Your search keyword '"Anne Swenerton"' showing total 3 results

1. Comprehensive human amniotic fluid metagenomics supports the sterile womb hypothesis

Author

HanChen Wang, Gui Xiang Yang, Yuxiang Hu, Patricia Lam, Karan Sangha, Dawn Siciliano, Anne Swenerton, Ruth Miller, Peter Tilley, Peter Von Dadelszen, Shirin Kalyan, Patrick Tang, and Millan S. Patel

Subjects

Medicine, Science

Abstract

Abstract As metagenomic approaches for detecting infectious agents have improved, each tissue that was once thought to be sterile has been found to harbor a variety of microorganisms. Controversy still exists over the status of amniotic fluid, which is part of an immunologically privileged zone that is required to prevent maternal immune system rejection of the fetus. Due to this privilege, the exclusion of microbes has been proposed to be mandatory, leading to the sterile womb hypothesis. Since nucleic acid yields from amniotic fluid are very low, contaminating nucleic acid found in water, reagents and the laboratory environment frequently confound attempts to address this hypothesis. Here we present metagenomic criteria for microorganism detection and a metagenomic method able to be performed with small volumes of starting material, while controlling for exogenous contamination, to circumvent these and other pitfalls. We use this method to show that human mid-gestational amniotic fluid has no detectable virome or microbiome, supporting the sterile womb hypothesis.

Published

2022

2. 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

3. De novo dominant variants affecting the motor domain of KIF1A are a cause of PEHO syndrome

Author

Britt I. Drögemöller, Maja Tarailo-Graovac, Wyeth W. Wasserman, Bryan Sayson, Sylvie Langlois, Colin J. D. Ross, Clara D.M. van Karnebeek, Anne Swenerton, and Other departments

Subjects

Male, 0301 basic medicine, Candidate gene, medicine.medical_specialty, Adolescent, Mutation, Missense, Short Report, Kinesins, Brain Edema, Biology, Bioinformatics, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Protein Domains, Intellectual disability, Genetics, medicine, Humans, Missense mutation, PEHO syndrome, Child, Genetics (clinical), Exome sequencing, Genes, Dominant, KIF1A, Infant, Neurodegenerative Diseases, medicine.disease, Pedigree, Optic Atrophy, Phenotype, 030104 developmental biology, Child, Preschool, Medical genetics, Female, Spasms, Infantile, 030217 neurology & neurosurgery

Abstract

PEHO syndrome (OMIM no. 260565) is characterized by myoclonic jerking and infantile spasms, profound psychomotor retardation with the absence of motor milestones and speech, absence or early loss of visual fixation with atrophy of optic discs by 2 years of age and progressive brain atrophy on neuroimaging. We describe the results of a genomic study of a girl with PEHO syndrome and review the literature on cases with a disease-causing variant in the same gene. Exome sequencing of the index and unaffected parents followed by Sanger confirmation identified nine candidate genes harboring nonsynonymous rare variants identified by trio whole-exome sequencing. The de novo variant, a missense variant (c.296C>T, p.(T99M)), affecting the motor domain of KIF1A was considered the pathogenic mutation. The literature review revealed 24 cases with disease-causing variants in the motor domain of KIF1A, of which three met all the criteria for PEHO syndrome and an additional patient with incomplete clinical data met four of the five criteria. If the criteria were modified to include cases with any convulsive disorder and less profound intellectual disability, a total of six patients met all five of the criteria, three patients met four of the criteria and six met three of the criteria. Our results indicate that the molecular basis for PEHO syndrome, in at least a subset of patients, is a dominant KIF1A variant affecting the motor domain of the protein. Variable expressivity is seen with recurrent variants causing the full phenotype of PEHO syndrome in some patients and in other patients, a partial or milder PEHO phenotype.

Published

2016