November 27, 2013ArticleOpen Access
Daily intermittent hypoxia enhances walking after chronic spinal cord injury
A randomized trial
Heather B. Hayes, Arun Jayaraman, Megan Herrmann, Gordon S. Mitchell, William Z. Rymer, Randy D. Trumbower
First published November 27, 2013, DOI: https://doi.org/10.1212/01.WNL.0000437416.34298.43
Heather B. Hayes
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
Arun Jayaraman
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
Megan Herrmann
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
Gordon S. Mitchell
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
William Z. Rymer
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
Randy D. Trumbower
From the Department of Rehabilitation Medicine (H.B.H., R.D.T.), Emory University, Atlanta, GA; Department of Physical Medicine and Rehabilitation (A.J., M.H., W.Z.R.), Northwestern University, Chicago; Sensory Motor Performance Program (A.J., W.Z.R.), Rehabilitation Institute of Chicago, IL; Department of Comparative Biosciences (G.S.M.), University of Wisconsin, Madison; Department of Biomedical Engineering (R.D.T.), Georgia Institute of Technology, Atlanta; and The Shepherd Center (R.D.T.), Atlanta, GA.
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