Extreme subparaneurial ganglion cysts. Part 2: The geyser theory as a mechanistic explanation for crossover.

IF 3.6 2区医学 Q1 CLINICAL NEUROLOGY

Journal of neurosurgery Pub Date : 2025-07-04 DOI:10.3171/2025.2.JNS242816

Godard C W de Ruiter, Miguel A Reina, B Matthew Howe, Xavier Sala-Blanch, Byung-Chul Son, Kimberly K Amrami, Robert J Spinner

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引用次数: 0

Abstract

Objective: Extreme subparaneurial ganglion cysts are poorly understood. In Part 1, the authors demonstrated that patterns of distribution in the subparaneurial space are consistent with the principles of the articular theory for intraneural ganglion cysts (INGCs). How a cyst transfers from the subepineurial to the subparaneurial compartment remains to be determined. In this part, the authors provide evidence supporting that cyst transfer occurs at the sciatic nerve bifurcation based on MRI and histological analysis, and introduce the geyser theory as an explanation for the redistribution of cysts.

Methods: The authors analyze MR images obtained in patients with extreme subparaneurial cysts as well as newly identified cases of nearly extreme subparaneurial cysts (i.e., cysts visible in the subparaneurial compartment but not to the extreme degree as defined in Part 1) for potential crossover sites. They also analyze histological sections from 10 cadavers around the sciatic nerve bifurcation for the presence of openings in the epineurium and paraneurium.

Results: MRI studies performed in 8 patients in Part 1 and 8 newly identified examples with nearly extreme subparaneurial INGCs showed evidence to support communication between different compartments at the sciatic nerve bifurcation (subepineurial-to-subparaneurial and subparaneurial-to-neighboring soft tissues). Openings in the epineurium of the common peroneal and tibial nerves at the sciatic nerve bifurcation were consistently found in all 10 cadaver specimens, as were openings in the paraneurium.

Conclusions: The authors expand on the evidence to support cyst redistribution at the sciatic nerve bifurcation for INGCs in the knee region. They put forth a logical explanation for the development of a spectrum of extreme INGCs (ranging from a faint amount of cyst around the epineurium [wedding ring sign] to extreme subparaneurial INGCs [owl eyes]) based on principles seen in a geyser. The authors believe that radiological occurrence of crossover can be explained by the presence of fenestrations in both the epineurium and paraneurium at the sciatic nerve bifurcation, allowing cyst crossover in two steps: from the subepineurial to the subparaneurial space ("cross") and between a shared subparaneurial space of different nerves ("over"). Finally, the frequent occurrence of extraneural rupture ("cross-out") is due to cyst transfer into the soft tissue compartment via an opening in the outermost circumneurial layer.

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极端副神经下神经节囊肿。第二部分：间歇泉理论作为交叉现象的机械解释。

目的：对神经副神经节下极端囊肿了解甚少。在第1部分中，作者证明了神经副下方空间的分布模式符合神经内神经节囊肿（INGCs）的关节理论原则。囊肿如何从腹膜下转移到副神经下腔室仍有待确定。在这一部分中，作者通过MRI和组织学分析提供了支持囊肿转移发生在坐骨神经分叉处的证据，并介绍了间歇泉理论作为囊肿重新分布的解释。方法：作者分析了极端神经副下囊肿患者以及新发现的近极端神经副下囊肿（即，在神经副下腔室可见的囊肿，但没有达到第1部分定义的极端程度）的潜在交叉部位的MR图像。他们还分析了10具尸体坐骨神经分支周围的组织学切片，以确定神经外膜和副神经是否存在开口。结果：在第1部分中对8例患者和8例新发现的几乎极端的副神经下INGCs进行的MRI研究显示，有证据支持坐骨神经分叉处不同腔室之间的通信（腹膜下至副神经下和副神经下至邻近软组织）。在所有10具尸体标本中，在坐骨神经分叉处的腓总神经和胫神经的神经外膜上都发现了开口，副神经上也发现了开口。结论：作者进一步阐述了支持膝关节INGCs在坐骨神经分叉处囊肿再分布的证据。他们根据间歇泉的原理，对极端INGCs（从神经外膜周围的少量囊肿[结婚戒指征]到神经旁膜下的极端INGCs[猫头鹰眼]）的发展提出了一个合乎逻辑的解释。作者认为，放射学上交叉的发生可以通过坐骨神经分叉处的神经外膜和副神经的开孔来解释，允许囊肿分两步交叉：从腹膜下到副神经下间隙（“交叉”）和在不同神经的共享的副神经下间隙之间（“过”）。最后，经常发生的神经外破裂（“划叉”）是由于囊肿通过最外层的神经环层的开口转移到软组织腔室。

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来源期刊

Journal of neurosurgery 医学-临床神经学

CiteScore

7.20

自引率

7.30%

发文量

1003

审稿时长

1 months

期刊介绍： The Journal of Neurosurgery, Journal of Neurosurgery: Spine, Journal of Neurosurgery: Pediatrics, and Neurosurgical Focus are devoted to the publication of original works relating primarily to neurosurgery, including studies in clinical neurophysiology, organic neurology, ophthalmology, radiology, pathology, and molecular biology. The Editors and Editorial Boards encourage submission of clinical and laboratory studies. Other manuscripts accepted for review include technical notes on instruments or equipment that are innovative or useful to clinicians and researchers in the field of neuroscience; papers describing unusual cases; manuscripts on historical persons or events related to neurosurgery; and in Neurosurgical Focus, occasional reviews. Letters to the Editor commenting on articles recently published in the Journal of Neurosurgery, Journal of Neurosurgery: Spine, and Journal of Neurosurgery: Pediatrics are welcome.