Your search keyword '"Ruthann B. Pfau"' showing total 11 results

1. Novel truncating variant in KMT2E associated with cerebellar hypoplasia and velopharyngeal dysfunction

Author

Nicolas J. Abreu, Amy E. Siemon, Adriane L. Baylis, Richard E. Kirschner, Ruthann B. Pfau, Mai‐Lan Ho, Scott E. Hickey, and Kristen V. Truxal

Subjects

cerebellar hypoplasia, KMT2E, neurodevelopmental disorder, velopharyngeal dysfunction, Medicine, Medicine (General), R5-920

Abstract

Abstract KMT2E‐related neurodevelopmental disorder is a recently described intellectual disability syndrome often with speech difficulties. Here, we describe an individual with a heterozygous frameshift variant in KMT2E (NM_182931.2:c.2334_2337delTTAC, p.[Tyr779AlafsTer41]), intellectual disability, cerebellar hypoplasia, and velopharyngeal dysfunction. This case suggests potential mechanisms of speech disturbance in the disorder, requiring further investigation.

Published

2022

2. <scp> EGFR </scp> internal tandem duplications in fusion‐negative congenital and neonatal spindle cell tumors

Author

Selene C. Koo, Kathleen M. Schieffer, Kristy Lee, Ajay Gupta, Ruthann B. Pfau, Matthew R. Avenarius, Eileen Stonerock, Stephanie LaHaye, James Fitch, Bhuvana A. Setty, Ryan Roberts, Mark Ranalli, Miriam R. Conces, Fang Bu, Elaine R. Mardis, and Catherine E. Cottrell

Subjects

ErbB Receptors, Cancer Research, Infant, Newborn, Genetics, Humans, Soft Tissue Neoplasms, Sarcoma, Nephroma, Mesoblastic, Child, Kidney Neoplasms, Retrospective Studies

Abstract

Next-generation sequencing (NGS) assays can sensitively detect somatic variation, and increasingly can enable the identification of complex structural rearrangements. A subset of infantile spindle cell sarcomas, particularly congenital mesoblastic nephromas with classic or mixed histology, have structural rearrangement in the form of internal tandem duplications (ITD) involving EGFR. We performed prospective analysis to identify EGFR ITD through clinical or research studies, as well as retrospective analysis to quantify the frequency of EGFR ITD in pediatric sarcomas. Within our institution, three tumors with EGFR ITD were prospectively identified, all occurring in patients less than 1 year of age at diagnosis, including two renal tumors and one mediastinal soft tissue tumor. These three cases exhibited both cellular and mixed cellular and classic histology. All patients had no evidence of disease progression off therapy, despite incomplete resection. To extend our analysis and quantify the frequency of EGFR ITD in pediatric sarcomas, we retrospectively analyzed a cohort of tumors (n = 90) that were previously negative for clinical RT-PCR-based fusion testing. We identified EGFR ITD in three analyzed cases, all in patients less than 1 year of age (n = 18; 3/18, 17%). Here we expand the spectrum of tumors with EGFR ITD to congenital soft tissue tumors and report an unusual example of an EGFR ITD in a tumor with cellular congenital mesoblastic nephroma histology. We also highlight the importance of appropriate test selection and bioinformatic analysis for identification of this genomic alteration that is unexpectedly common in congenital and infantile spindle cell tumors.

Published

2022

3. Long-read whole genome sequencing reveals HOXD13 alterations in synpolydactyly

Author

Daniel C. Koboldt, Maria Elena Hernandez-Gonzalez, Vincent Magrini, Peter White, Julie Balch Samora, Theresa Mihalic Mosher, Samuel J Franklin, Sean McGrath, Kim L. McBride, Marilena Melas, Ruthann B. Pfau, Richard K. Wilson, Esko A. Kautto, and Mari Mori

Subjects

Whole genome sequencing, Sanger sequencing, Genetics, Homeodomain Proteins, Whole Genome Sequencing, Genomics, Biology, medicine.disease, Penetrance, Synpolydactyly, Pedigree, symbols.namesake, HOXD13, Polysyndactyly, symbols, medicine, Synpolydactyly-1, Humans, Syndactyly, Genetics (clinical), Retrospective Studies, Transcription Factors

