Lucia Pucci

Diagnosis of Angelman syndrome: clinical and EEG criteria

In order to evaluate which diagnostic criteria can be indicative for an early diagnosis of Angelman syndrome (AS), 144 children with severe epilepsy and mental retardation were evaluated. In 10 of them the diagnostic criteria indicated by Williams were present. Of the remaining 134 patients we were able to diagnose one 15-year-old patient with AS, on the basis of the EEG findings, even though the typical clinical features of the syndrome were absent. In all patients the diagnosis of AS was confirmed by fluorescent in situ hybridization (FISH) in 10 patients and by methylation analysis in one patient. AS is very likely when both typical clinical and EEG findings are present. Nevertheless, it must be considered in all patients affected by severe epilepsy and mental retardation, when the EEG pattern is sufficiently indicative, and FISH and/or molecular analysis should be performed even in absence of typical clinical signs.

Electroencephalographic and epileptic patterns in X chromosome anomalies.

Although epilepsy and mental retardation are commonly observed in individuals with chromosomal aberrations, the identification of EEG/epileptic profiles in those with specific chromosome anomalies remains difficult. A few syndromes seem to show peculiar clinical and EEG associations. The authors report an electroclinical investigation on a group of patients carrying X chromosome anomalies: 16 patients with Turners syndrome, 17 with Klinefelters syndrome, 1 with an X–autosomal rearrangement, 2 with Xq isochromosome [Xq(i)], and 7 with triple X syndrome. Epilepsy and/or EEG anomalies were found in three of the patients with Klinefelters syndrome, in one patient with an X–autosomal rearrangement, and in five of those with triple X syndrome. No epilepsy or EEG anomalies were detected in the other patients. Epilepsy may be associated with Klinefelters syndrome. In addition, the authors found that an electroclinical pattern, represented by paroxysmal activity in the posterior regions (temporo-parieto-occipital areas) with complex partial seizures and easily controlled by antiepileptic drugs, may be present in patients with triple X syndrome. In contrast, gross X–autosomal rearrangements are associated with polymorphic EEG/epileptic findings. Although further studies are needed to validate these observations, they clearly confirm the strict relationship between X chromosome anomalies and epilepsy.

Growth hormone secretion in Prader-Willi syndrome

Prader-Willi Syndrome (PWS) is a multisystem defect characterized by obesity, hypogenitalism and short stature for genetic background. Low GH serum levels have been found in patients with PWS and were related to a hypothalamic-pituitary dysfunction. We studied spontaneous nocturnal GH secretion and GH-response to provocative tests in five patients affected by PWS. We observed in three of them (Group A) abnormally low GH and IGF-1 serum levels. In the other two patients (Group B) GH secretion and IGF-1 serum levels were normal. In all patients no thyroid dysfunction was observed. These data might suggest the presence of two different subgroups of patients affected by PWS, from an endocrinological point of view. An abnormally low GH secretion would be evident only in a subgroup of patients, which appears to be normal in the remaining patients. This casistic is small in number, but if our data will be confirmed by more extensive studies it may be possible to identify a specific population of PWS patients who could benefit from recombinant GH-therapy.

The Syndrome of Inv Dup (15): Clinical, Electroencephalographic, and Imaging Findings

The clinical and laboratory data of four pediatric patients and one adult patient with inverted duplication (inv dup) (15) are reported. The most evident findings were dysmorphic features with frontal bossing; genital abnormalities, such as macropenis or hypospadias; mental retardation; autistic behavior; and seizures. Two additional adults with inv dup (15) from other institutions were also diagnosed in our laboratory. Seizures and mental retardation were the reasons for their referral. The clinical picture of inv dup (15) seems to be quite variable since the phenotype can also be normal. However, karyotyping and fluorescent in-situ hybridization, focused in particular on chromosome 15, appear to be indicated in patients with dysmorphic phenotypes, such as the one present in our patients, and in subjects with early-onset seizures and psychomotor retardation with autistic features. (J Child Neurol 2000;15:380-385).

Chromosome 18 aberrations and epilepsy: A review

Epilepsy is commonly observed in patients with chromosomal aberrations. We evaluated epilepsy and electroencephalographic (EEG) features in a group of patients carrying aberrations of chromosome 18. Fourteen patients were recruited: five with an 18p deletion syndrome (18pDS); six with an 18q deletion syndrome (18qDS); two with trisomy 18p syndrome; and one with a 45,XY,t(17‐18) (cen‐q11.2) karyotype. Patients with 18pDS had neither epilepsy nor EEG anomalies; four patients with 18qDS had epilepsy with partial seizures occurring during infancy or early childhood. Partial seizures were also present in both patients with trisomy 18p. By contrast, mixed seizures were observed in the patient carrying a translocation between chromosomes 17 and 18. Our data and a re‐evaluation of the literature suggest that epilepsy is infrequent in patients with 18pDS. Conversely, partial seizures and focal EEG anomalies may be observed in those with patients with 18qDS. Our observations suggest that the haplo‐insufficiency of genes located on the long arm of chromosome 18 is more likely to be associated with epilepsy, than is haplo‐insufficiency of genes located on the short arm. While further EEG/clinical investigations are needed to validate these observations, this study indicates a possible relationship between chromosome 18 genes and epilepsy.

