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4. The practice of genomic medicine: A delineation of the process and its governing principles

Author

Julia Handra, Adrienne Elbert, Nour Gazzaz, Ashley Moller-Hansen, Stephanie Hyunh, Hyun Kyung Lee, Pierre Boerkoel, Emily Alderman, Erin Anderson, Lorne Clarke, Sara Hamilton, Ronnalea Hamman, Shevaun Hughes, Simon Ip, Sylvie Langlois, Mary Lee, Laura Li, Frannie Mackenzie, Millan S. Patel, Leah M. Prentice, Karan Sangha, Laura Sato, Kimberly Seath, Margaret Seppelt, Anne Swenerton, Lynn Warnock, Jessica L. Zambonin, Cornelius F. Boerkoel, Hui-Lin Chin, and Linlea Armstrong

Subjects
genomic medicine, precision medicine, distributed cognition, workflow optimization, integrated care, Medicine (General), R5-920
Abstract

Genomic medicine, an emerging medical discipline, applies the principles of evolution, developmental biology, functional genomics, and structural genomics within clinical care. Enabling widespread adoption and integration of genomic medicine into clinical practice is key to achieving precision medicine. We delineate a biological framework defining diagnostic utility of genomic testing and map the process of genomic medicine to inform integration into clinical practice. This process leverages collaboration and collective cognition of patients, principal care providers, clinical genomic specialists, laboratory geneticists, and payers. We detail considerations for referral, triage, patient intake, phenotyping, testing eligibility, variant analysis and interpretation, counseling, and management within the utilitarian limitations of health care systems. To reduce barriers for clinician engagement in genomic medicine, we provide several decision-making frameworks and tools and describe the implementation of the proposed workflow in a prototyped electronic platform that facilitates genomic care. Finally, we discuss a vision for the future of genomic medicine and comment on areas for continued efforts.

Published
2023
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5. Genome-wide sequencing and the clinical diagnosis of genetic disease: The CAUSES study

Author

Alison M. Elliott, Shelin Adam, Christèle du Souich, Anna Lehman, Tanya N. Nelson, Clara van Karnebeek, Emily Alderman, Linlea Armstrong, Gudrun Aubertin, Katherine Blood, Cyrus Boelman, Cornelius Boerkoel, Karla Bretherick, Lindsay Brown, Chieko Chijiwa, Lorne Clarke, Madeline Couse, Susan Creighton, Abby Watts-Dickens, William T. Gibson, Harinder Gill, Maja Tarailo-Graovac, Sara Hamilton, Harindar Heran, Gabriella Horvath, Lijia Huang, Gurdip K. Hulait, David Koehn, Hyun Kyung Lee, Suzanne Lewis, Elena Lopez, Kristal Louie, Karen Niederhoffer, Allison Matthews, Kirsten Meagher, Junran J. Peng, Millan S. Patel, Simone Race, Phillip Richmond, Rosemarie Rupps, Ramona Salvarinova, Kimberly Seath, Kathryn Selby, Michelle Steinraths, Sylvia Stockler, Kaoru Tang, Christine Tyson, Margot van Allen, Wyeth Wasserman, Jill Mwenifumbo, and Jan M. Friedman

Subjects
genome sequencing, exome sequencing, genetic counseling, multidisciplinary approach, diagnostic rate, reanalysis, Genetics, QH426-470
Abstract

Summary: Genome-wide sequencing (GWS) is a standard of care for diagnosis of suspected genetic disorders, but the proportion of patients found to have pathogenic or likely pathogenic variants ranges from less than 30% to more than 60% in reported studies. It has been suggested that the diagnostic rate can be improved by interpreting genomic variants in the context of each affected individual’s full clinical picture and by regular follow-up and reinterpretation of GWS laboratory results.Trio exome sequencing was performed in 415 families and trio genome sequencing in 85 families in the CAUSES study. The variants observed were interpreted by a multidisciplinary team including laboratory geneticists, bioinformaticians, clinical geneticists, genetic counselors, pediatric subspecialists, and the referring physician, and independently by a clinical laboratory using standard American College of Medical Genetics and Genomics (ACMG) criteria. Individuals were followed for an average of 5.1 years after testing, with clinical reassessment and reinterpretation of the GWS results as necessary. The multidisciplinary team established a diagnosis of genetic disease in 43.0% of the families at the time of initial GWS interpretation, and longitudinal follow-up and reinterpretation of GWS results produced new diagnoses in 17.2% of families whose initial GWS interpretation was uninformative or uncertain. Reinterpretation also resulted in rescinding a diagnosis in four families (1.9%). Of the families studied, 33.6% had ACMG pathogenic or likely pathogenic variants related to the clinical indication. Close collaboration among clinical geneticists, genetic counselors, laboratory geneticists, bioinformaticians, and individuals’ primary physicians, with ongoing follow-up, reanalysis, and reinterpretation over time, can improve the clinical value of GWS.

