MRI诱发黑纹身神经感觉事件的实验研究

IF 0.9 Q4 DERMATOLOGY
Case Reports in Dermatology Pub Date : 2023-05-25 eCollection Date: 2023-01-01 DOI:10.1159/000530220
Kasper Køhler Alsing, Ole Olsen, Christian Bender Koch, Rasmus Hvass Hansen, Daniel Pergament Persson, Klaus Qvortrup, Jørgen Serup
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引用次数: 1

摘要

纹身皮肤在核磁共振成像(MRI)过程中的不良反应是罕见的,但众所周知。先前的报告描述了纹身皮肤的突然灼痛,有时进入MRI扫描仪时伴有轻度红斑和水肿。病理生理学尚不清楚,但可以排除简单的直接加热。据推测,MRI触发的扭矩和牵引力通过磁性颜料颗粒产生神经感觉。然而,这个案例启发了另一种可能的机制。我们介绍了一位35岁的女性,在核磁共振成像开始几秒钟后,三个装饰性黑色纹身再次出现刺痛感。用手持磁铁或假人进行的单盲测试可以在她纹身的皮肤上重现痛苦的主观感受。MRI再次评估时也引发了类似事件。令人惊讶的是,皮肤样品的化学分析和电子显微镜显示炭黑是着色剂——没有检测到铁基固体。我们的案例表明,MRI纹身反应不仅限于磁性污染物。MRI诱发反应可能会出现更多不同的亚组。我们假设,在真皮感觉轴突附近的炭黑颗粒中射频诱导表面电流可能导致神经代偿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

MRI-Induced Neurosensory Events in Decorative Black Tattoos: Study by Advanced Experimental Methods.

MRI-Induced Neurosensory Events in Decorative Black Tattoos: Study by Advanced Experimental Methods.

MRI-Induced Neurosensory Events in Decorative Black Tattoos: Study by Advanced Experimental Methods.

MRI-Induced Neurosensory Events in Decorative Black Tattoos: Study by Advanced Experimental Methods.

Adverse reactions in tattooed skin during magnetic resonance imaging (MRI) are rare but well known. Previous reports describe sudden burning pain in tattooed skin, sometimes accompanied by mild erythema and oedema when entering MRI scanners. The pathophysiology remains unclear, but simple direct thermal heating can be excluded. It has been hypothesized that MRI-triggered torque and traction create neural sensations from magnetic pigment particles. However, this case enlightens yet another possible mechanism. We present a 35-year-old woman experiencing reoccurring stinging sensations in three decorative black tattoos just seconds after the initiation of the MRI. Single-blind tests with handheld power magnets or a dummy could reproduce painful subjective feelings in her tattooed skin. Similar events were provoked during re-evaluation with MRI. Surprisingly, chemical analyses and electron microscopy of skin samples revealed carbon black as the colouring agent - no iron-based solids were detected. Our case demonstrates that MRI tattoo reactions are not limited to magnetic contaminants alone. More distinct subgroups of MRI-induced reactions may occur. We hypothesize that radiofrequency induction of surface currents in black carbon particles adjacent to sensory axons in the dermis may lead to neurosensations.

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来源期刊
CiteScore
1.60
自引率
0.00%
发文量
57
审稿时长
9 weeks
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