Epilepsy and electroencephalographic anomalies in chromosome 2 aberrations. A review.

UNLABELLED Epilepsy and electroencephalographic (EEG) anomalies are common in subjects carrying chromosomal aberrations. We report clinical and EEG investigations on 13 patients carrying chromosome 2 anomalies, including two patients with inversions, six with translocations, two with partial duplications and three with interstitial deletion syndromes. Epilepsy and/or EEG anomalies were found in one patient with a chromosome 2 translocation, in both of those carrying partial duplications and in all three with interstitial deletion syndromes. No epilepsy or EEG anomalies were detected in the remaining patients. CONCLUSIONS Epilepsy may be associated with chromosome 2 aberrations. Gross rearrangements involving the long arm of chromosome 2 might be more often associated with epilepsy than those involving the short arm. The association of epilepsy with chromosome 2 duplications is less clear. In particular, our observations and a review of the literature appear to suggest that a strict relationship between epilepsy and interstitial deletions involving the 2q24-q31 region. In the latter disorder tonic and focal seizures occur early in life. Generalized and focal myoclonic jerks tend to appear in infancy and are subsequently followed by seizures mixed in type. Seizures usually persist up to late childhood and are drug resistant. Further studies are necessary to better define the electroclinical patterns of patients carrying deletions in 2q24-q31. These may help to direct systematic study of this--probably underestimated--cause of severe epilepsy.

18q- syndrome and ectodermal dysplasia syndrome: Description of a child and his family

The 18q‐ syndrome [MIM #601808] is a terminal deletion of the long arm of chromosome 18. The most common deletion extends from region q21 to qter. We report here a nine‐year‐old boy possessing a simple 18q‐ deletion who had abnormalities of the brain, skull, face, tooth, hair, bone, and skin, plus joint laxity, tongue palsy, subtle sensoneural deafness, mental and speech delay, attention deficit hyperactivity disorder (ADHD), tic, and restless legs syndromes. His karyotype was 46, XY, del (18)(q21.31−qter). The size of the deletion was approximately 45 cM. Most of these abnormalities were not explained by the 18q‐ deletion. The family pedigree suggested the presence of a subtle involvement of ectodermal and/or mesodermal structures. Karyotypes of the other family members were normal.

Pubertal disorders in inv dup(15) syndrome.

Duplication of chromosome 15 (inv dup[15] chromosome) is the most common supernumerary marker chromosome in humans. Inv dup(15) chromosomes are commonly associated with mental retardation ,epilepsy ,behavioral problems and structural malformations. Ten patients (4 male ,6 female) were detected with inv dup(15) syndrome. At clinical follow-up three girls showed pubertal disorders: two with central precocious puberty and one with ovarian dysgenesis. As has already been found in other patients with chromosome 15p abnormalities ,we believe that gynecological disorder is an important clinical finding also in patients with inv dup(15) syndrome. We report the first data of a systematic endocrinological study on inv dup(15) syndrome which suggest that endocrine investigation in these patients is both warranted and useful. Moreover ,our observations confirm that a karyotype analysis in patients in whom precocious puberty is associated with mental retardation is mandatory.

Char syndrome: An additional family with polythelia, a new finding

This report describes a father and daughter with Char syndrome, a rare autosomal dominant disorder. Both affected individuals had typical face, strabismus, and foot anomalies. The girl also had a patent ductus arteriosus. In addition, both patients had polythelia (supernumerary nipples), a finding not described before in the Char syndrome.

Epilepsy and Electroencephalographic Findings in Pericentric Inversion of Chromosome 12

Epilepsy, together with mental retardation, represents a common manifestation of chromosomal aberrations. Specific electroencephalographic (EEG) and epileptic patterns have been described in several chromosomal disorders, such as Angelmans syndrome, Miller-Dieker syndrome, Wolf-Hirschhorn syndrome, and ring 20 syndrome. A peculiar electroclinical pattern has also been identified in trisomy 12p syndrome. We report three patients with a pericentric inversion of chromosome 12, with breakpoints localized to p11-q13 and affected by epilepsy or EEG anomalies. Two suffered from epilepsy, which, in the clinical course, was mainly characterized by complex partial seizures with a semiology related to the temporal lobe. In one patient, myoclonic absences, head drop, and massive jerky attacks were also present. In both patients, generalized 3 Hz bursts were registered, together with multifocal and focal paroxysmal activity, which were most prominent in the temporoparietal and temporal areas, respectively. In the other patient, who had no epilepsy, EEG showed bioccipital paroxysmal activity. In all patients, the clinical picture was characterized by the presence of moderate mental retardation and behavioral disorders. The incidence of epilepsy or EEG anomalies among patients with a pericentric inversion of chromosome 12 remains to be ascertained. However, the present study confirms that chromosome 12 anomalies can be associated with epilepsy. Although myoclonic absence-like episodes can occasionally be part of the epileptic phenotype, the electroclinical pattern in pericentric inversion of chromosome 12 seems to be more polymorphic when compared with that observed in trisomy 12p syndrome. (J Child Neurol 2004;19:604-608).