Your search keyword '"Hannah WB"' showing total 6 results

1. Using genomic databases to determine the frequency and population-based heterogeneity of autosomal recessive conditions.

Author

Hannah WB, Drumm ML, Nykamp K, Pramparo T, Steiner RD, and Schrodi SJ

Abstract

Competing Interests: William B. Hannah was a consultant for PTC Therapeutics and ReCode Therapeutics. Mitchell L. Drumm has no disclosures relevant to the manuscript. Keith Nykamp is an employee and stockholder of Invitae Corporation. Tiziano Pramparo was a full-time employee of Travere Therapeutics, Inc at the time of manuscript development and submission and may have an equity or other financial interest in Travere Therapeutics, Inc. Robert D. Steiner is a consultant for Leadiant, Mirum, and PTC Therapeutics. Robert D. Steiner is an employee with equity of PreventionGenetics, part of Exact Sciences. Steven J. Schrodi has no disclosures relevant to the manuscript.

Published

2024

2. Glycogen storage diseases.

Author

Hannah WB, Derks TGJ, Drumm ML, Grünert SC, Kishnani PS, and Vissing J

Subjects

Humans, Quality of Life, Disease Progression, Glycogen Storage Disease diagnosis, Glycogen Storage Disease therapy, Glycogen Storage Disease Type II diagnosis, Glycogen Storage Disease Type II genetics, Glycogen Storage Disease Type II therapy, Glycogen Storage Disease Type I complications, Glycogen Storage Disease Type I diagnosis, Glycogen Storage Disease Type I therapy

Abstract

Glycogen storage diseases (GSDs) are a group of rare, monogenic disorders that share a defect in the synthesis or breakdown of glycogen. This Primer describes the multi-organ clinical features of hepatic GSDs and muscle GSDs, in addition to their epidemiology, biochemistry and mechanisms of disease, diagnosis, management, quality of life and future research directions. Some GSDs have available guidelines for diagnosis and management. Diagnostic considerations include phenotypic characterization, biomarkers, imaging, genetic testing, enzyme activity analysis and histology. Management includes surveillance for development of characteristic disease sequelae, avoidance of fasting in several hepatic GSDs, medically prescribed diets, appropriate exercise regimens and emergency letters. Specific therapeutic interventions are available for some diseases, such as enzyme replacement therapy to correct enzyme deficiency in Pompe disease and SGLT2 inhibitors for neutropenia and neutrophil dysfunction in GSD Ib. Progress in diagnosis, management and definitive therapies affects the natural course and hence morbidity and mortality. The natural history of GSDs is still being described. The quality of life of patients with these conditions varies, and standard sets of patient-centred outcomes have not yet been developed. The landscape of novel therapeutics and GSD clinical trials is vast, and emerging research is discussed herein., (© 2023. Springer Nature Limited.)

Published

2023

3. Screening data from 19 patients with late-onset Pompe disease for a phase I clinical trial of AAV8 vector-mediated gene therapy.

