Application of electrophysiological measures in spinal cord injury clinical trials: a narrative review
- Authors:
- Hubli, M., Kramer, J. L. K., Jutzeler, C. R., Rosner, J., Furlan, J. C., Tansey, K. E., and Schubert, M.
- Abstract:
- STUDY DESIGN: Narrative review.
OBJECTIVES: To discuss how electrophysiology may contribute to future clinical trials in spinal cord injury (SCI) in terms of: (1) improvement of SCI diagnosis, patient stratification and determination of exclusion criteria; (2) the assessment of adverse events; and (3) detection of therapeutic effects following an intervention.
METHODS: An international expert panel for electrophysiological measures in SCI searched and discussed the literature focused on the topic.
RESULTS: Electrophysiology represents a valid method to detect, track, and quantify readouts of nerve functions including signal conduction, e.g., evoked potentials testing long spinal tracts, and neural processing, e.g., reflex testing. Furthermore, electrophysiological measures can predict functional outcomes and thereby guide rehabilitation programs and therapeutic interventions for clinical studies.
CONCLUSION: Objective and quantitative measures of sensory, motor, and autonomic function based on electrophysiological techniques are promising tools to inform and improve future SCI trials. Complementing clinical outcome measures, electrophysiological recordings can improve the SCI diagnosis and patient stratification, as well as the detection of both beneficial and adverse events. Specifically composed electrophysiological measures can be used to characterize the topography and completeness of SCI and reveal neuronal integrity below the lesion, a prerequisite for the success of any interventional trial. Further validation of electrophysiological tools with regard to their validity, reliability, and sensitivity are needed in order to become routinely applied in clinical SCI trials. - DOI:
- 10.1038/s41393-019-0331-z
- URL:
- https://www.nature.com/articles/s41393-019-0331-z
- Journal:
- Spinal Cord
- issn:
- 1362-4393
- Publication year:
- 2019
- pages:
- Biological and physiological variables:
- Biological and physiological variables
- Age:
- Adults (18-65)
Children (0-18)
Seniors (65+) - Disease:
- Diseases of and symptoms related to the nervous system
Injury, poisoning and certain other consequences of external causes - PRO / non-PRO:
- Non-patient Reported Outcome
- Type of measurement instrument:
- 6 - Clinical rating scales
9 - Laboratory tests - Instrument:
- CHEP - Contact Heat Evoked Potential [alias: LEP - Laser Evoked Potential]
cMAP - Compound Motor Action Potential
dSSEP - dermatomal SomatoSensory Evoked Potential
EMG - electromyography
EPT - Electrical Perception Threshold
F-wave
H-reflex - Hoffmann reflex of soleus muscle
MEP - Motor Evoked Potential
SNAP - Sensory Nerve Action Potential
SSEP - SomatoSensory Evoked Potential
SSR - sympathetic skin response