TY - JOUR
T1 - Riluzole blocks perioperative ischemia-reperfusion injury and enhances postdecompression outcomes in cervical spondylotic myelopathy
AU - Karadimas, Spyridon K.
AU - Laliberte, Alex M.
AU - Tetreault, Lindsay
AU - Chung, Young Sun
AU - Arnold, Paul
AU - Foltz, Warren D.
AU - Fehlings, Michael G.
N1 - Funding Information:
We thank the Spatio-Temporal Targeting and Amplification of Radiation Response (STTARR) program and its affiliated funding agencies, E.S. Moon for helping establish the decompression procedure and helping in the initial stage of the study (neurobehavioral tests), A. Andreopoulou for the generation of the aromatic polyether, and the investigators of the CSM-North America prospective study and I. Gardner-Morse for the generation of the "double label" script for the Stereo Investigator. T. R. Kiehl for the provision of the human tissue used in the work. Funding: This work was funded by operational grants from the Cervical Spine Research Society and from the Canadian Institutes of Health Research (CIHR), a research fellowship fromCervical Spine Research Society (S.K.K.), a scholarship from The Alexander S. Onassis Public Benefit Foundation (S.K.K.), a CIHR fellowship (A.M.L.), the Gerry and Tootsie Halbert Regeneration Chair (M.G.F.), and the AOSpine North America (AOSpine North America prospective study). M.G.F. is the Chairman of AOSpine North America, a not-for-profit foundation, which served as the sponsor of the AOSpine North America study. P.A. consults for Medtronic Sofamor Danek, FzioMed, SpineGuard, InVivo Therapeutics Corporation, and Stryker Spine.
PY - 2015/12/2
Y1 - 2015/12/2
N2 - Although surgical decompression is considered the gold standard treatment for cervical spondylotic myelopathy (CSM), a proportion of cases show postoperative decline or continue to exhibit substantial neurological dysfunction. To investigate this further, we first examined data from the prospective multicenter AOSpine North America CSM study, finding that 9.3% of patients exhibited postoperative functional decline (DmJOA, ≤-1) and that 44% of patients were left with substantial neurological impairment 6 months postoperatively. Notably, 4% of patients experienced perioperative neurological complicationswithin 20 days after surgery in otherwise uneventful surgeries. To shed light on the mechanisms underlying this phenomenon and to test a combination therapeutic strategy for CSM, we performed surgical decompression in a rat model of CSM, randomizing some animals to also receive the U.S. Food and Drug Administration-approved drug riluzole. Spinal cord blood flow measurements increased after decompression surgery in rats. CSM rats showed a transient postoperative neurological decline akin to that seen in some CSM patients, suggesting that ischemia-reperfusion injury may occur after decompression surgery. Riluzole treatment attenuated oxidative DNA damage in the spinal cord and postoperative decline after decompression surgery. Mechanistic in vitro studies also demonstrated that riluzole preserved mitochondrial function and reduced oxidative damage in neurons. Rats receiving combined decompression surgery and riluzole treatment displayed longterm improvements in forelimb function associated with preservation of cervical motor neurons and corticospinal tracts compared to rats treated with decompression surgery alone.
AB - Although surgical decompression is considered the gold standard treatment for cervical spondylotic myelopathy (CSM), a proportion of cases show postoperative decline or continue to exhibit substantial neurological dysfunction. To investigate this further, we first examined data from the prospective multicenter AOSpine North America CSM study, finding that 9.3% of patients exhibited postoperative functional decline (DmJOA, ≤-1) and that 44% of patients were left with substantial neurological impairment 6 months postoperatively. Notably, 4% of patients experienced perioperative neurological complicationswithin 20 days after surgery in otherwise uneventful surgeries. To shed light on the mechanisms underlying this phenomenon and to test a combination therapeutic strategy for CSM, we performed surgical decompression in a rat model of CSM, randomizing some animals to also receive the U.S. Food and Drug Administration-approved drug riluzole. Spinal cord blood flow measurements increased after decompression surgery in rats. CSM rats showed a transient postoperative neurological decline akin to that seen in some CSM patients, suggesting that ischemia-reperfusion injury may occur after decompression surgery. Riluzole treatment attenuated oxidative DNA damage in the spinal cord and postoperative decline after decompression surgery. Mechanistic in vitro studies also demonstrated that riluzole preserved mitochondrial function and reduced oxidative damage in neurons. Rats receiving combined decompression surgery and riluzole treatment displayed longterm improvements in forelimb function associated with preservation of cervical motor neurons and corticospinal tracts compared to rats treated with decompression surgery alone.
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U2 - 10.1126/scitranslmed.aac6524
DO - 10.1126/scitranslmed.aac6524
M3 - Article
C2 - 26631633
AN - SCOPUS:84954270756
SN - 1946-6234
VL - 7
JO - Science Translational Medicine
JF - Science Translational Medicine
IS - 316
M1 - 6524
ER -