Author

Hannah WB, Case LE, Smith EC, Walters C, Bali D, Kishnani PS, and Koeberl DD

Abstract

Late-onset Pompe disease (LOPD) is a multisystem disorder with significant myopathy. The standard treatment is enzyme replacement therapy (ERT), a therapy that is lifesaving, yet with limitations. Clinical trials have emerged for other potential treatment options, including adeno-associated virus (AAV) gene therapy. We present clinical parameters and AAV antibody titers for 19 individuals with LOPD undergoing screening for a Phase I clinical trial with an AAV serotype 8 vector targeting hepatic transduction (AAV2/8-LSPhGAA). Reported clinical parameters included GAA genotype, assessments of muscle function, upright and supine spirometry, anti-recombinant human GAA antibody titers, and biomarkers. Variability in measured parameters and phenotypes of screened individuals was evident. Eligibility criteria required that all participants have six-minute walk test (6MWT) and upright forced vital capacity (FVC) below the expected range for normal individuals, and were stably treated with ERT for >2 years. All participants had Pompe disease diagnosed by enzyme deficiency, and all had the common c.-32-13T>G LOPD pathogenic variant. Screening identified 14 patients (74%) with no or minimal detectable neutralizing antibodies against AAV8 (titer ≤1:5). 6MWT distance varied significantly (percent of expected distance ranging from 24% to 91% with an average of 60 and standard deviation of 21). Upright FVC percent predicted ranged from 35% predicted to 91% predicted with an average of 66 and standard deviation of 18. None of the participants had significantly elevated alanine transaminase, which has been associated with LOPD and could complicate screening for hepatitis related to AAV gene therapy. We review the parameters considered in screening for eligibility for a clinical trial of AAV8 vector-mediated gene therapy., Competing Interests: Dr. Dwight D. Koeberl and Dr. Priya S. Kishnani have developed the technology that is being used in the study. If the technology is commercially successful in the future, the developers and Duke University may benefit financially. Dr. Dwight D. Koeberl has served as a consultant for Sangamo Therapeutics and for Genzyme Sanofi, Amicus, and Vertex; has received grant support from Viking Therapeutics, Genzyme Sanofi, Roivant Rare Diseases, and Amicus; and has equity in Askbio, which is developing gene therapy for Pompe disease. Dr. William B. Hannah has received consulting fees from PTC Therapeutics and ReCode Therapeutics. Dr. Edward C. Smith received salary support for his role as PI on this study. Dr. Laura E. Case has received honoraria from Genzyme Sanofi and Amicus, has participated in research supported by Genzyme Sanofi, Amicus, AskBio, Valerion, Biomarin, and by Roivant Sciences; and is a member of the Pompe Registry North American Board of Advisors Genzyme Sanofi. Dr. Deeksha Bali has received research grant support and travel funds from Genzyme Sanofi, Baebies Inc., Biomarin, Alexion Inc., SOBI biopharma, and JCR biopharma. Dr. Priya S. Kishnani has received research/grant support from Sanofi Genzyme and Amicus Therapeutics. She received consulting fees and honoraria from Sanofi Genzyme, Amicus Therapeutics, Maze Therapeutics, JCR Pharmaceutical, and Asklepios Biopharmaceutical, Inc. (AskBio). She is a member of the Pompe and Gaucher Disease Registry Advisory Board for Sanofi Gezyme, Amicus Therapeutics, and Baebies. Dr. Priya S. Kishnani has equity in Asklepios Biopharmaceutical, Inc. (AskBio) which is developing gene therapy for Pompe disease and has equity in Maze Therapeutics which is developing a small molecule therapy for Pompe disease., (© 2023 The Authors. JIMD Reports published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2023

4. Clinical insights from Wolman disease: Evaluating infantile hepatosplenomegaly.

Author

Hannah WB, Ryan K, Pendyal S, Burrow TA, Harley SE, Cordell M, McCall CM, Mavis AM, Tan QK, and Kishnani PS

Subjects

Child, Cholesterol, Hepatomegaly diagnosis, Humans, Infant, Lipids, Splenomegaly complications, Splenomegaly diagnosis, Lymphohistiocytosis, Hemophagocytic diagnosis, Wolman Disease diagnosis, Wolman Disease drug therapy, Wolman Disease genetics

Abstract

There is a broad differential diagnosis of infantile hepatosplenomegaly, with some etiologies being debilitating and treatable. A structured approach to history, examination, and laboratory and radiographic findings is important in diagnosis. Herein, we present a case of Wolman disease presenting as hepatosplenomegaly in an infant. This case details important learning points to help distinguish the diagnosis of Wolman disease from other conditions with overlapping clinical features, such as hemophagocytic lymphohistiocytosis (HLH). The advent of enzyme replacement therapy has dramatically changed the natural history of Wolman disease, and this child showed remarkable improvement with treatment. This child was later found to have extensive adenopathy with retroperitoneal lymph node biopsy demonstrating diffuse infiltration by lipid-laden macrophages, fatty deposits, cholesterol crystals, and calcifications. Similar to the collection of characteristic cells in other lysosomal storage disorders, we postulate that this is characteristic of underlying Wolman disease. We conclude with a summary of learning points from this presentation on infantile hepatosplenomegaly, pertinent to the geneticist, pediatrician, and pediatric subspecialists., (© 2022 Wiley Periodicals LLC.)

Published

2022

5. The global prevalence and ethnic heterogeneity of primary ciliary dyskinesia gene variants: a genetic database analysis.