Published
2022
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6. Understanding the Early Presentation of Mucopolysaccharidoses Disorders

Author

Lorne Clarke MD, Carolyn Ellaway MBBS, PhD, Helen E. Foster MD, MBBS, Roberto Giugliani MD, PhD, Cyril Goizet MD, PhD, Sarah Goring MSc, Sara Hawley MSc, Elaina Jurecki MS, RD, Zaeem Khan MPH, BSc, Christina Lampe MD, Ken Martin MD, Suzanne McMullen MHA, BSc, John J. Mitchell MD, Fathima Mubarack MSc, MHA, H. Serap Sivri MD, Martha Solano Villarreal MD, PhD, Fiona J. Stewart MB, BS, Anna Tylki-Szymanska MD, PhD, Klane White MD, MSc, and Frits Wijburg MD, PhD

Subjects
Medicine (General), R5-920
Abstract

As therapies are developed for rare disorders, challenges of early diagnosis become particularly relevant. This article focuses on clinical recognition of mucopolysaccharidoses (MPS), a group of rare genetic diseases related to abnormalities in lysosomal function. As quality of outcomes with current therapies is impacted by timing of intervention, minimizing time to diagnosis is critical. The objective of this study was to characterize how, when, and to whom patients with MPS first present and develop tools to stimulate earlier recognition of MPS. A tripartite approach was used, including a systematic literature review yielding 194 studies, an online physician survey completed by 209 physicians who described 859 MPS cases, and a global panel of MPS experts who distilled the findings. Red flag signs/symptoms were identified for cardiology, pediatric neurology, otorhinolaryngology, rheumatology, orthopedics, pediatrics, and general medicine and converted into simple, specialty-specific tools intended to facilitate early diagnosis of MPS, enabling improved patient outcomes.

Published
2018
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7. The Clinical Variant Analysis Tool: Analyzing the evidence supporting reported genomic variation in clinical practice

Author

Hui-Lin Chin, Nour Gazzaz, Stephanie Huynh, Iulia Handra, Lynn Warnock, Ashley Moller-Hansen, Pierre Boerkoel, Julius O.B. Jacobsen, Christèle du Souich, Nan Zhang, Kent Shefchek, Leah M. Prentice, Nicole Washington, Melissa Haendel, Linlea Armstrong, Lorne Clarke, Wenhui Laura Li, Damian Smedley, Peter N. Robinson, and Cornelius F. Boerkoel

Subjects
Exome Sequencing, Genetic Variation, Humans, Exome, Genetic Testing, Genomics, Article, Genetics (clinical)
Abstract

PURPOSE: Genomic test results, regardless of laboratory variant classification, require clinical practitioners to judge the applicability of a variant for medical decisions. Teaching and standardizing clinical interpretation of genomic variation calls for a methodology or tool. METHODS: To generate such a tool, we distilled the Clinical Genome Resource framework of causality and the American College of Medical Genetics/Association of Molecular Pathology and Quest Diagnostic Laboratory scoring of variant deleteriousness into the Clinical Variant Analysis Tool (CVAT). Applying this to 289 clinical exome reports, we compared the performance of junior practitioners with that of experienced medical geneticists and assessed the utility of reported variants. RESULTS: CVAT enabled performance comparable to that of experienced medical geneticists. In total, 124 of 289 (42.9%) exome reports and 146 of 382 (38.2%) reported variants supported a diagnosis. Overall, 10.5% (1 pathogenic [P] or likely pathogenic [LP] variant and 39 variants of uncertain significance [VUS]) of variants were reported in genes without established disease association; 20.2% (23 P/LP and 54 VUS) were in genes without sufficient phenotypic concordance; 7.3% (15 P/LP and 13 VUS) conflicted with the known molecular disease mechanism; and 24% (91 VUS) had insufficient evidence for deleteriousness. CONCLUSION: Implementation of CVAT standardized clinical interpretation of genomic variation and emphasized the need for collaborative and transparent reporting of genomic variation.

