References
- Kopman A. F. The relationship of evoked electromyographic and mechanical responses following atracurium in humans. Anesthesiology 1985; 63: 208–211
- Viby-Mogensen J. G. Clinical measurement of neuromuscular function. Clinics in Anaesthesiology: Neuromuscular blockade, J. Norman. W. B. Saunders, London 1985; 467–482
- Meretoja O. A., Brown T. C. K. Drift of the evoked thenar EMG-signal. Anesthesiology 1989; 71: A825
- Carter J. A., Arnold R., Yate P. M., Flynn P. J. Assessment of the Datex Relaxograph during anaesthesia and atracurium-induced neuromuscular blockade. British Journal of Anaesthesia 1986; 58: 1447–1452
- Fox M. A., Hunter J. M. Apparent postoperative recurarization. Anaesthesia 1986; 41: 879–880
- Geddes L. A., Da Costa C. P., Wise G. The impedance of stainless steel electrodes. Medical and Biological Engineering 1971; 9: 511–521
- Schwan H. P. Electrode polarization impedance and measurements in biological materials. Annals of the New York Academy of Sciences 1968; 148: 191–209
- Maulsby R. L., Edelberg R. The interrelationship between the galvanic skin response, basal resistance and temperature. Journal of Comparative and Physiological Psychology 1960; 53: 475–479
- Edelberg R., Burch N. R. Skin resistance and galvanic skin response. Archives of General Psychiatry 1962; 7: 163–167
- Kopman A. F., Lawson D. Milliamperage requirements for supramaximal stimulation of the ulnar nerve with surface electrodes. Anesthesiology 1984; 61: 83–85
- Smith D. C. Effects of skin blood flow and temperature on skin-electrode impedance and offset potential: measurements at low alternating current density. Journal of Medical Engineering and Technology 1992; 16: 112–116
- Stephens W. G. The current-voltage relationship in human skin. Medical Electronics and Biological Engineering 1963; 1: 389–399
- Geddes L. A., Baker L. E. The relationship between input impedance and electrode area in recording the ECG. Medical and Biological Engineering 1966; 4: 439–450