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个人简介
He has received numerous awards including the David M. Kamsler Award for outstanding compassionate and expert care of pediatric patients in 2004; First Annual Harvard-Partners Center for Genetics and Genomics Award in Medical in 2006; and the NIH Young Innovator Award in 2008.
Research in Cohn’s laboratory focuses on the biology of muscle regeneration as it relates to various inherited and acquired myopathic states with a particular interest in muscular dystrophies. More recently, he used a novel approach to understand the mechanisms of maintaining muscle mass and regeneration, by studying hibernating ground squirrels. Hibernating mammals have evolved mechanisms to survive prolonged immobility without pathologic loss/atrophy of muscle mass. The molecular mechanisms underlying this fascinating phenomenon are largely unknown.
His laboratory is currently for the first time applying knowledge of normal mechanisms of muscle protection in the hibernating mammal to the disease process of disuse muscle atrophy in non-hibernating mammals. This will provide unique insights into the fundamental cellular and molecular pathways underlying skeletal muscle atrophy and the protection against it.
Cohn plans to continue his research activities and ensure that novel genetic technologies will be translated into clinical medicine with the goal of one day making individualized treatment a standard of care for all children.
Research in Cohn’s laboratory focuses on the biology of muscle regeneration as it relates to various inherited and acquired myopathic states with a particular interest in muscular dystrophies. More recently, he used a novel approach to understand the mechanisms of maintaining muscle mass and regeneration, by studying hibernating ground squirrels. Hibernating mammals have evolved mechanisms to survive prolonged immobility without pathologic loss/atrophy of muscle mass. The molecular mechanisms underlying this fascinating phenomenon are largely unknown.
His laboratory is currently for the first time applying knowledge of normal mechanisms of muscle protection in the hibernating mammal to the disease process of disuse muscle atrophy in non-hibernating mammals. This will provide unique insights into the fundamental cellular and molecular pathways underlying skeletal muscle atrophy and the protection against it.
Cohn plans to continue his research activities and ensure that novel genetic technologies will be translated into clinical medicine with the goal of one day making individualized treatment a standard of care for all children.
研究兴趣
论文共 92 篇作者统计合作学者相似作者
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Nature Biotechnologyno. 2 (2024): 187-189
Michael Mackley,Kym Boycott, Shaimaa Helal,Lauren Chad,Gregory Costain,Ronald Cohn,Hanna Faghfoury,Aspasia Karalis,Roberto Mendoza-Londono,Robin Hayeems
Genetics in Medicine Open (2024): 101442
Taila Hartley,Deborah Marshall,Meryl Acker, Katharine Fooks,Meredith K Gillespie,E Magda Price,Ian D Graham,Alexandre White-Brown, Layla MacKay,Stella K Macdonald,Lauren Brady, Angela Y Hui,
Genetics in medicine : official journal of the American College of Medical Geneticsno. 2 (2023): 101012-101012
Lucie O M Perillat,Tatianna W Y Wong,Eleonora Maino,Abdalla Ahmed,Elzbieta Hyatt, Ori Scott, Paul Delgado Olguin,Evgueni A Ivakine,Ronald D. Cohn
bioRxiv (Cold Spring Harbor Laboratory) (2023)
Molecular therapy. Methods & clinical development (2023): 246-258
Cambridge prisms. Precision medicine (2023): e11-e11
Cambridge Prisms: Precision Medicine (2023)
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Antonio Mollica, Safia Omer,Sonia L. Evagelou, Serhiy Naumenko, Lu Yi Li, Aideen Teeling,Kyle Lindsay,Steven Erwood,Robert M. Vernon,Julie D. Forman-Kay,Manohar Shroff,Rene E. Harrison,
medRxiv (Cold Spring Harbor Laboratory) (2023)
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Human gene therapyno. 9-10 (2023): 388-403
biorxiv(2023)
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