Computed Tomographic Characterization for Basivertebral Nerve Ablation Utilizing a Radiofrequency Multitined Expandable Electrode.

IF 1.3 Q4 ENGINEERING, BIOMEDICAL
Medical Devices-Evidence and Research Pub Date : 2024-09-17 eCollection Date: 2024-01-01 DOI:10.2147/MDER.S487201
Dawood Sayed, Douglas P Beall, Amitabh Gulati, Eric Hyman, Jon E Block
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引用次数: 0

Abstract

Background: A growing body of clinical evidence has demonstrated that intraosseous minimally invasive basivertebral nerve (BVN) ablation results in significant and durable improvements in vertebrogenic back pain. Thus, it is important to develop, refine and validate new and additional devices to accomplish this procedure.

Methods: Using reconstructions of 31 patient computed tomography (CT) scans of the lumbosacral spine (L1-S1), the primary objective was to simulate the intravertebral placement of a novel multitined expandable electrode in bipolar configuration at the targeted ablation site and determine if the proper trajectories could be achieved in order for the device tips to be in the correct position for lesion formation at the BVN plexus. Successful device deployment required that the distance between tips was between 10 mm and 20 mm.

Results: The mean distances between device tips ranged from 11.35 mm (L5) to 11.87 mm (L3), and there were no statistically significance differences across the six vertebral levels (F = 0.72, p = 0.61). The percentage of successful intraosseous device placements within the tip distance acceptable range (≥ 10 mm to ≤ 20 mm) was 90% (162 of 180), with no tip-to-tip distances > 20 mm. There was a notable association between decreasing vertebral level and mean degree of angulation between contralateral devices ranging from 50.90° at L1 to 91.51° at S1, and the difference between across the six vertebral levels was significant (F = 89.5, p < 0.01).

Conclusion: Feasibility evidence is provided from real world CT imaging data that validates using the multitined electrode for proper intraosseous placement within the vertebral body to effectively ablate the BVN plexus.

利用射频多列可扩张电极进行椎基底神经消融的计算机断层扫描特征描述
背景:越来越多的临床证据表明,骨内微创椎基底神经(BVN)消融术可显著、持久地改善椎源性背痛。因此,开发、改进和验证新的和更多的设备来完成这一手术非常重要:方法:利用 31 位患者腰骶椎(L1-S1)的计算机断层扫描(CT)重建,主要目的是模拟在目标消融部位放置双极配置的新型多列可扩张电极的椎管内位置,并确定是否可以实现适当的轨迹,以便使设备尖端位于 BVN 神经丛病变形成的正确位置。成功的装置部署要求尖端之间的距离在 10 毫米到 20 毫米之间:装置尖端之间的平均距离从 11.35 毫米(L5)到 11.87 毫米(L3)不等,六个椎体水平之间的差异无统计学意义(F = 0.72,p = 0.61)。在针尖距离可接受范围内(≥ 10 毫米至≤ 20 毫米)成功植入骨内装置的比例为 90%(180 例中的 162 例),没有针尖到针尖距离大于 20 毫米的情况。椎体水平的下降与对侧装置之间的平均成角度之间存在明显的关联,从 L1 的 50.90°到 S1 的 91.51°,六个椎体水平之间的差异显著(F = 89.5,p < 0.01):结论:真实世界的 CT 成像数据提供了可行性证据,验证了使用多线电极在椎体内进行适当的骨内置入可有效消融 BVN 神经丛。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Medical Devices-Evidence and Research
Medical Devices-Evidence and Research ENGINEERING, BIOMEDICAL-
CiteScore
2.80
自引率
0.00%
发文量
41
审稿时长
16 weeks
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