Spinal Cord Injury Center, University Hospital Balgrist, Zurich, Switzerland.
J Clin Neurophysiol. 2013 Jun;30(3):291-8. doi: 10.1097/WNP.0b013e31827ed9ee.
After spinal cord injury, contact heat evoked potentials (CHEPs) may represent a means to refine the clinical assessment of sensory function from each spinal cord segment by quantifying nociception, including conduction along the spinothalamic tract.
The influence of stimulation site (i.e., dermatomes) on CHEPs and thermal thresholds in 19 healthy subjects (mean age, 45.2 ± 18.3 years) divided into 2 age classes (younger subjects, n = 10; mean age, 28.8 ± 5.2 years; older subjects, n = 9; mean age, 63.4 ± 3.4 years) at 5 different dermatomes (C4, C5, C6, C8, and T4) was assessed.
In terms of distance from the body midline (i.e., spinal cord entry), there was a reduction in CHEP amplitudes from proximal (C4 and T4) to distal (C6 and C8) dermatomes with a corresponding reduction in nociceptive perception (i.e., pain threshold and rating). Within primary and secondary cortical sensory areas, including areas associated with affective noxious processing, the cortical source density analysis showed a similar current density distribution between C4 and C8 dermatomes but consistent higher current densities for C4.
The study supports CHEPs as a feasible tool for assessing discrete dermatomes corresponding to spinal cord segments. The results suggest that the proximodistal pattern in the intensity of perceived pain and CHEP amplitudes is likely attributable to the distribution of heat nociceptors and the increase in conduction distance from proximal to distal dermatomes. The present findings emphasize on the importance that if patients are assessed segment by segment, the underlying topographical differences need to be accounted for.
脊髓损伤后,接触热诱发电位(CHEPs)可能代表了一种通过量化伤害感受,包括沿脊髓丘脑束的传导,来细化每个脊髓节段感觉功能的临床评估的方法。
19 名健康受试者(平均年龄 45.2 ± 18.3 岁)分为 2 个年龄组(年轻组,n = 10;平均年龄 28.8 ± 5.2 岁;老年组,n = 9;平均年龄 63.4 ± 3.4 岁),在 5 个不同的皮区(C4、C5、C6、C8 和 T4)评估刺激部位(即皮区)对 CHEPs 和热阈值的影响。
就距离身体中线(即脊髓进入处)而言,从近端(C4 和 T4)到远端(C6 和 C8)皮区,CHEP 振幅逐渐降低,同时伤害感受(即疼痛阈值和评分)也相应降低。在初级和次级皮质感觉区域,包括与情感性疼痛处理相关的区域,皮质源密度分析显示 C4 和 C8 皮区之间存在相似的电流密度分布,但 C4 的电流密度始终较高。
该研究支持 CHEPs 作为评估对应脊髓节段的离散皮区的可行工具。结果表明,感知疼痛和 CHEP 振幅强度的近-远模式可能归因于热伤害感受器的分布以及从近端到远端皮区的传导距离增加。本研究结果强调了一个重要观点,即如果患者要逐个节段进行评估,那么需要考虑到潜在的局部差异。
