Identification of copy number variants on human chromosome 22 in patients with a variety of clinical findings.

The aims of this study were to create a copy number variant (CNV) profile of human chromosome 22 and to establish a genotype-phenotype correlation for patients with genomic abnormalities on chromosome 22. Thus, 1,654 consecutive pediatric patients with a diversity of clinical findings were evaluated by high-resolution chromosomal microarray analysis (CMA). We identified 25 individuals with abnormal CNVs on chromosome 22, representing 1.5% of the cases analyzed in this cohort. Meanwhile, we detected 1,298 benign CNVs on this chromosome in these individuals. Twenty-one of the 25 abnormal CNVs and the majority of the benign CNVs occurred through involvement of the 8 unstable genomic regions enriched with low copy repeats (LCR22A-H). The highly dynamic status of LCR22s within the 22q11 region facilitates the formation of diverse genomic abnormalities. This CNV profile provides a general perspective of the spectrum of chromosome 22 genomic imbalances and subsequently improves the CNV-phenotype correlations.

Telomere capture as a frequent mechanism for stabilization of the terminal chromosomal deletion associated with inverted duplication.

We report 4 interstitial inverted duplications with associated terminal deletions (inv dup del) involving the short arms of chromosomes 5 and 8, and the long arm of chromosome 13 by microarray-based comparative genomic hybridization (aCGH) combined with chromosome banding (GTG banding) and fluorescence in situ hybridization (FISH) analyses. Formation of the intermediate dicentric chromosomes in 3 of them occurred through breakage-fusion-bridge cycle mechanism (U-type exchange mechanism) and in the fourth one it occurred through the mediation of the inverted low-copy repeats on chromosome 8p23.1. Two of these 4 inv dup del were confirmed and a third one was suspected to be associated with telomere capture for the healing of the terminal deletions. These findings indicate that a telomere capture mechanism is frequently used for stabilizing the broken chromosome ends in this type of genomic rearrangements. In addition, the inv dup del(13) represents the first observation of inv dup del on chromosome 13 in humans, the inv dup del(5) represents the first observation of inv dup del(5p) with an associated telomere capture, and unique features of the remaining two inv dup del(8p) were also discussed.

Ahomocysteinemia in molybdenum cofactor deficiency.

We report an infant with molybdenum cofactor deficiency (MCD) and a unique clinical presentation of hemiplegia, hypotonia, dystonia, and bilateral basal ganglia changes. Biochemistry revealed absent serum homocysteine, low concentrations of plasma cystine, high levels of urinary S-sulfocysteine and sulfite, and high levels of oxypurines in serum and urine. The depletion of cysteine and cystine through reaction with sulfite suggests that other thiols and thiol-dependent proteins may be similarly depleted. Ahomocysteinemia may be a clue to the mechanism of cytotoxicity in MCD.

Dopa-responsive dystonia simulating spastic paraplegia due to tyrosine hydroxylase (TH) gene mutations.

Spastic paraplegia is not widely recognized to occur in dopa-responsive dystonia (DRD). The authors found a compound heterozygote for novel mutations of the human tyrosine hydroxylase (TH) gene (TH). The patient was initially diagnosed as having spastic paraplegia, but responded completely to levodopa therapy. Exercise-induced stiffness in the patient's father, who had a TH deletion, also responded to levodopa. The data expand the clinical spectrum of TH deficiency and suggest that TH mutations may account for some patients with DRD simulating spastic paraplegia.

Outcome in severe pediatric Guillain-Barré syndrome after immunotherapy or supportive care.

We reviewed duration of illness in 26 children with severe pediatric Guillain-Barré syndrome (GBS) during two contiguous 8-year periods that represent a "non-treatment era" of supportive care alone or a "treatment era" of supportive care plus either plasma exchange or intravenous immunoglobulin intervention. Our findings of similar recovery times in each treatment group suggest that immunotherapy in severe pediatric GBS may be less effective than in adult GBS, or effective only when given to certain patients very early in the course of the illness.

Clinical features associated with the A-->G transition at nucleotide 8344 of mtDNA ("MERRF mutation").

We looked for the A-->G transition at position 8344 of mtDNA in 150 patients, most of them with diagnosed or suspected mitochondrial disease, to assess the specificity of this mutation for the MERRF phenotype, to define the clinical spectrum associated with the mutation, and to study the relationship between percentage of mutation in muscle and clinical severity. Our results confirm the high correlation between the A-->G transition at position 8344 and the MERRF syndrome, but they also show that this mutation can be associated with other phenotypes, including Leigh's syndrome, myoclonus or myopathy with truncal lipomas, and proximal myopathy. The absence of the mutation in four typical MERRF patients suggests that other mutations in the tRNA(Lys) gene, or elsewhere in the mitochondrial DNA, can produce the same phenotype.

