Your search keyword '"Tilemis, Faidon‐Nikolaos"' showing total 2 results

1. Germline CNV Detection through Whole-Exome Sequencing (WES) Data Analysis Enhances Resolution of Rare Genetic Diseases.

Author

Tilemis, Faidon-Nikolaos, Marinakis, Nikolaos M., Veltra, Danai, Svingou, Maria, Kekou, Kyriaki, Mitrakos, Anastasios, Tzetis, Maria, Kosma, Konstantina, Makrythanasis, Periklis, Traeger-Synodinos, Joanne, and Sofocleous, Christalena

Subjects

*RARE diseases, *DNA copy number variations, *GENETIC disorders, *HETEROZYGOSITY, *HOMOZYGOSITY, *GENETIC variation, *DATA analysis

Abstract

Whole-Exome Sequencing (WES) has proven valuable in the characterization of underlying genetic defects in most rare diseases (RDs). Copy Number Variants (CNVs) were initially thought to escape detection. Recent technological advances enabled CNV calling from WES data with the use of accurate and highly sensitive bioinformatic tools. Amongst 920 patients referred for WES, 454 unresolved cases were further analysed using the ExomeDepth algorithm. CNVs were called, evaluated and categorized according to ACMG/ClinGen recommendations. Causative CNVs were identified in 40 patients, increasing the diagnostic yield of WES from 50.7% (466/920) to 55% (506/920). Twenty-two CNVs were available for validation and were all confirmed; of these, five were novel. Implementation of the ExomeDepth tool promoted effective identification of phenotype-relevant and/or novel CNVs. Among the advantages of calling CNVs from WES data, characterization of complex genotypes comprising both CNVs and SNVs minimizes cost and time to final diagnosis, while allowing differentiation between true or false homozygosity, as well as compound heterozygosity of variants in AR genes. The use of a specific algorithm for calling CNVs from WES data enables ancillary detection of different types of causative genetic variants, making WES a critical first-tier diagnostic test for patients with RDs. [ABSTRACT FROM AUTHOR]

Published

2023

2. Alport Syndrome: Clinical Utility of Early Genetic Diagnosis in Children.

Author

Christodoulaki, Vasileia, Kosma, Konstantina, Marinakis, Nikolaos M., Tilemis, Faidon-Nikolaos, Stergiou, Nikolaos, Kampouraki, Afroditi, Kapogiannis, Charalampos, Karava, Vasiliki, Mitsioni, Andromachi, Mila, Maria, Kanaka-Gantenbein, Christina, Makrythanasis, Periklis, Tzetis, Maria, and Traeger-Synodinos, Joanne

Subjects

*CHRONIC kidney failure, *CHILD patients, *GENETIC disorder diagnosis, *GENETIC testing, *MEDICAL screening

Abstract

Alport syndrome (AS) is a hereditary glomerulopathy due to pathogenic variants in COL4A3, COL4A4, and COL4A5. Treatment with Renin–Angiotensin–Aldosterone System (RAAS) inhibitors can delay progression to end stage renal disease (ESRD). From 2018 until today, we performed Whole Exome Sequencing (WES) in 19 patients with AS phenotype with or without positive family history. Fourteen of these patients were children. Genetic testing was extended to family members at risk. All patients received a genetic diagnosis of AS: five X-linked AS (XLAS) males, five X-linked AS (XLAS) females, six autosomal dominant AS (ADAS), and one autosomal recessive AS (ARAS). After cascade screening four XLAS males and eight XLAS females, six ADAS and three ARAS heterozygotes were added to our initial results. Fifteen patients were eligible to start treatment with RAAS inhibitors after their diagnosis. All XLAS female patients, ARAS heterozygotes, and ADAS have been advised to be followed up, so that therapeutic intervention can begin in the presence of microalbuminuria. Genetic diagnosis of AS ensures early therapeutic intervention and appropriate follow up to delay progression to chronic kidney disease, especially in thet pediatric population. [ABSTRACT FROM AUTHOR]

Published

2024