TY - JOUR
T1 - Neurodevelopmental copy-number variants
T2 - A roadmap to improving outcomes by uniting patient advocates, researchers, and clinicians for collective impact
AU - Commission on Novel Technologies for Neurodevelopmental Copy Number Variants
AU - Buttermore, Elizabeth
AU - Chamberlain, Stormy
AU - Cody, Jannine
AU - Costain, Gregory
AU - Dang, Louis
AU - DeWoody, Andrew
AU - DeWoody, Yssa
AU - Dies, Kira
AU - Eichler, Evan
AU - Girirajan, Santhosh
AU - Gramm, Marie
AU - Halladay, Alycia
AU - Lal, Dennis
AU - Lalli, Matthew
AU - Levy, Tess
AU - Logsdon, Glennis
AU - Lowenstein, Daniel
AU - Mefford, Heather
AU - Mulle, Jennifer
AU - Muotri, Alysson
AU - Murphy, Melissa
AU - Perez Palma, Eduardo
AU - Pinter, Stefan
AU - Pollak, Rebecca
AU - Purcell, Ryan
AU - Samaco, Rodney
AU - Shah, Bina
AU - Singh, Karun
AU - So, Joyce
AU - Sundberg, Maria
AU - Veeraragavan, Surabi
AU - Vogel-Farley, Vanessa
AU - Wynshaw-Boris, Anthony
N1 - Publisher Copyright:
© 2022 American Society of Human Genetics
PY - 2022/8/4
Y1 - 2022/8/4
N2 - Copy-number variants and structural variants (CNVs/SVs) drive many neurodevelopmental-related disorders. While many neurodevelopmental-related CNVs/SVs give rise to complex phenotypes, the overlap in phenotypic presentation between independent CNVs can be extensive and provides a motivation for shared approaches. This confluence at the level of clinical phenotype implies convergence in at least some aspects of the underlying genomic mechanisms. With this perspective, our Commission on Novel Technologies for Neurodevelopmental CNVs asserts that the time has arrived to approach neurodevelopmental-related CNVs/SVs as a class of disorders that can be identified, investigated, and treated on the basis of shared mechanisms and/or pathways (e.g., molecular, neurological, or developmental). To identify common etiologic mechanisms among uncommon neurodevelopmental-related disorders and to potentially identify common therapies, it is paramount for teams of scientists, clinicians, and patients to unite their efforts. We bring forward novel, collaborative, and integrative strategies to translational CNV/SV research that engages diverse stakeholders to help expedite therapeutic outcomes. We articulate a clear vision for piloted roadmap strategies to reduce patient/caregiver burden and redundancies, increase efficiency, avoid siloed data, and accelerate translational discovery across CNV/SV-based syndromes.
AB - Copy-number variants and structural variants (CNVs/SVs) drive many neurodevelopmental-related disorders. While many neurodevelopmental-related CNVs/SVs give rise to complex phenotypes, the overlap in phenotypic presentation between independent CNVs can be extensive and provides a motivation for shared approaches. This confluence at the level of clinical phenotype implies convergence in at least some aspects of the underlying genomic mechanisms. With this perspective, our Commission on Novel Technologies for Neurodevelopmental CNVs asserts that the time has arrived to approach neurodevelopmental-related CNVs/SVs as a class of disorders that can be identified, investigated, and treated on the basis of shared mechanisms and/or pathways (e.g., molecular, neurological, or developmental). To identify common etiologic mechanisms among uncommon neurodevelopmental-related disorders and to potentially identify common therapies, it is paramount for teams of scientists, clinicians, and patients to unite their efforts. We bring forward novel, collaborative, and integrative strategies to translational CNV/SV research that engages diverse stakeholders to help expedite therapeutic outcomes. We articulate a clear vision for piloted roadmap strategies to reduce patient/caregiver burden and redundancies, increase efficiency, avoid siloed data, and accelerate translational discovery across CNV/SV-based syndromes.
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U2 - 10.1016/j.ajhg.2022.07.003
DO - 10.1016/j.ajhg.2022.07.003
M3 - Review article
C2 - 35931048
AN - SCOPUS:85135573395
SN - 0002-9297
VL - 109
SP - 1353
EP - 1365
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 8
ER -