A placebo-controlled trial of lamotrigine add-on therapy for partial seizures in children. Lamictal Pediatric Partial Seizure Study Group.

OBJECTIVE: To compare the safety and efficacy of add-on lamotrigine and placebo in the treatment of children and adolescents with partial seizures. BACKGROUND: Add-on and monotherapy lamotrigine is safe and effective in adults with partial seizures, and reports of preliminary uncontrolled trials suggest similar benefits in children. METHODS: We studied 201 children with diagnoses of partial seizures of any subtype currently receiving stable conventional regimens of antiepileptic therapy at 40 study sites in the United States and France. After a baseline observation period (to confirm that more than four seizures occurred in each of two consecutive 4-week periods), patients were randomized to add-on lamotrigine or placebo therapy. A 6-week dose-escalation period was followed by a 12-week maintenance period. RESULTS: Compared with placebo, lamotrigine significantly reduced the frequency of all partial seizures and the frequency of secondarily generalized partial seizures in these treatment-resistant patients. The most commonly reported adverse events in the lamotrigine-treated patients were vomiting, somnolence, and infection; the frequency of these and other adverse events was similar to that in the placebo-treated group, with the exception of ataxia, dizziness, tremor, and nausea, which were more frequent in the lamotrigine-treated group. The frequency of withdrawals for adverse events was similar between groups. Two patients were hospitalized for skin rash, which resolved after discontinuation of lamotrigine therapy. CONCLUSIONS: Lamotrigine was effective for the adjunctive treatment of partial seizures in children and demonstrated an acceptable safety profile.

Catecholamines in patients with 22q11.2 deletion syndrome and the low-activity COMT polymorphism.

OBJECTIVE: To investigate catecholamine phenotypes and the effects of a tyrosine hydroxylase inhibitor in individuals with the 22q11.2 deletion syndrome and low-activity catechol-O-methyltransferase (COMT). BACKGROUND: Many persons with the 22q11.2 deletion syndrome suffer severe disability from a characteristic ultrarapid-cycling bipolar disorder and associated "affective storms." One etiologic hypothesis for this condition is that deletion of the COMT gene from one chromosome 22 results in increased catecholamine neurotransmission, particularly if the undeleted chromosome 22 encodes a variant of COMT with low activity. METHODS: In a preliminary study, plasma, urine, and CSF catecholamines and catecholamine metabolites were measured in four teenage patients with a neuropsychiatric condition associated with 22q11.2 deletion and the low-activity COMT polymorphism on the nondeleted chromosome. In these four patients, and an additional institutionalized adult with the condition, an uncontrolled, open-label trial of metyrosine was administered in an attempt to lower catecholamine production and to alleviate symptoms. RESULTS: Mild elevations of baseline CSF homovanillic acid (HVA) were found in three of four patients and a moderate reduction in CSF HVA after metyrosine treatment in the patient with the highest pretreatment concentration. The course of the five patients during the clinical trial is described. CONCLUSIONS: In patients with the 22q11.2 deletion syndrome and low-activity COMT, controlled studies of pharmacologic agents that decrease catecholamine production, block presynaptic catecholamine storage, or enhance S-adenosylmethionine, the cosubstrate of COMT, are warranted.

Video game-related seizures: a report on 10 patients and a review of the literature.

OBJECTIVE: To further describe the features, postulated pathophysiology, treatment, and outcome of seizures occurring while playing or watching video games (video game-related seizures (VGRS)). DESIGN: We evaluated retrospectively 10 patients with VGRS seen by us and reviewed 25 reported cases. RESULTS: The 35 patients ranged in age from 1 to 36 years (mean: 13.2); and 26 subjects (74%) were male. Eight individuals (29%) had prior infrequent nonfebrile seizures, 4 (11%) had febrile convulsions, and 2 (6%) had a family history of epilepsy. VGRS consisted of generalized tonic-clonic seizures in 22 of 35 individuals (63%); absences in 2 (6%); simple partial seizures in 6 (19%); complex partial seizures in 4 (11%); and other manifestations in 4. Neurologic examination and computed tomographic and magnetic resonance imaging scans were normal. Electroencephalograms demonstrated generalized or focal, interictal or ictal epileptic patterns in 11 of 21 patients (52%) and photoparoxysmal responses in 17 of 32 (53%). Eleven of 15 individuals (73%) treated with video game (VG) abstinence alone, 3 of 6 who received anticonvulsants but played VGs, and 7 of 12 treated with combined VG abstinence and anticonvulsants had no further seizures. CONCLUSIONS: We postulate that a special convulsive susceptibility of selected neurons in striate, peristriate, infratemporal, and posterior parietal cortices to particular visual stimuli plays a major role in VGRS. VG abstinence is the treatment of choice of VGRS. Anticonvulsant medication is suggested only for those individuals who continue to play VGs or suffer from seizures triggered by other, unavoidable visual stimuli, or from unprovoked attacks.