Abstract

Synpolydactyly 1 (SPD; MIM# 186000), also called syndactyly type II (SDTY2), is a genetic limb malformation characterized by polydactyly with syndactyly involving the webbing of the third and fourth fingers, and the fourth and fifth toes. It is caused by heterozygous alterations in HOXD13 with incomplete penetrance and phenotypic variability. In our study, a five-generation family with an SPD phenotype was enrolled in our Rare Disease Genomics Protocol. A comprehensive examination of three generations using Illumina short-read whole-genome sequencing (WGS) did not identify any causative variants. Subsequent WGS using Pacific Biosciences (PacBio) long-read HiFi Circular Consensus Sequencing (CCS) revealed a heterozygous 27-bp duplication in the polyalanine tract of HOXD13. Sanger sequencing of all available family members confirmed that the variant segregates with affected individuals. Re-analysis of an unrelated family with a similar SPD phenotype uncovered a 21-bp (7-alanine) duplication in the same region of HOXD13. Although ExpansionHunter identified these events in most individuals in a retrospective analysis, low sequence coverage due to high GC content in the HOXD13 polyalanine tract makes detection of these events challenging. Our findings highlight the value of long-read WGS in elucidating the molecular etiology of congenital limb malformation disorders. This article is protected by copyright. All rights reserved.

Published

2021

4. Author response for 'Hypomorphic alleles pose challenges in rare disease genomic variant interpretation'

Author

Bimal Chaudhari, Kim L. McBride, Peter White, Theresa Mihalic Mosher, Rick K. Wilson, Saranga Wijeratne, Samuel J Franklin, Daniel K. Nolan, Daniel C. Koboldt, Scott E. Hickey, Erin Crist, and Ruthann B. Pfau

Subjects

Genetics, Interpretation (philosophy), Biology, Allele, Rare disease

Published

2021

5. De novo loss-of-function variants in

Author

Elizabeth S, Barrie, Maria P, Alfaro, Ruthann B, Pfau, Melanie J, Goff, Kim L, McBride, Kandamurugu, Manickam, and Erik J, Zmuda

Subjects

Male, moderate intrauterine growth retardation, Wolf-Hirschhorn Syndrome, Developmental Disabilities, Infant, Histone-Lysine N-Methyltransferase, generalized neonatal hypotonia, failure to thrive in infancy, Repressor Proteins, short stature, Phenotype, Loss of Function Mutation, Child, Preschool, Intellectual Disability, Humans, Female, microcephaly, Chromosome Deletion, Rapid Communication

Abstract

Wolf–Hirschhorn syndrome (WHS) is a rare but recurrent microdeletion syndrome associated with hemizygosity of an interstitial segment of Chromosome 4 (4p16.3). Consistent with historical reports in which overlapping deletions defined a minimal critical region in WHS patients, recent reports from exome sequence analysis have provided further evidence that haploinsufficiency of a specific gene within this critical region, NSD2 (WHSC1), is causal for many features of the syndrome. In this report, we describe three unrelated patients with loss-of-function alterations in NSD2 who presented clinically with WHS features including intrauterine growth retardation and global developmental delay. Two of the three patients also had overlapping features of failure to thrive, short stature, constipation, and hypotonia. This series adds additional cases to expand the phenotypic spectrum of WHS and reports novel NSD2 variants.

Published

2019

6. 37. Prenatal diagnosis of an unusual mosaic homozygous t(2;3) balanced translocation

Author

Donald Roman, Jeffrey Wobser, Hannah Kennedy, Michael Smith, Marilena Melas, Danielle Mouhlas, Mollie Haughn, Elizabeth Hamelberg, Shalini C. Reshmi, Adam Witkoff, Matthew Meleski, Sayaka Hashimoto, Theodora Jacobson, Carol Deeg, Ruthann B. Pfau, and Matthew J. Schultz

Subjects

Genetics, Cancer Research, Chromosomal translocation, Mosaic (geodemography), Prenatal diagnosis, Biology, Molecular Biology