Published
2022

8. THE CLINGEN LYSOSOMAL DISEASES GENE CURATION EXPERT PANEL: APPLYING A STANDARDIZED CURATION FRAMEWORK TO ASSESS THE CLINICAL VALIDITY OF GENES FOR LYSOSOMAL DISEASE

Author

Rong Mao, Emily Groopman, Raquel Fernandez, Shruthi Mohan, Amber Stafford, Heather Baudet, Meredith Weaver, Lorne Clarke, Christina Hung, Deeksha Bali, Filippo Pinto e Vairo, Lemuel Racacho, Tatiana Yuzyuk, William Craigen, and Jennifer Goldstein

Subjects
Endocrinology, Endocrinology, Diabetes and Metabolism, Genetics, Molecular Biology, Biochemistry
Published
2023

10. Genome-wide sequencing and the clinical diagnosis of genetic disease: The CAUSES study

Author

Alison M. Elliott, Shelin Adam, Christèle du Souich, Anna Lehman, Tanya N. Nelson, Clara van Karnebeek, Emily Alderman, Linlea Armstrong, Gudrun Aubertin, Katherine Blood, Cyrus Boelman, Cornelius Boerkoel, Karla Bretherick, Lindsay Brown, Chieko Chijiwa, Lorne Clarke, Madeline Couse, Susan Creighton, Abby Watts-Dickens, William T. Gibson, Harinder Gill, Maja Tarailo-Graovac, Sara Hamilton, Harindar Heran, Gabriella Horvath, Lijia Huang, Gurdip K. Hulait, David Koehn, Hyun Kyung Lee, Suzanne Lewis, Elena Lopez, Kristal Louie, Karen Niederhoffer, Allison Matthews, Kirsten Meagher, Junran J. Peng, Millan S. Patel, Simone Race, Phillip Richmond, Rosemarie Rupps, Ramona Salvarinova, Kimberly Seath, Kathryn Selby, Michelle Steinraths, Sylvia Stockler, Kaoru Tang, Christine Tyson, Margot van Allen, Wyeth Wasserman, Jill Mwenifumbo, Jan M. Friedman, Paediatric Metabolic Diseases, ANS - Cellular & Molecular Mechanisms, Paediatrics, and AGEM - Amsterdam Gastroenterology Endocrinology Metabolism

Subjects
genome sequencing, genetic counseling, diagnostic rate, multidisciplinary approach, reanalysis, Molecular Medicine, exome sequencing, reinterpretation, Genetics (clinical)
Abstract

Genome-wide sequencing (GWS) is a standard of care for diagnosis of suspected genetic disorders, but the proportion of patients found to have pathogenic or likely pathogenic variants ranges from less than 30% to more than 60% in reported studies. It has been suggested that the diagnostic rate can be improved by interpreting genomic variants in the context of each affected individual's full clinical picture and by regular follow-up and reinterpretation of GWS laboratory results. Trio exome sequencing was performed in 415 families and trio genome sequencing in 85 families in the CAUSES study. The variants observed were interpreted by a multidisciplinary team including laboratory geneticists, bioinformaticians, clinical geneticists, genetic counselors, pediatric subspecialists, and the referring physician, and independently by a clinical laboratory using standard American College of Medical Genetics and Genomics (ACMG) criteria. Individuals were followed for an average of 5.1 years after testing, with clinical reassessment and reinterpretation of the GWS results as necessary. The multidisciplinary team established a diagnosis of genetic disease in 43.0% of the families at the time of initial GWS interpretation, and longitudinal follow-up and reinterpretation of GWS results produced new diagnoses in 17.2% of families whose initial GWS interpretation was uninformative or uncertain. Reinterpretation also resulted in rescinding a diagnosis in four families (1.9%). Of the families studied, 33.6% had ACMG pathogenic or likely pathogenic variants related to the clinical indication. Close collaboration among clinical geneticists, genetic counselors, laboratory geneticists, bioinformaticians, and individuals’ primary physicians, with ongoing follow-up, reanalysis, and reinterpretation over time, can improve the clinical value of GWS.

