Proprioceptors and normal tremor.

The tremor of the hand, rotating about the wrist joint, was measured using an accelerometer, and groups of muscle action potentials were simultaneously recorded from the wrist extensor muscles using surface electrodes. The accelerometer signal and the rectified, demodulated electromyogram were submitted to Fourier analysis in order to quantify the tremor in terms of its frequency components and the amplitudes of those components. The amplitudes of the 8‐12 Hz peak in the frequency spectrum obtained from muscle electrical activity were compared (a) when the hand was held raised against gravity (i.e. the contraction was isotonic) with (b) when it was held raised, with the same force and in the same position against a rigid bar (i.e. the contraction was isometric). In the isotonic condition (a) a prominent 8‐12 Hz peak was observed in the spectrum. In the isometric condition (b) the peak was small or absent. The conclusion is drawn that the grouping (synchronization) of motor unit action potentials underlying tremor cannot be due to any process in the central nervous system generating them and they depend on cyclic alterations in muscle length activating proprioceptors.

[1]  J. Redfearn,et al.  The effect of ischaemia on finger tremor. , 1954, The Journal of physiology.

[2]  A. Taylor,et al.  The significance of grouping of motor unit activity , 1962, The Journal of physiology.

[3]  O C J LIPPOLD,et al.  The relation between integrated action potentials in a human muscle and its isometric tension , 1952, The Journal of physiology.

[4]  J. Brumlik,et al.  On the nature of normal tremor , 1962, Neurology.

[5]  O. Lippold,et al.  The 4‐6 HZ tremor during sustained contraction in normal human subjects. , 1983, The Journal of physiology.

[6]  R. Elble,et al.  Motor-unit activity responsible for 8- to 12-Hz component of human physiological finger tremor. , 1976, Journal of neurophysiology.

[7]  G. Sutton,et al.  The variation of hand tremor with force in healthy subjects , 1967, The Journal of physiology.

[8]  R N Stiles,et al.  A viscoelastic-mass mechanism as a basis for normal postural tremor. , 1974, Journal of applied physiology.

[9]  R. N. Stiles,et al.  Mechanical factors in human tremor frequency. , 1967, Journal of applied physiology.

[10]  O. Lippold,et al.  The Origin of the Alpha Rhythm , 1973 .

[11]  J. Lance,et al.  Physiological tremor. , 1968, Lancet.

[12]  Force predictions relating to tremor and other consequences of a 'distributed' model of skeletal muscle. , 1979, Journal of biomedical engineering.

[13]  J. Redfearn,et al.  An analysis of the frequencies of finger tremor in healthy subjects , 1956, The Journal of physiology.

[14]  G. C. Kennedy I. The Physiological Approach , 1963 .

[15]  S Lal,et al.  Asynchronous motor unit activities and tremor [proceedings]. , 1979, The Journal of physiology.

[16]  O. Lippold Oscillation in the stretch reflex arc and the origin of the rhythmical, 8–12 c/s component of physiological tremor , 1970, The Journal of physiology.