Valentina Peycheva scite author profile

Background. Dravet syndrome (DS) is the most severe form of Generalized Epilepsy with Febrile Seizures plus (GEFS+) syndrome with a clear genetic component in 85% of the cases. It is characterized by fever-provoked seizure onset around six months of age and subsequent developmental deterioration later in life. Methods.In the current study, 60 patients with fever-provoked seizures and suspicion either of GEFS+ (50 patients) or of DS (10 patients) were referred for SCN1A gene sequence analysis.Results. SCN1A gene sequencing revealed clinically significant variants in 11 patients (18.3%); seven pathogenic (11.7%) and four likely pathogenic (6.7%). Five of these variants have not been reported previously. Among the preselected group of ten DS patients, five had pathogenic SCN1A variants which confirmed diagnosis of DS. In four patients with preliminary diagnosis GEFS+, the detected SCN1A variant enabled us to specify the diagnosis of DS in these patients. Thus, SCN1A sequencing led to confirmation of the genetic diagnosis in 50% (5/10) of DS patients, as well as clarification of the diagnosis of DS in 8% of GEFS+ patients (4/50).In this study, four patients with truncating mutations had refractory seizures and additional psychomotor abnormalities. Additionally, pathogenic missense mutations were detected in three children with comparable phenotypes, which support the observations that missense mutations in critical channel function regions can cause a devastating epileptic condition.Conclusions. This is the first systematic screening of SCN1A gene in our country, which expands the spectrum of SCN1A variants with five novel variants from Bulgaria and demonstrates the clinical utility of confirmatory SCN1A testing, which helps clinicians make early and precise diagnoses. It is important for a better followup, choice of proper treatment, avoidance of development of refractory seizures and neuropsychological complications. Identification of pathogenic variants in SCN1A in the milder GEFS+ and severe DS cases, will help to offer adequate prenatal diagnosis and improve the genetic counselling provided to affected families.

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Three novel SLC2A1 mutations in Bulgarian patients with different forms of genetic generalized epilepsy reflecting the clinical and genetic diversity of GLUT1-deficiency syndrome

Ivanova

Peycheva

Kamenarova

et al. 2018

Seizure

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Our study enriches the mutation spectrum of the SLC2A1 gene by 3 novel cases that reflect the genetic and phenotypic diversity of GLUT1-DS and brings new insights into the molecular pathology of that disorder. The clinical data showed that the SLC2A1 genetic defects should be considered equally in the entire range of the clinical manifestations of GGE paying attention to the extraneurological features. The aCGH analysis should be considered as an ultimate step during the diagnostic procedure of GLUT1-DS in patients with a complex clinical picture of intractable epilepsy involving neuropsychological impairments and accompanied by extraneurological features.

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Molecular and Phenotypic Characterization of Advanced Backcross Lines Derived from Interspecific Hybridization of Durum Wheat

Todorovska

Hadjiivanova

Bozhanova

et al. 2013

Biotechnology & Biotechnological Equipment

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Impact of KCNQ2 mutations in Bulgarian patients with electroclinical syndromes with onset in the first year of life

Peycheva

Иванова

Kamenarova

et al. 2016

Biotechnology & Biotechnological Equipment

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Mutations in KCNQ2 are associated with a range of electroclinical syndromes with dominant inheritance that are differentiated by the age at onset of the seizures and are associated with good prognosis. These are benign familial neonatal seizures (BFNS), benign familial neonatal-infantile seizures (BFNIS) and benign familial infantile seizures. Herein, we report the results of a systematic screening of KCNQ2 in 27 unrelated Bulgarian patients with compatible clinical diagnoses. Two pathogenic point mutations were identified: a novel splice-site c.1526-2A>G variation causing BFNS and a missense c.998G>A alteration in a patient with BFNIS, who subsequently developed benign epilepsy with centro-temporal spikes. Additionally, multiplex ligation-dependent probe amplification analysis and array comparative genomic hybridization assay detected a de novo deletion on 20q13.3 encompassing 0.41 Mb genomic region and covering 11 genes, including KCNQ2 and CHRNA4. This large-scale rearrangement was found in a patient with typical BFNS and no additional developmental abnormalities. Overall, KCNQ2 genetic defects were found in 11% of the patients in our cohort. These findings enrich the genetic epidemiology and mutation spectrum of KCNQ2 and allow adequate genetic counselling in the affected families.

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