Your search keyword '"Kara S. Lewis"' showing total 2 results

1. Trichothiodystrophy due to ERCC2 Variants: Uncommon Contributor to Progressive Hypomyelinating Leukodystrophy

Author

Ali Reza Tavasoli, Arastoo Kaki, Maedeh Ganji, Seyyed Mohammad Kahani, Foozhan Radmehr, Pouria Mohammadi, Morteza Heidari, Mahmoud Reza Ashrafi, and Kara S. Lewis

Subjects

ERCC2, hypomyelination, leukodystrophy, trichothiodystrophy, Genetics, QH426-470

Abstract

ABSTRACT Background Trichothiodystrophy (TTD) is caused by homozygous or compound heterozygous variants in genes associated with DNA repair. The ERCC2 gene encoded a protein, XPD, that is a subunit of the general transcription factor TFIIH and important in both DNA repair and transcription. Disease‐causing variants in ERCC2 can partially inactivate these activities, giving rise to symptoms seen in TTD, Cockayne syndrome (CS) and xeroderma pigmentosa (XP). Although generalized cerebral white matter abnormalities is reported in TTD, myelination disorders specifically linked to ERCC2 gene variants are exceptionally uncommon. Here, we introduce a thorough investigation of a patient exhibiting classic TTD symptoms alongside progressive cerebral hypomyelination with ERCC2 variants. Methods In a non‐consanguineous family, we conducted Autism/ID gene Panel on a 5‐year‐old affected child who presented with microcephaly, failure to thrive, developmental delay, and progressive hypomyelination on three serial brain imaging over 5‐years follow‐up. Our investigation aimed to elucidate the genetic underpinnings of the observed phenotype. We also conducted a comprehensive review of the genetic profiles of all documented ERCC2‐related patients exhibiting myelination disorders. Results Autism/ID gene Panel identified a compound heterozygous variant in ERCC2 gene causing TTD. Clinical and paraclinical findings enabled differentiation of TTD from Cockayne syndrome and XP. Segregation analysis revealed that, the variation in the paternal allele was a splice junction loss (c.2190 + 1delG), and the other alteration in the maternal allele was a pathogenic variant (c.1479 + 2dupT). It has been noted that these variants were reported in previous studies in homozygous or compound heterozygous form in patients with TTD, but none of them exhibited hypomyelinating leukodystrophy. Conclusion The identification of hypomyelination in TTD due to ERCC2 sheds a light on the molecular diagnosis and contributing to the limited literature on ERCC2 variants and associated hypomyelinating leukodystrophy in patients with TTD.

Published

2025

2. Epidemiology of Pediatric Traumatic Brain Injury and Hypothalamic-Pituitary Disorders in Arizona

Author

J. Bryce Ortiz, Alona Sukhina, Baran Balkan, Gevork Harootunian, P. David Adelson, Kara S. Lewis, Oliver Oatman, Vignesh Subbian, Rachel K. Rowe, and Jonathan Lifshitz

Subjects

traumatic brain injury, pediatrics, endocrine dysfunction, concussion, adolescence, hypopituitarism, Neurology. Diseases of the nervous system, RC346-429

Abstract

Traumatic brain injury (TBI) in children can result in long-lasting social, cognitive, and neurological impairments. In adults, TBI can lead to endocrinopathies (endocrine system disorders), but this is infrequently reported in children. Untreated endocrinopathies can elevate risks of subsequent health issues, such that early detection in pediatric TBI survivors can initiate clinical interventions. To understand the risk of endocrinopathies following pediatric TBI, we identified patients who had experienced a TBI and subsequently developed a new-onset hypothalamic regulated endocrinopathy (n = 498). We hypothesized that pediatric patients who were diagnosed with a TBI were at higher risk of being diagnosed with a central endocrinopathy than those without a prior diagnosis of TBI. In our epidemiological assessment, we identified pediatric patients enrolled in the Arizona Health Care Cost Containment System (AHCCCS) from 2008 to 2014 who were diagnosed with one of 330 TBI International Classification of Diseases (ICD)-9 codes and subsequently diagnosed with one of 14 central endocrinopathy ICD-9 codes. Additionally, the ICD-9 code data from over 600,000 Arizona pediatric patients afforded an estimate of the incidence, prevalence, relative risk, odds ratio, and number needed to harm, regarding the development of a central endocrinopathy after sustaining a TBI in Arizona Medicaid pediatric patients. Children with a TBI diagnosis had 3.22 times the risk of a subsequent central endocrine diagnosis compared with the general population (±0.28). Pediatric AHCCCS patients with a central endocrine diagnosis had 3.2-fold higher odds of a history of a TBI diagnosis than those without an endocrine diagnosis (±0.29). Furthermore, the number of patients with a TBI diagnosis for one patient to receive a diagnosis of a central endocrine diagnosis was 151.2 (±6.12). Female subjects were more likely to present with a central endocrine diagnosis after a TBI diagnosis compared to male subjects (64.1 vs. 35.9%). These results are the first state-wide epidemiological study conducted to determine the risk of developing a hypothalamic-pituitary disorder after a TBI in the pediatric population. Our results contribute to a body of knowledge demonstrating a TBI etiology for idiopathic endocrine disorders, and thus advise physicians with regard to TBI follow-up care that includes preventive screening for endocrine disorders.

Published

2020