School of Optometry, University of Waterloo, Ontario, Canada.
Invest Ophthalmol Vis Sci. 2010 Feb;51(2):876-81. doi: 10.1167/iovs.08-3072. Epub 2009 Oct 15.
To psychophysically investigate adaptation in human corneas using the Belmonte pneumatic esthesiometer.
Twenty, 8, and 20 healthy subjects were enrolled in the mechanical, cool, and chemical experiments, respectively. Thresholds were estimated using an ascending method of limits and three intensities (subthreshold, threshold, and suprathreshold, in random order) were each presented 10 or 20 times, and subjects scaled the intensity of the stimuli (0-4 [no stimulus to very intense stimulus]). Friedman nonparametric ANOVA was used to analyze the rating data.
There was measurable adaptation with both mechanical and cool stimuli. For both suprathreshold mechanical and cool stimuli, the earlier stimuli were rated more intensely than subsequent stimuli (both P < 0.05). However, this was not the case for subthreshold and threshold mechanical and cool stimuli (all P > 0.05). Paradoxically, for the chemical stimuli, there was adaptation to threshold stimuli (P = 0.03) but no adaptation for subthreshold and suprathreshold stimuli (P = 0.19 and 0.11, respectively).
Both mechanical (mechanosensory or polymodal) and cold receptors on human corneas show adaptation to repeated suprathreshold stimuli with a reduction in perceived intensity after multiple exposures to the same physical stimulus intensity. This is in accord with the results found in electrophysiological and psychophysical experiments of somatosensation elsewhere in the body (and in other animals). The response to chemical stimuli was different, and this might reflect proximal and distal neural or stimulus-specific effects.
使用 Belmonte 气动测压计对人眼角膜的适应进行心理物理学研究。
分别有 20、8 和 20 名健康受试者参加了机械、冷觉和化学实验。使用升序极限法估计阈值,每个刺激强度(阈下、阈上和超阈上)呈现 10 或 20 次,受试者对刺激强度进行评分(0-4[无刺激到非常强烈的刺激])。采用 Friedman 非参数方差分析对评分数据进行分析。
机械和冷觉刺激均有可测量的适应。对于超阈值机械和冷觉刺激,早期刺激的评分比后续刺激更强烈(均 P <0.05)。然而,对于阈下和阈值机械和冷觉刺激则并非如此(均 P >0.05)。矛盾的是,对于化学刺激,阈上刺激有适应(P =0.03),但阈下和超阈值刺激没有适应(分别为 P =0.19 和 0.11)。
人眼角膜的机械(机械感觉或多模态)和冷觉感受器对重复的超阈值刺激都有适应,在多次暴露于相同的物理刺激强度后,感知强度降低。这与身体其他部位(和其他动物)的体感觉的电生理和心理物理实验结果一致。化学刺激的反应不同,这可能反映了近端和远端神经或刺激特异性的影响。