Published
2021

12. Correction: The composition and capacity of the clinical genetics workforce in high-income countries: a scoping review

Author

Nick Dragojlovic, Kennedy Borle, Nicola Kopac, Ursula Ellis, Patricia Birch, Shelin Adam, Jan M. Friedman, Amy Nisselle, Alison M. Elliott, Jehannine Austin, Bartha Knoppers, Larry D. Lynd, Alivia Dey, Nick Bansback, Lorne Clarke, Jan Friedman, Debby Lambert, Daryl Pullman, Alice Virani, Wyeth Wasserman, and Ma’n Zawati

Subjects
0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, 030105 genetics & heredity, Genetics (clinical)
Published
2020

13. Biomarkers

Author

Lorne Clarke

Published
2013

14. Pharmacokinetics of sapropterin in patients with phenylketonuria

Author

François, Feillet, Lorne, Clarke, Concetta, Meli, Mark, Lipson, Andrew A, Morris, Paul, Harmatz, Diane R, Mould, Bruce, Green, Alex, Dorenbaum, Marcello, Giovannini, Erik, Foehr, and J, Wolff

Subjects
Drug, Adult, Male, Pediatrics, medicine.medical_specialty, Adolescent, Metabolic Clearance Rate, media_common.quotation_subject, Phenylalanine, Administration, Oral, Biological Availability, Pharmacology, Blood phenylalanine, Models, Biological, Young Adult, Pharmacotherapy, Pharmacokinetics, Phenylketonurias, medicine, Humans, Pharmacology (medical), In patient, Child, media_common, Dose-Response Relationship, Drug, business.industry, Extension study, Body Weight, Biopterin, United States, Clinical trial, Europe, Creatinine, Female, business, Follow-Up Studies, Half-Life
Abstract

Untreated phenylketonuria is characterized by neurocognitive and neuromotor impairment, which result from elevated blood phenylalanine concentrations. To date, the recommended management of phenylketonuria has been the use of a protein-restricted diet and the inclusion of phenylalanine-free protein supplements; however, this approach is often associated with poor compliance and a suboptimal clinical outcome. Sapropterin dihydrochloride, herein referred to as sapropterin, a synthetic formulation of 6R-tetrahydrobiopterin (6R-BH4), has been shown to be effective in reducing blood phenylalanine concentrations in patients with phenylketonuria. The objective of the current study was to characterize the pharmacokinetics and pharmacokinetic variability of sapropterin and to identify the characteristics that influence this variability.This was a 12-week, fixed-dose phase of an open-label extension study. The study was conducted at 26 centres in North America and Europe.Patients with phenylketonuria were eligible to participate if they wereor =8 years of age and had receivedor =80% of the scheduled doses in a previous 6-week, randomized, placebo-controlled study or had been withdrawn from that study after exceeding a plasma phenylalanine concentration ofor =1500 micromol/L toor =1800 micromol/L, depending on the subject's age and baseline plasma phenylalanine concentration. A total of 78 patients participated. Patients received oral once-daily doses of sapropterin (Kuvan) 5, 10 or 20 mg/kg/day. Blood samples for the pharmacokinetic analysis were obtained during weeks 6, 10 and 12. A D-optimal sparse sampling strategy was used, and data were analysed by population-based, nonlinear, mixed-effects modelling methods.In a prospectively planned analysis, the apparent clearance, apparent volume of distribution, absorption rate constant and associated interindividual variabilities of each parameter were estimated by modelling observed BH4 plasma concentration-time data.The best structural model to describe the pharmacokinetics of sapropterin was a two-compartment model with first-order input, first-order elimination and a baseline endogenous BH4 concentration term. Total bodyweight was the only significant covariate identified, the inclusion of which on both the apparent clearance (mean = 2100 L/h/70 kg) and central volume of distribution (mean = 8350 L/70 kg) substantially improved the model's ability to describe the data. The mean (SD) terminal half-life of sapropterin was 6.69 (2.29) hours and there was little evidence of accumulation, even at the highest dose.These findings, taken together with the observed therapeutic effect, support bodyweight-based, once-daily dosing of sapropterin 5-20 mg/kg/day.

Published
2008

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