because the parents refused any treatment. Seven of 10 infants demonstrated a complete response to high-dose natural adrenocorticotrophic hormone. Four (57%) of these seven infants relapsed. Relapses occurred as long as 2 years after cessation of the initial presentation of infantile spasms. At most recent follow-up (median age, 5 years), 8/12 (67%) were seizure-free, and seven were off any medications. Two of three nonresponders manifested intractable epilepsy and profound mental retardation. Developmentally, 6/8 who could be assessed met criteria for autistic spectrum disorder. Close follow-up is necessary even after successful initial treatment, because relapses are frequent and can occur as long as 2 years later.