Uterine contraction in the development of Möbius syndrome.

We report a patient with Möbius syndrome. The birth defect in this child is probably the result of both vasoconstriction and uterine contractions brought on by ergotamine taken during the sixth week of pregnancy. We propose that vasoconstrictive or mechanical effects, or both, of abortifacient drugs such as ergotamine and misoprostol may account for other cases of Möbius syndrome, and we suggest that uterine contraction from any cause, at about the sixth or seventh week of pregnancy, may cause this birth defect. Further observational studies are needed to verify this hypothesis.

Stroke and mixed connective tissue disease.

We describe the clinical presentation and course of two girls with cerebrovascular disease and mixed connective tissue disease. One developed rapid onset hemiparesis and aphasia secondary to left internal carotid artery occlusion. She experienced a complete recovery after treatment with prednisone and cyclophosphamide. The other patient was diagnosed as having mixed connective tissue disease but had acute neurologic deterioration. She died due to an intracerebral hemorrhage. Autopsy demonstrated small-vessel fibrinoid necrosis. Although cerebrovascular disease secondary to central nervous system vasculitis is a manifestation of systemic lupus erythematosus, this is the first description of cerebrovascular disease as a primary sign in mixed connective tissue disease. These cases demonstrate the range of cerebrovascular disease observed in children with mixed connective tissue disease.

Autism associated with the mitochondrial DNA G8363A transfer RNA(Lys) mutation.

We report a family with a heterogeneous group of neurologic disorders associated with the mitochondrial DNA G8363A transfer ribonucleic acid (RNA)Lys mutation. The phenotype of one child in the family was consistent with autism. During his second year of life, he lost previously acquired language skills and developed marked hyperactivity with toe-walking, abnormal reciprocal social interaction, stereotyped mannerisms, restricted interests, self-injurious behavior, and seizures. Brain magnetic resonance imaging (MRI) and repeated serum lactate studies were normal. His older sister developed signs of Leigh syndrome with progressive ataxia, myoclonus, seizures, and cognitive regression. Her laboratory studies revealed increased MRI T2-weighted signal in the putamen and posterior medulla, elevated lactate in serum and cerebrospinal fluid, and absence of cytochrome c oxidase staining in muscle histochemistry. Molecular analysis in her revealed the G8363A mutation of the mitochondrial transfer RNA(Lys) gene in blood (82% mutant mitochondrial DNA) and muscle (86%). The proportions of mutant mitochondrial DNA from her brother with autism were lower (blood 60%, muscle 61%). It is likely that the origin of his autism phenotype is the pathogenic G8363A mitochondrial DNA mutation. This observation suggests that certain mitochondrial point mutations could be the basis for autism in some individuals.

Cell cycle properties in lymphocytes from children with myelomeningocele.

Children with spina bifida display a constellation of clinical features which include growth retardation, latex allergies, and recurrent infections. Clinical and epidemiological findings support the view that principle components of this congenital syndrome originate in an inherent susceptibility, and not necessarily as a secondary complication of the early central nervous system malformation. Critical requirements for normal neurulation include folic acid and a fully functional methylation cycle, both of which also promote cell proliferation. This suggests that elements of susceptibility may emerge as cells from an individual with myelomeningocele are induced to synthesize DNA and divide. As an in vitro correlate of proliferative activity, we compared cell cycle properties of peripheral blood lymphocytes (PBL) from children with spina bifida to those in age-matched healthy controls. The four patients selected for study all have typical lumbar level myelomeningocele with the Chiari II malformation as well as clinical features which we commonly observe. We exposed PBL to phytohemagglutinin in the presence of the thymidine analog bromodeoxyuridine. Using bivariate flow cytometric analysis of Hoechst 33258- and ethidium bromide-induced fluorescence, we measured percentages of cells which responded to the mitogen, and relative rates at which case and control cells traversed the first three cell cycles. In three of the four experiments a greater percentage of PBL from the patient than from the control responded to mitogen. Cells from these children also appeared to progress more rapidly into second and third cell cycles. In the fourth patient, an unusually high percentage of cells failed to respond to mitogen and the remainder progressed more slowly into later cycles. The biological functions of folic acid and methionine led us to expect that in the cells from children with spina bifida, DNA synthesis would be retarded, S phase prolonged and transitions between cycles delayed. These preliminary results contrast with original expectations for fractions of mitogen-responsive cells and rates of traversal. Further experiments with PBL and other cell types will be required to confirm the differences we observed and establish their biological significance. An association between abnormal proliferative capacity and NTD, whether positive or negative, will create a biological and experimental context in which to define metabolic factors in this condition.

