Johansson R S, Landström U, Lundström R
Brain Res. 1982 Jul 22;244(1):17-25. doi: 10.1016/0006-8993(82)90899-x.
The impulse responses to perpendicular sinusoidal skin displacements were recorded from 4 different types of mechanoreceptive different units innervating the glabrous skin of the human hand. The cycle responses, defined as the number of impulses evoked per sine wave cycle, were studied at a wide range of frequencies (0.5-400 Hz) and amplitudes (0.001-1mm). The rapidly adapting units (RA) were most easily excited at stimulus frequencies between 8 and 64 Hz, whereas the corresponding frequencies for the Pacinian units (PC) were above 64 Hz. However, at high stimulus amplitudes, the RA and the PC units showed quite similar response profiles within the range of frequencies tested. The sensitivities of the slowly adapting unit types (SA I and SA II) were greatest at lower frequencies. A characteristic finding for all 4 types of units was that the higher the amplitude, the lower the frequency at which the cycle response was maximal.
从支配人类手部无毛皮肤的4种不同类型的机械感受性不同单位记录了对垂直正弦皮肤位移的冲动反应。将周期反应定义为每个正弦波周期诱发的冲动数量,在广泛的频率范围(0.5 - 400Hz)和振幅范围(0.001 - 1mm)内进行了研究。快速适应单位(RA)在8至64Hz的刺激频率下最容易被激发,而帕西尼小体单位(PC)的相应频率高于64Hz。然而,在高刺激振幅下,RA和PC单位在测试的频率范围内显示出相当相似的反应模式。慢适应单位类型(SA I和SA II)的敏感性在较低频率时最大。所有4种单位类型的一个特征性发现是,振幅越高,周期反应最大时的频率越低。