对气味做出反应时躯体症状的习得与消退:一种与多重化学物质敏感相关的巴甫洛夫范式
Acquisition and extinction of somatic symptoms in response to odours: a Pavlovian paradigm relevant to multiple chemical sensitivity.
作者信息
Van den Bergh O, Stegen K, Van Diest I, Raes C, Stulens P, Eelen P, Veulemans H, Van de Woestijne K P, Nemery B
机构信息
Department of Psychology, University of Leuven, Belgium.
出版信息
Occup Environ Med. 1999 May;56(5):295-301. doi: 10.1136/oem.56.5.295.
OBJECTIVES
Multiple chemical sensitivity is a poorly understood syndrome in which various symptoms are triggered by chemically unrelated, but often odorous substances, at doses below those known to be harmful. This study focuses on the process of pavlovian acquisition and extinction of somatic symptoms triggered by odours.
METHODS
Diluted ammonia and butyric acid were odorous conditioned stimuli (CS). The unconditioned stimulus (US) was 7.4% CO2 enriched air. One odour (CS+) was presented together with the US for 2 minutes (CS+ trial), and the other odour (CS-) was presented with air (CS-trial). Three CS+ and three CS-exposures were run in a semi-randomised order; this as the acquisition (conditioning) phase. To test the effect of the conditioning, each subject then had one CS+ only--that is, CS+ without CO2--and one CS- test exposure. Next, half the subjects (n = 32) received five additional CS+ only exposures (extinction group), while the other half received five exposures to breathing air (wait group). Finally, all subjects got one CS+ only test exposure to test the effect of the extinction. Ventilatory responses were measured during and somatic symptoms after each exposure.
RESULTS
More symptoms were reported upon exposure to CS+ only than to CS-odours, regardless of the odour type. Altered respiratory rate was only found when ammonia was CS+. Five extinction trials were sufficient to reduce the level of acquired symptoms.
CONCLUSION
Subjects can acquire somatic symptoms and altered respiratory behaviour in response to harmless, but odorous chemical substances, if these odours have been associated with a physiological challenge that originally had caused these symptoms. The conditioned symptoms can subsequently be reduced in an extinction procedure. The study further supports the plausibility of a pavlovian conditioning hypothesis to explain the pathogenesis of MCS.
目的
多重化学物质敏感是一种了解甚少的综合征,其中各种症状由化学性质无关但通常有气味的物质在低于已知有害剂量时引发。本研究聚焦于由气味引发的躯体症状的巴甫洛夫式习得和消退过程。
方法
稀释的氨水和丁酸为有气味的条件刺激(CS)。非条件刺激(US)为富含7.4%二氧化碳的空气。一种气味(CS+)与非条件刺激一起呈现2分钟(CS+试验),另一种气味(CS-)与空气一起呈现(CS-试验)。三次CS+和三次CS-暴露以半随机顺序进行;这是习得(条件作用)阶段。为测试条件作用的效果,然后每个受试者进行一次仅CS+——即无二氧化碳的CS+——和一次CS-测试暴露。接下来,一半受试者(n = 32)接受另外五次仅CS+暴露(消退组),而另一半接受五次呼吸空气暴露(等待组)。最后,所有受试者进行一次仅CS+测试暴露以测试消退效果。在每次暴露期间测量通气反应,并在暴露后测量躯体症状。
结果
无论气味类型如何,仅暴露于CS+时报告的症状比暴露于CS-气味时更多。仅当氨水为CS+时才发现呼吸频率改变。五次消退试验足以降低习得症状的水平。
结论
如果这些气味与最初导致这些症状的生理挑战相关联,受试者可因无害但有气味的化学物质而习得躯体症状和改变呼吸行为。随后可在消退过程中减轻条件性症状。该研究进一步支持了巴甫洛夫条件作用假说来解释多重化学物质敏感发病机制的合理性。
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