Author

Hannah WB, Seifert BA, Truty R, Zariwala MA, Ameel K, Zhao Y, Nykamp K, and Gaston B

Subjects

Databases, Genetic, Gene Frequency, Humans, Prevalence, Ciliary Motility Disorders, Ethnicity genetics

Abstract

Background: Primary ciliary dyskinesia (PCD) is a motile ciliopathy characterised by otosinopulmonary infections. Inheritance is commonly autosomal recessive, with extensive locus and allelic heterogeneity. The prevalence is uncertain. Most genetic studies have been done in North America or Europe. The aim of the study was to estimate the worldwide prevalence and ethnic heterogeneity of PCD., Methods: We calculated the allele frequency of disease-causing variants in 29 PCD genes associated with autosomal recessive inheritance in 182 681 unique individuals to estimate the global prevalence of PCD in seven ethnicities (African or African American, Latino, Ashkenazi Jewish, Finnish, non-Finnish European, east Asian, and south Asian). We began by aggregating variants that had been interpreted by Invitae, San Francisco, CA, USA, a genetics laboratory with PCD expertise. We then determined the allele frequency of each variant (pathogenic, likely pathogenic, or variant of uncertain significance [VUS]) in the Genome Aggregation Database (gnomAD), a publicly available next-generation sequencing database that aggregates exome and genome sequencing information from a wide variety of large-scale projects and stratifies allele counts by ethnicity. Using the Hardy-Weinberg equilibrium equation, we were able to calculate a lower-end prevalence of PCD for each ethnicity by including only pathogenic and likely pathogenic variants; and upper-end prevalence by also including VUS. This approach was similar to previous work on Li-Fraumeni (TP53 variants) prevalence. We were not diagnosing PCD, but rather estimating prevalence based on known variants., Findings: The overall minimum global prevalence of PCD is calculated to be at least one in 7554 individuals, although this is likely to be an underestimate because some variants currently classified as VUS might be disease-causing and some pathogenic variants might not be detected by our methods. In the overall cohort, Invitae data could be included for variants without gnomAD data for a primary ethnicity. When using only gnomAD allele frequencies to calculate prevalence in individual ethnicities, the estimated prevalence of PCD was lower in each ethnicity compared with the overall cohort. This is because the overall cohort includes additional data from the Invitae database such as copy number variants and other variants not present in gnomAD. With gnomAD we found the expected PCD frequency to be higher in individuals of African ancestry than in most other populations (excluding VUS: 1 in 9906 in African or African American vs 1 in 10 388 in non-Finnish European vs 1 in 14 606 in east Asian vs 1 in 16 309 in Latino; including VUS: 1 in 106 in African or African American vs 1 in 178 in non-Finnish European vs 1 in 196 in Latino vs 1 in 188 in east Asian). In addition, we found that the top 5 genes most commonly implicated in PCD differed across ethnic ancestries and contrasted commonly published findings., Interpretation: PCD appears to be more common than has been recognised, particularly in individuals of African ancestry. We identified gene distributions that differ from those in previous European and North American studies. These results could have an international impact on case identification. Our analytic approach can be expanded as more PCD loci are identified, and could be adapted to study the prevalence of other inherited diseases., Funding: None., Competing Interests: Declaration of interests WBH receives support from the National Institutes of Health (NIH) Loan Repayment Program, outside of the submitted work. BAS reports other from Duke University School of Medicine (salary from ABMGG Laboratory Genetics and Genomics Fellowship), other from Medical Science and Computing (salary as Clinical Molecular Geneticist contractor at the National Institute of Allergy and Infectious Diseases [NIAID] and NIH), and other from American College of Medical Genetics and Genomics (ACMG; US$100 000, registration, travel, and transportation fees to attend ACMG Annual Meeting as the 2019 Richard King Trainee Awardee), outside of the submitted work. RT and KN are employees and stockholders at Invitae—a genetic testing provider offering testing for Primary Ciliary Dyskinesia. MAZ has salary support from research grants from NIH, outside of the submitted work. BG received salary support from research grants from NIH, outside of the submitted work. KA and YZ declare no competing interests., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

6. Very early-onset inflammatory bowel disease: Novel description in glycogen storage disease type Ia.

Author

Hannah WB, Ong RC, Moreno MN, Pendyal S, Abdelmalak M, Kelsen J, McGreal NM, and Kishnani PS

Abstract

Although inflammatory bowel disease is a well-described feature of glycogen storage disease type Ib, it has been reported in only a small number of individuals with glycogen storage disease type Ia (GSDIa). We describe, to our knowledge, the first patient with GSDIa and very early-onset inflammatory bowel disease (VEO-IBD). Larger studies are needed to better understand this possible association, elucidate the mechanism of VEO-IBD in GSDIa, and inform management., Competing Interests: None., (© 2022 The Authors.)

Published

2022