EEG and behavioral changes in a hyperkinetic child concurrent with training of the sensorimotor rhythm (SMR)

Reduced seizure incidence coupled with voluntary motor inhibition accompanied conditioned increases in the sensorimotor rhythm(SMR), a 12–14 Hz rhythm appearing over rolandic cortex. Although SMR biofeedback training has been successfully applied to various forms of epilepsy in humans, its potential use in decreasing hyperactivity has been limited to a few cases in which a seizure history was also a significant feature. The present study represents a first attempt to explore the technique's applicability to the problem of hyperkinesis independent of the epilepsy issue. The results of several months of EEG biofeedback training in a hyperkinetic child tend to corroborate and extend previous findings. Feedback presentations for SMR were contingent on the production of 12–14-Hz activity in the absence of 4–7-Hz slow-wave activity. A substantial increase in SMR occurred with progressive SMR training and was associated with enhanced motor inhibition, as gauged by laboratory measures of muscular tone(chin EMG) and by a global behavioral assessment in the classroom. Opposite trends in motor inhibition occurred when the training procedure was reversed and feedback presentations were contingent on the production of 4–7 Hz in the absence of 12–14-Hz activity. Although the preliminary nature of these results is stressed, the subject population has recently been increased to establish the validity and generality of the findings and will include the use of SMR biofeedback training after medication has been withdrawn.

[1]  T. Mulholland,et al.  Detection of EEG abnormalities with feedback stimulation , 1976 .

[2]  R. Harper,et al.  Somatomotor and visceromotor correlates of operantly conditioned 12-14 C-SEC sensorimotor cortical activity. , 1971, Electroencephalography and clinical neurophysiology.

[3]  J. Millichap Drugs in management of hyperkinetic and perceptually handicapped children. , 1968, JAMA.

[4]  Hoyt A. Smith,et al.  Reduction of seizures and normalization of the EEG in a severe epileptic following sensorimotor biofeedback training: Preliminary study , 1975, Biological Psychology.

[5]  K. Lissák,et al.  EEG changes associated with the elaboration of conditioned reflexes. , 1962, Acta physiologica Academiae Scientiarum Hungaricae.

[6]  J. Lubar,et al.  Behavioral management of epileptic seizures following EEG biofeedback training of the sensorimotor rhythm , 1976, Biofeedback and self-regulation.

[7]  M B Sterman,et al.  Suppression of seizures in an epileptic following sensorimotor EEG feedback training. , 1972, Electroencephalography and clinical neurophysiology.

[8]  M. Sterman,et al.  Comparison of EEG correlates of reinforcement, internal inhibition and sleep. , 1967, Electroencephalography and clinical neurophysiology.

[9]  R. Wahler,et al.  Some structural aspects of deviant child behavior. , 1975, Journal of applied behavior analysis.

[10]  J. Lubar,et al.  Reduction of epileptic seizures through EEG biofeedback training , 1975, Biological Psychology.

[11]  M. Stewart,et al.  The hyperactive child syndrome. , 1966, The American journal of orthopsychiatry.

[12]  M B Sterman,et al.  EEG correlates of sleep: evidence for separate forebrain substrates. , 1967, Brain research.

[13]  M B Sterman,et al.  Cortical-subcortical EEG correlates of suppressed motor behavior during sleep and waking in the cat. , 1972, Electroencephalography and clinical neurophysiology.

[14]  M. Sterman,et al.  Biofeedback Training of the Sensorimotor Electroencephalogram Rhythm in Man: Effects on Epilepsy , 1974, Epilepsia.