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Author: search.filters.author.Elius Paz-CruzSubject: search.filters.subject.Ecuador

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    Neurofibromatosis Type 1 in Ecuador: genotype-phenotype correlations from a case series
    (Medwave Estudios Limitada, 2026-01-14)
    Elius Paz-Cruz
    ;
    Patricia Guevara-Ramirez
    ;
    Arianne Llamos Paneque
    ;
    Emily Onofre
    ;
    Christian Rivas Iglesias
    INTRODUCTION Neurofibromatosis type 1 (NF1) is a multisystemic genetic disorder caused by pathogenic variants in the NF1 gene, characterized by variable clinical manifestations such as pigmentary abnormalities, neurofibromas, skeletal dysplasia, and tumor predisposition. However, genotype-phenotype correlations remain insufficiently explored, particularly in underrepresented populations. METHODS Three unrelated Ecuadorian pediatric patients with a presumptive diagnosis of NF1 underwent detailed clinical evaluation, next-generation sequencing (NGS), using the TruSight Cancer panel, and ancestry analysis based on 46 ancestry-informative insertion-deletion (InDel) markers. Variants were classified according to ACMG/AMP guidelines using the Franklin and Variant Interpreter platforms, which incorporate in silico prediction tools to assess variant pathogenicity. RESULTS Three distinct pathogenic NF1 variants were identified: one nonsense (p.Arg1534Ter) and two missense (p.Gln20His, p.Asp1644Asn). Clinical findings included early-onset orbital plexiform neurofibroma, multiple café-au-lait macules, axillary/inguinal freckling, radial bone dysplasia, cutaneous neurofibromas, and prepubertal gynecomastia. All patients exhibited predominantly Native American ancestry. In silico analyses predicted a pathogenic classification of all variants. Early pigmentary signs, present in all cases, served as key diagnostic indicators. CONCLUSIONS This case series expands the mutational and phenotypic spectrum of NF1 in a pediatric Ecuadorian cohort. Findings underscore the diagnostic value of early pigmentary signs and highlight less commonly reported manifestations such as radial bone dysplasia and prepubertal gynecomastia. Integrating molecular diagnostics with early clinical evaluation may enable earlier and more precise diagnosis, guiding personalized management strategies. Further studies should investigate genotype-phenotype correlations and the influence of ancestry on NF1 expression.
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    Exploring Atrial Fibrillation: Understanding the Complex Relation Between Lifestyle and Genetic Factors
    (Elmer Press, Inc., 2024-08)
    Rafael Tamayo-Trujillo
    ;
    Elius Paz-Cruz
    ;
    CADENA ULLAURI, SANTIAGO ANDRE  
    ;
    GUEVARA RAMIREZ, ALEXANDRA PATRICIA  
    ;
    Viviana A. Ruiz-Pozo
    Cardiovascular diseases (CVDs) are the leading cause of death worldwide across diverse ethnic groups. Among these, atrial fibrillation (AF) stands as one of the most prevalent types of arrhythmias and the primary cause of stroke. Risk factors associated with AF include alcohol consumption, aging, high blood pressure, hypertension, inflammation, and genetic factors. A family history of CVD could indicate an increased risk. Consequently, genetic, and genomic testing should be performed to identify the molecular etiology of CVDs and assess at-risk patients. It is important to note that CVDs are the results of the complex interplay of genes and environmental factors, including ethnicity. In this case, the proband’s clinic story includes a history of smoking abuse for 10 years (10 cigarettes per day), obesity, hypertension, and an associated familial history. These risk factors, along with genetic variants, could trigger the early onset of AF. In recent years, genetic and genomic studies have significantly advanced our understanding of CVD etiology, given that next-generation sequencing (NGS) allows for the identification of genetic variants that could contribute to these pathologies. Furthermore, NGS facilitates early diagnosis, personalized pharmacological approaches, and identification of novel biomarkers. Thus, NGS is a valuable tool in CVD management. However, such studies are limited in Ecuador, a low- and middle-income country. Several challenges contribute to this gap, encompassing economic, infrastructural, and educational obstacles. Notably, the cost of genetic and genomic studies may also pose a barrier, restricting access to a portion of the population. In this case report, we present a 56-year-old Ecuadorian woman, who has been diagnosed with AF; however, after performing NGS no disease-associated variants were found, despite having strong clinical signs and symptoms. In summary, this case report contributes valuable insights into the complex interplay between genetic and lifestyle factors in the development and management of AF. The case report aims to underscore the potential impact of genetic variants on disease risk, even when classified as variants of uncertain significance, and the importance of an integral approach to patient care that includes genetic screening, lifestyle interventions, and tailored pharmacological treatment.