Johannes Deeg, Felix Mündel, Alexander Loizides, Leonhard Gruber, Hannes Gruber
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Individual nerve segment vascularity was compared with the mean vascularity using one-way ANOVA and Kruskal–Wallis tests, respectively. Vendor-provided quantification and manual vessel count were compared by linear regression analysis.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>Intraneural vascularity was detectable in all nerve segments (100.0%). Vessel density was highest in the median nerve at the wrist (1.54 ± 0.44/mm<sup>2</sup>, P < 0.0001) and lowest in the sulcal ulnar nerve (0.90 ± 0.34/mm<sup>2</sup>, P < 0.0001). Vendor-provided automated quantification severely overestimated vascular content compared with manual quantification.</p>\n </section>\n \n <section>\n \n <h3> Conclusion</h3>\n \n <p>Superb microvascular imaging can facilitate the visualisation of nerve vascularity and even detect local variations in vessel density. 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引用次数: 1
摘要
目的微血管环境的改变被认为是压迫性神经病发病的关键。几项研究表明,与健康受试者相比,严重神经病患者的神经内血管增高,在健康受试者中,神经内血管被认为主要无法检测到。本研究的目的是评估和量化健康志愿者在正中神经、尺神经和腓总神经的神经内血管系统。方法采用22 mhz线性换能器对26例健康志愿者(共312节段)进行SMI超声定量检测。分别使用单因素方差分析和Kruskal-Wallis检验比较单个神经节段血管密度与平均血管密度。通过线性回归分析比较供应商提供的定量和人工血管计数。结果100.0%的神经节段均可检出神经内血管。腕部正中神经血管密度最高(1.54±0.44/mm2, P < 0.0001),尺侧沟神经血管密度最低(0.90±0.34/mm2, P < 0.0001)。与人工定量相比,供应商提供的自动定量严重高估了血管含量。结论精湛的微血管成像技术可以方便地显示神经血管分布,甚至可以发现局部血管密度的变化。周围神经病变,特别是压迫性神经病的病理生理学意义值得进一步研究,但在压迫性神经病的诊断中,缺乏可见的神经内血管作为阴性发现应谨慎解释,因为神经内血管可能超过传感器的18 MHz分辨率。
Intraneural vascularity of the median, ulnar and common peroneal nerve: Microvascular ultrasound and pathophysiological implications
Objectives
Changes in the microvascular environment are considered crucial in the pathogenesis of compression neuropathies. Several studies have demonstrated elevated intraneural vascularity in severe neuropathy compared with healthy subjects, where intraneural vascularity is considered predominantly undetectable. The aim of this study was to assess and quantify intraneural vasculature by superb microvascular imaging (SMI) in healthy volunteers in the median, ulnar and common peroneal nerve.
Methods
Intraneural vascularity was quantified in 26 healthy volunteers (312 segments overall) by SMI sonography using a 22-MHz linear transducer. Individual nerve segment vascularity was compared with the mean vascularity using one-way ANOVA and Kruskal–Wallis tests, respectively. Vendor-provided quantification and manual vessel count were compared by linear regression analysis.
Results
Intraneural vascularity was detectable in all nerve segments (100.0%). Vessel density was highest in the median nerve at the wrist (1.54 ± 0.44/mm2, P < 0.0001) and lowest in the sulcal ulnar nerve (0.90 ± 0.34/mm2, P < 0.0001). Vendor-provided automated quantification severely overestimated vascular content compared with manual quantification.
Conclusion
Superb microvascular imaging can facilitate the visualisation of nerve vascularity and even detect local variations in vessel density. The pathophysiological implications for peripheral neuropathies, especially compression neuropathies, warrant further investigation, but the absence of visible intraneural vasculature as a negative finding in the diagnostic of compression neuropathies should be interpreted with caution, as the intraneural vascularity may lie beyond the 18 MHz resolution power of a transducer.
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