Background: Cardiomyopathies in children are serious, continuously progressing myocardium diseases which are characterized by a variety of the causes, symptoms, implications, and high lethality. More than 400 genes that can cause hereditary heart and vessels diseases are described in scientific literature. The application of a high-performance method of massive parallel sequencing allows to conduct the investigation of genome extended targeted areas revealing the variants and analyzing them (bioinformatics) for pathogenicity.Aims: Identification of a genetic etiology of hereditary cardiomyopathies development in children’s population of the Russian Federation.Materials and methods: The research included 103 patients with various phenotypes of cardiomyopathies aged from 3 months up to 17 years 9 months who at the moment of examination were observed in the cardiology department and the department of recovery treatment with cardiovascular diseases in the NMRCCH. All patients were performed massive parallel sequencing analyzing the targeted areas of 404 genes which mutations lead to the development of heart and vessels hereditary diseases.Results: The diagnostic algorithm based on the method of a massive parallel sequencing was developed. 176 258 minor options were identified in the explored target areas of genome of 103 patients. An average number of the revealed nucleotide replacements different from the reference sequence was 1711. We observed that about 40% of all variants founded by our means were found in MYH7, MYBPC3, TTN, MYH6, SCN5A, DSC2 and TPM1 genes. Bioinformatics analysis allowed revealing 68 novel genome variants associated with cardiomyopathy development. The reliable association of carriage of pathogenic option in MYBPC3 gene with development of hypertrophic cardiomyopathy in the Russian children was found.Conclusions: The application of the offered algorithm allowed establishing laboratory diagnoses to 99 (96.1%) patients out from 103 investigated subjects including the syndromal and non-syndromal forms of heart and vessels hereditary diseases which showed a cardiomyopathy phenotype.
Left ventricular non-compaction cardiomyopathy (LVNC) is a rare heart disease, with or without left ventricular dysfunction, which is characterized by a two-layer structure of the myocardium and an increased number of trabeculae. The study of familial forms of LVNC is helpful for risk prediction and genetic counseling of relatives. Here, we present a family consisting of three members with LVNC. Using a next-generation sequencing approach a combination of two (likely) pathogenic nonsense mutations DSG2-p.S363X and TBX20-p.D278X was identified in all three patients. TBX20 encodes the cardiac T-box transcription factor 20. DSG2 encodes desmoglein–2, which is part of the cardiac desmosomes and belongs to the cadherin family. Since the identified nonsense variant (DSG2-p.S363X) is localized in the extracellular domain of DSG2, we performed in vitro cell transfection experiments. These experiments revealed the absence of truncated DSG2 at the plasma membrane, supporting the pathogenic relevance of DSG2-p.S363X. In conclusion, we suggest that in the future, these findings might be helpful for genetic screening and counseling of patients with LVNC.
Background. Non-compaction cardiomyopathy is a group of genetically heterogeneous, poorly studied myocardial diseases with a variety of clinical manifestations (from asymptomatic course to progressive systolic dysfunction with symptoms of chronic heart failure, arrhythmias, and thromboembolic complications). Considering the variety of genetic disorders associated with the development of noncompaction cardiomyopathy, genetic verification of the diagnosis is important for determining the prognosis and conducting genetic counselling of families with cases of the disease.Description of the Clinical Case. The article presents two clinical observations of a severe course of non-compaction cardiomyopathy with remodeling of the heart cavities according to the dilated phenotype. In order to clarify the disease etiology, a molecular genetic study was conducted using the method of direct automatic sequencing with the analysis of targeted regions of 404 genes which mutations are described in hereditary diseases of the heart and blood vessels. After verifying the mutation (in the ACTC1 and MYBPC3 genes), we performed a search for the detected nucleotide substitution in the venous blood samples of parents and in one case — in the fetal DNA sample. The mode of inheritance has been determined; the probability of recurrence of the disease in siblings in subsequent pregnancies has been estimated.Conclusion. The description of clinical cases shows the importance of genetic verification of the diagnosis in patients with non-compaction cardiomyopathy for determining the disease prognosis and developing an algorithm for monitoring relatives of a proband.