Published

2021

7. The diagnostic challenges and clinical course of a myeloid/lymphoid neoplasm with eosinophilia and ZBTB20-JAK2 gene fusion presenting as B-lymphoblastic leukemia

Author

Ruthann B. Pfau, Eileen M. Putnam, Hong Xiao, Lina Shao, Winston Y Lee, Dale L. Bixby, Jiong Yang, Russell Jh. Ryan, and Sarah M. Choi

Subjects

Research Report, Adult, Myeloid, Oncogene Proteins, Fusion, Biopsy, Nerve Tissue Proteins, pre-B-cell acute lymphoblastic leukemia, Therapeutics, Biology, Myeloid Neoplasm, Fusion gene, Bone Marrow, Chimeric RNA, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, hemic and lymphatic diseases, Hypereosinophilic Syndrome, medicine, Humans, Eosinophilia, Genetic Predisposition to Disease, Genetic Association Studies, In Situ Hybridization, Fluorescence, Leukemia, Leukemia, Myelomonocytic, Chronic, General Medicine, Janus Kinase 2, medicine.disease, Combined Modality Therapy, Immunohistochemistry, Fusion protein, chronic myelogenous leukemia, Phenotype, medicine.anatomical_structure, Karyotyping, Cancer research, Female, medicine.symptom, eosinophilia, Ph-positive acute lymphoblastic leukemia, Transcription Factors, Chronic myelogenous leukemia

Abstract

We report the diagnostic challenges and the clinical course of a patient with an extraordinary presentation of B-lymphoblastic leukemia (B-ALL) with eosinophilia. We identified a novel ZBTB20-JAK2 gene fusion as a chimeric RNA transcript using the Archer platform. This gene fusion from the same patient was recently identified by Peterson et al. (2019) at the genomic level using a different sequencing technology platform. The configuration of this gene fusion predicts the production of a kinase-activating JAK2 fusion protein, which would normally lead to a diagnosis of Philadelphia chromosome–like B-ALL (Ph-like B-ALL). However, the unusual presentation of eosinophilia led us to demonstrate the presence of this gene fusion in nonlymphoid hematopoietic cells by fluorescence in situ hybridization (FISH) studies with morphologic correlation. Therefore, we believe this disease, in fact, represents blast crisis arising from an underlying myeloid neoplasm with JAK2 rearrangements. This case illustrates the difficulty in differentiating Ph-like B-ALL and myeloid/lymphoid neoplasm with eosinophilia and gene rearrangements (MLN-EGR) in blast crisis. As currently defined, the diagnosis of MLN-EGR relies on the hematologic presentations and the identification of marker gene fusions (including PCM1-JAK2, ETV6-JAK2, and BCR-JAK2). However, these same gene fusions, when limited to B-lymphoblasts, also define Ph-like B-ALL. Yet, our case does not conform to either condition. Therefore, the assessment for lineage restriction of gene rearrangements to reflect the pathophysiologic difference between B-ALL and MLN-EGR in blast crisis is likely a more robust diagnostic approach and allows the inclusion of MLN-EGR with novel gene fusions.

Published

2020

8. 30. Detection of gene fusions in sarcomas is improved by targeted anchored multiplex PCR based next generation sequencing

Author

Matthew R. Avenarius and Ruthann B. Pfau

Subjects

Cancer Research, Multiplex polymerase chain reaction, Genetics, Computational biology, Biology, Molecular Biology, Gene, DNA sequencing

Published

2019

9. MCPH1 deletion in a newborn with severe microcephaly and premature chromosome condensation

Author

Daniela del Gaudio, Christopher A. Tan, Caroline Astbury, Ruthann B. Pfau, Matthew Pastore, Dennis Bartholomew, Julie M. Gastier-Foster, Devon Lamb Thrush, Elizabeth Hamelberg, and Shaun Botes