The study of neural tube defects after the Human Genome Project and folic acid fortification of foods.

The implementation of folic acid fortification will eliminate a proportion of neural tube defects (NTD). As a result, the etiologic and clinical profiles of the developmental disorder may both change. In the assessment of NTD as it evolves, the bioinformatics structure and content of the Human Genome Project will find vital application. One important development will be an enhanced understanding of the role of folic acid in global regulation of gene expression through epigenetic processes. In addition, bioinformatics will facilitate coordination of research in the basic sciences with clinical investigations to better define remaining etiologic factors.

The pachygyria-polymicrogyria spectrum of cortical dysplasia in X-linked hydrocephalus.

Neural cell adhesion molecules (CAM) play important roles in neural development, neurite outgrowth, axonal guidance, fasciculation and synapse formation. Neuropathological studies of X-linked hydrocephalus (XLH) associated with L1 CAM mutations emphasize marked hypoplasia of the pyramidal tract, agenesis of the corpus callosum and septum pellucidum, and a thin cerebral mantle with hypoplastic white matter, but there are no detailed studies of the cerebral cortex in the literature. We report clinical, neuroimaging, and neuropathological findings in three boys with XLH. All had severe congenital hydrocephalus with marked thinning of the cerebral mantle and severe development disabilities. The brain specimens from the three boys showed both pachygyria and polymicrogyria, hypoplasia of the medullary pyramids, hypoplasia of the corpus callosum, small anterior commissure, hypoplasia and poorly differentiated hippocampi. A small but patent aqueduct was present in all three brains. Despite the extensive cerebral malformations, the cortex in all three brains showed normal-appearing laminar cortical neuronal architecture and absence of gliosis. In XLH, it is likely that the poor developmental outcome of spasticity, contractures and severe mental retardation results from a disturbance of neuronal connectivity, fasciculation, and synapse formation rather than aqueductal stenosis, increased intracranial pressure, or abnormal neuroblast migration.

Plasma homocysteine and methionine concentrations in children with neural tube defects.

Mild to moderate homocysteinemia in women has been associated with an increased frequency of pregnancies with neural tube defects (NTD). Homocysteinemia is also an independent risk factor for premature vascular disease. In addition to folic acid, supplemental Vitamin B12, Vitamin B6 and betaine may normalize homocysteine metabolism, decrease the risk for NTD formation, and correct related metabolic imbalances in children with NTD. By means of automated amino acid analysis, we assessed total non-fasting homocysteine and methionine in plasma from 24 children with myelomeningocele. This study group (mean age 10.5 +/- 4.9 years) included 12 girls and 12 boys randomly selected from our Birth Defects Clinic. Homocysteine concentrations in our patients (4.7 +/- 1.8 mumol/L) did not differ from those of 20 randomly selected child controls (5.1 +/- 2.6 mumol/L). The mean homocysteine concentration for 36 adult controls (9.3 +/- 3.0 mumol/L) was significantly higher than the mean for either group of children (p < 0.0001). Linear regression analysis revealed negative correlation of total plasma homocysteine with serum folate (r = -0.53; p = 0.01), but not of homocysteine with either methionine or B12. Plasma methionine concentrations from our patients did not differ from adult reference values. Elevated homocysteine in some mothers of children with NTD has been attributed to defective methylation of homocysteine. These preliminary results do not indicate such a defect in the children themselves. A more comprehensive study of homocysteine, methionine and related metabolites in children with NTD and age-matched controls will be required to determine the clinical significance of these findings.

Comparison of erythrocyte antioxidant enzyme activities and embryologic level of neural tube defects.

Increased exposure to oxidant-derived free radicals or inadequate systems for antioxidant defense could alter cellular response at critical points in development. We measured 5 antioxidant enzymes, glutathione peroxidase (GSH-Px), glutathione reductase, glutathione-S-transferase, catalase and superoxide dismutase in erythrocytes and their plasma cofactor trace elements (Se, Zn, Cu) in 37 children with myelomeningocele and in 37 age-matched controls. We placed the patients into 3 groups according to motor level of the lesion at birth. We found significantly lower GSH-Px activities (p = 0.007) in children with myelomeningocele. For paired comparisons among the 3 patient groups and controls, there were significant differences (p < 0.05) between controls and both high (thoracic) and raid (lumbar) level embryologic lesions. The finding of antioxidant enzyme variations in our patients with myelomeningocele may indicate a role for abnormal oxidative metabolism in the development of this defect. The contribution of oxidative stress to human birth defects warrants investigation. We discuss potential relationships between oxidative stress and energy metabolism during primary neurulation.