School of Human Kinetics, University of Ottawa, 200 Lees Ave, Ottawa, ON, K1N 6N5, Canada.
Exp Brain Res. 2024 Oct;242(10):2405-2417. doi: 10.1007/s00221-024-06899-4. Epub 2024 Aug 13.
Planned actions can be triggered involuntarily by a startling acoustic stimulus (SAS), resulting in very short reaction times (RT). This phenomenon, known as the StartReact effect, is thought to result from the startle-related activation of reticular structures. However, other sensory modalities also can elicit a reflexive startle response. Here, we assessed the effectiveness of an intense startling electric stimulus (SES) in eliciting the StartReact effect as compared to a SAS. We tested SES intensities at 15 and 25 times the perceptual threshold of each participant, as well as SAS intensities of 114 dB and 120 dB. The electrical stimulation electrodes were placed over short head of the biceps brachii on the arm not involved in the task. Intense electric and acoustic stimuli were presented on 20% of the trials in a simple RT paradigm requiring a targeted ballistic wrist extension movement. The proportion of trials showing short latency (≤ 120 ms) startle reflex-related activation in sternocleidomastoid was significantly lower on intense electrical stimulus trials compared to intense acoustic trials, and the startle response onset occurred significantly later on SES trials compared to SAS. However, when a startle reflex was observed, RTs related to the prepared movement were facilitated to a similar extent for both SES and SAS conditions, suggesting that the accelerated response latency associated with the StartReact effect is independent of stimulus type.
计划中的动作可能会被惊声刺激(SAS)不由自主地触发,导致非常短的反应时间(RT)。这种现象被称为“StartReact 效应”,被认为是由与惊吓相关的网状结构激活引起的。然而,其他感觉模态也可以引起反射性的惊吓反应。在这里,我们评估了强烈的惊吓电刺激(SES)引发 StartReact 效应的效果,与 SAS 进行了比较。我们测试了参与者感知阈的 15 倍和 25 倍的 SES 强度,以及 114 dB 和 120 dB 的 SAS 强度。电刺激电极放置在手臂不参与任务的肱二头肌短头。在一个简单的 RT 范式中,在 20%的试验中呈现强烈的电和声学刺激,需要进行有针对性的腕关节弹道伸展运动。与强烈的声学刺激试验相比,在强烈的电刺激试验中,显示短潜伏期(≤120ms)惊吓反射相关激活的试验比例显著降低,并且 SES 试验中的惊吓反应起始时间明显晚于 SAS 试验。然而,当观察到惊吓反射时,SES 和 SAS 条件下与准备运动相关的 RT 都得到了相似程度的促进,这表明与 StartReact 效应相关的加速反应潜伏期独立于刺激类型。