Subjects

Male, Microcephaly, Karyotype, Cell Cycle Proteins, Nerve Tissue Proteins, Consanguinity, Biology, Exon, Gene duplication, Genetics, medicine, MCPH1 Gene, Chromosomes, Human, Humans, Gene, Genetics (clinical), Genetic testing, medicine.diagnostic_test, Homozygote, Infant, Newborn, General Medicine, Exons, Syndrome, medicine.disease, Maxillofacial Abnormalities, Cytoskeletal Proteins, Premature chromosome condensation, Gene Deletion

Abstract

A newborn with severe microcephaly and a history of parental consanguinity was referred for cytogenetic analysis and subsequently for genetic evaluation. While a 46,XY karyotype was eventually obtained, premature chromosome condensation was observed. A head MRI confirmed primary microcephaly. This combination of features focused clinical interest on the MCPH1 gene and directed genetic testing by sequence analysis and duplication/deletion studies disclosed a homozygous deletion of exons 1-11 of the MCPH1 gene. This case illustrates a strength of standard cytogenetic evaluation in directing molecular testing to a single target gene in this disorder, allowing much more rapid diagnosis at a substantial cost savings for this family.

Published

2013

10. Duplication of the Xq27.3-q28 region, including the FMR1 gene, in an X-linked hypogonadism, gynecomastia, intellectual disability, short stature, and obesity syndrome

Author

Robert E. Pyatt, Juan F. Sotos, Thomas W. Prior, Theresa Mihalic Mosher, Lauren C. Walters-Sen, Ruthann B. Pfau, Scott E. Hickey, and Pamela J. Snyder

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, Fragile x, Pediatrics, medicine.medical_specialty, Dwarfism, Short stature, Fragile X Mental Retardation Protein, Intellectual Disability, Gene duplication, Intellectual disability, Chromosome Duplication, Genetics, medicine, Humans, Obesity, Genetics (clinical), Chromosomes, Human, X, Comparative Genomic Hybridization, business.industry, Hypogonadism, Chromosome Mapping, Syndrome, medicine.disease, FMR1, Pedigree, Fmr1 gene, Gynecomastia, medicine.symptom, business

Abstract

In 1979 a "new" syndrome characterized by X-linked inheritance, hypogonadism, gynecomastia, intellectual disability, obesity, and short stature was described. The now-36-year-old propositus was recently referred to the genetics clinic for profound intellectual disability. Fragile X testing initially demonstrated a duplication of the FMR1 region, and upon further testing we identified an Xq27.3-q28 8.05 Mb-long duplication responsible for a syndrome. Our report describes the molecular and clinical aspects of the X-linked syndrome. Our results suggest that male patients with intellectual disability, hypogonadism, short stature, and gynecomastia should be further investigated for rearrangements in the Xq27.3-q28 region. In the future, when more cases of the duplication are identified, it may become possible to more accurately determine the specific genes affected by overexpression and responsible for the phenotype.

Published

2013

11. Billing for medical genetics and genetic counseling services: a national survey

Author

Caroline McGowan, Elizabeth Repass, Leslie Cohen, Ruthann B. Pfau, Tabitha A. Harrison, Trish Brown, and Debra Lochner Doyle

Subjects

Adult, Male, medicine.medical_specialty, business.industry, Genetic counseling, Public health, MEDLINE, Survey tool, Genetic Counseling, Middle Aged, Human genetics, United States, Young Adult, Family medicine, Surveys and Questionnaires, Insurance, Health, Reimbursement, medicine, Genetics, Medical genetics, Humans, The Internet, Female, business, Genetics (clinical), Reimbursement

Abstract

In January 2007 the American Medical Association added a new Current Procedural Terminology(R) (CPT) code, 96040, for "Medical Genetics and Genetic Counseling Services." In order to identify the impact of having this new code and to identify issues with implementation of the code, the National Society of Genetic Counselors (NSGC) CPT(R) Working Group surveyed NSGC members using an internet-based survey tool. The majority of respondents (94%) reported being aware of the new code and over half of the respondents (69%) said they were billing for genetic counseling. Approximately 24% of those billing reported using 96040. Many facilities are not using this code and the reported success of billing using 96040 is highly varied. Continued education may be beneficial to encourage reimbursement for 96040 and follow up is needed to assess the ongoing implementation and impact of the new CPT(R) code.

Published

2009