Cite
FGF1 containing biodegradable device with peripheral nerve grafts induces corticospinal tract regeneration and motor evoked potentials after spinal cord resection.
MLA
Nordblom, Jonathan, et al. “FGF1 Containing Biodegradable Device with Peripheral Nerve Grafts Induces Corticospinal Tract Regeneration and Motor Evoked Potentials after Spinal Cord Resection.” Restorative Neurology & Neuroscience, vol. 30, no. 2, Mar. 2012, pp. 91–102. EBSCOhost, https://doi.org/10.3233/rnn-2011-0623.
APA
Nordblom, J., Persson, J. K. E., Åberg, J., Blom, H., Engqvist, H., Brismar, H., Sjödahl, J., Josephson, A., Frostell, A., Thams, S., Brundin, L., Svensson, M., & Mattsson, P. (2012). FGF1 containing biodegradable device with peripheral nerve grafts induces corticospinal tract regeneration and motor evoked potentials after spinal cord resection. Restorative Neurology & Neuroscience, 30(2), 91–102. https://doi.org/10.3233/rnn-2011-0623
Chicago
Nordblom, Jonathan, Jonas K.E. Persson, Jonas Åberg, Hans Blom, Håkan Engqvist, Hjalmar Brismar, Johan Sjödahl, et al. 2012. “FGF1 Containing Biodegradable Device with Peripheral Nerve Grafts Induces Corticospinal Tract Regeneration and Motor Evoked Potentials after Spinal Cord Resection.” Restorative Neurology & Neuroscience 30 (2): 91–102. doi:10.3233/rnn-2011-0623.