Transcranial Direct Current Stimulation (tDCS) Can Alter Cortical Excitability of the Lower Extremity in Healthy Participants: A Review and Methodological Study.

OBJECTIVE: Transcranial direct current stimulation (tDCS) has been used to alter cortical excitability of the lower extremity (LE) and to influence performance on LE tasks like ankle tracking accuracy; but no study, to our knowledge, ever reported a significant change in cortical excitability relative to sham-tDCS. Additionally, because several different electrode montages were used in previous studies, it is difficult to know how stimulation should be applied to achieve this effect. Our objective was to determine whether active-tDCS alters cortical excitability of the LE and ankle tracking accuracy relative to sham-tDCS in healthy participants. The efficacy of two electrode montages and two conductance mediums were compared. METHODS: A triple-blind, fully randomized, within-subjects study was conducted with healthy participants (N=18, 24.2 (6.6) years). Cortical recruitment curves and measures of ankle tracking accuracy for the dominant lower extremity were obtained before and after participants received active-tDCS at 2 milliamps for 20 minutes using montage-medium combinations of M1-SO:Saline, M1-SO:Gel, C1-C2:Saline, and C1-C2:Gel and a sham-tDCS condition (M1-SO: Saline). RESULTS: The motor evoked potential maximum of the recruitment curve was significantly lower for active than sham-tDCS, but only for the M1-SO:Saline combination. No other significant differences in the recruitment curve parameters or in ankle tracking were found. CONCLUSIONS: This is the first study to our knowledge to demonstrate a significant difference in cortical excitability of the LE between active and sham-tDCS conditions. Given the order in which the experimental procedures occurred, the result is consistent with the concept of a homeostatic plasticity response.

Improvement in arousal, visual neglect, and perception of stimulus intensity following cold pressor stimulation.

The relationship between arousal, perception, and visual neglect was examined in this case study. Cold pressor stimulation (CPS: immersing the foot in iced water) was used to manipulate arousal and to determine its effects on contralesional neglect, perception of stimulus intensity (magnitude estimation), reaction time, and an electrophysiological correlate of ascending reticular activating system activity (i.e., the P50 potential). Measures that normalized from baseline following CPS included contralesional neglect on a clock drawing test, perception of stimulus magnitude, and P50 amplitude. The P50 amplitude returned to its abnormally low baseline level 20 min after CPS ended, indicating that CPS increased arousal.

Use of a motorized bicycle exercise trainer to normalize frequency-dependent habituation of the H-reflex in spinal cord injury.

BACKGROUND/OBJECTIVES: Spasticity in patients with spinal cord injury (SCI) is difficult to manage. Exercise and stretching is advocated as a management tool, but these activities are difficult to perform for most patients as a result of multiple barriers. This report shows the effect of passive range-of-motion exercise in a walking-like pattern on frequency-dependent habituation of the H-reflex in the lower extremities of an individual with spastic tetraplegia due to SCI. METHODS: The participant, a man with a chronic ASIA B C7 SCI due to a gunshot wound, used a motorized bicycle exercise trainer (MBET) developed at the Jackson T. Stephens Spine & Neurosciences Institute at the University of Arkansas for Medical Sciences that could be operated from the individual's wheelchair. He used the MBET for 1 hour, 5 days a week, for 13 weeks. H-reflex habituation was tested at the beginning of the study and then periodically over the course of 17 weeks, including 4 weeks after exercise had ceased. RESULTS: Significant habituation of the H-reflex was evident beginning at the 10th week of training. The habituation in the H-reflex reached a normal level at 5- and 10-Hz frequencies at 12 weeks. Subjective assessment of spasticity indicated that it was significantly reduced. The H-reflex amplitude was maintained at normal levels during the remaining week of the course of exercise and for 2 additional weeks after exercise ceased. The H-reflex habituation, however, returned to near baseline when reassessed at week 17, 4 weeks after the exercise program had concluded. Subjective assessment indicated that spasticity also had returned to pretraining levels. CONCLUSIONS: Habituation of the H-reflex, and perhaps spasticity, can be managed by a routine passive range-of-motion exercise program using a MBET, but the exercise program may need to be continuous. The benefit of reduced medication for spasticity and possibly improved quality of life could be a motivating factor for an individual with SCI and spasticity to continue the program. Because of the low complexity of the program, ease of use, and small size, this system could be inexpensive and could be used by an individual in the home. Ongoing studies will determine the minimum amount of MBET training required for maintaining long-term H-reflex habituation.