Department Of Neuromuscular Disorders
Investigator
Matthew Harms, MD
Phone
212-305-1112
Email
mh3607@cumc.columbia.edu

Matthew Harms, MD is an Associate Professor of Neurology. Dr. Harms received his A.B. in Biology summa cum laude from Harvard University in 1997, and his medical doctorate from the University of California San Francisco in 2003. He remained at San Francisco for neurology residency and served as Chief Resident in his final year. Dr. Harms completed neuromuscular medicine and clinical neurophysiology fellowships under the mentorship of Dr. Alan Pestronk at Washington University in St. Louis. His clinical training in neuromuscular diseases led him into the laboratory of Dr. Robert Baloh, where his post-doctoral research identified the genes responsible for two orphan human diseases- dominant spinal muscular atrophy with lower extremity predominance and limb-girdle muscular dystrophy type 1D.

Dr. Harms joined the neuromuscular medicine faculty at Washington University in 2009 with board certifications in neurology, clinical neurophysiology, and neuromuscular medicine. In 2011, Dr. Harms assumed leadership of the Washington University Neuromuscular Genetics Project and established his research laboratory to continue harnessing emerging genetic technologies to understand the causes of inherited neuromuscular diseases. The lab focuses on diseases of the motor neuron, including amyotrophic lateral sclerosis, spinal muscular atrophy, and the hereditary motor neuropathies, and where his efforts have helped identify more than 5 novel disease genes. Here at Columbia, he will continue these efforts, directing an international multi-site effort using whole genome and transcriptome sequencing to bring precision medicine to amyotrophic lateral sclerosis. His laboratory efforts will occur in both the Motor Neuron Center and the Institute for Genomic Medicine.


Clinical Studies Managed By This Investigator:
Condition Study Title
Neurological Disorders [ CLOSED ] An observational study for individuals diagnosed with an FTLD disorder as well as members of families with a history of FTLD disorders.
Neuromuscular [ CLOSED ] Genomic Translation for ALS Care
Neuromuscular ALS Families Project