The few foreign papers of the last decade have shown the relationship of various pathogenic variants of the ELAC2 gene to heterogeneous phenotypic manifestations, for which the unfavorable prognosis is common, caused by severe cardiomyopathy in the first year of life. The article presents the first clinical observation of a rare variant of the hypertrophic phenotype cardiomyopathy with a fatal outcome in the first year of life, and variants c.887T>C, p.L296P and c.1979A>T, p.K660I of the ELAC2 gene in Russia.The purpose of the work is to present clinical observation of a child with an early manifestation of a hypertrophic phenotype of cardiomyopathy caused by pathogenic variants of the ELAC2 gene.
The article presents the examination of three generations of a family with diagnosed left ventricular noncompaction (LVNC) and various phenotypic manifestations of the disease (isolated, hypertrophic and dilated type of LVNC). As a result of a molecular genetics tests, a previously undescribed single nucleotide deletion in the PRDM16 gene was revealed in all family members with the LVNC phenotype, leading to a frameshift mutation in exon 9 and the formation of a premature termination codon. This gene encodes a transcription factor responsible for after-birth suppressing the expression of genes involved in prenatal and postnatal development. Despite the presence of previous studies showing the relationship of the PRDM16 gene with LVNC development, currently there are insufficient data to prove the pathogenicity of the identified variant. However, the segregation of the symptomatic variant in three generations supports the association of the identified variant with LVNC. With the accumulation of information about changes in PRDM16 in patients with cardiomyopathies, it is possible to change the status of this gene and clarify its contribution to primary heart diseases.
Introduction. Currently, there are still problems in the rehabilitation of children with chronic diseases and children with disabilities, as well as in the establishment of the disability itself, which is primarily due to the lack of common criteria for describing the health, functioning of the child’s body, their disorders at different ages and assessing the effectiveness of rehabilitation measures. Purpose. To develop criteria of functioning disturbance in children suffered from various chronic disabling diseases in terms of quality of life. Materials and methods. By means of the developed Russian-language version of the standardized international questionnaire (HUI) applicable for children’s age, 832 children at the age of 5-17 years were examined (healthy children, children with chronic disabling diseases and the children in need of palliative care). Results. For the first time, domestic pediatrics profiles of functioning disturbance with the use of HUI questionnaire in healthy and sick children are developed. Indices of healthy children can be used as standard criteria. Juvenile idiopathic arthritis patients were revealed to have functioning disturbances in almost all aspects, except sight, hearing, and speech. In children with the heart diseases followed by chronic heart failure, the capability to move, cognitive abilities are disturbed, emotional violations and a pain syndrome were noted. Patients with cystic fibrosis had functioning disturbance concerned emotions and pain. The most expressed disturbances on all aspects included in the HUI questionnaire, except hearing, are noted in disabled children needing palliative care. Conclusion. The data can be used for obtaining information of impact of the disease on the activity of a child, extent of functioning disturbance on this or that aspect of quality of life, for development and assessment of efficiency of individual rehabilitation programs.
Aim. To analyze and demonstrate various phenotypes in patients with familial left ventricular noncompaction (LVNC). Materials and methods. In 2013 was created a multicenter registry of LVNC patients. On its basis 30 families with a familial LVNC were selected. Results. 30 LVNC families were selected from the register. From a total of 115 people (probands and relatives) in 71 (61.7%) LVNC was diagnosed (30 probands and 41 relatives with non-compact myocardial criteria). The most common type of remodeling in patients was the dilated type (DT) (n=30), the isolated LVNC with preserved ejection fraction (EF) was slightly less common (n=23), and the hypertrophic type (GT) was detected in 8 patients. 4 patients were diagnosed with the isolated LVNC with a reduced EF. 3 patients were with a combination of non-compact myocardium with congenital heart disease and with a combination of DT and GT (DT+GT). During the analysis of cases a combination of different phenotypes in the same family was observed. The largest number of families was diagnosed with a combination of DT and the isolated LVNC with preserved EF. The development of cardiovascular complications was associated with DT. Conclusion. Family cases of LVNC had different types of myocardial remodeling and variants of clinical course. In one family a combination of different types of left ventricular remodeling is possible. DT is associated with the most severe clinical manifestations. The clinical picture of the isolated LVNC with preserved EF, is the most favorable, but in rare cases, serious clinical manifestations were observed.
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