[Intraoperative magnet in removal of intracerebral metallic foreign bodies].

Q4 Medicine

Zhurnal voprosy neirokhirurgii imeni N. N. Burdenko Pub Date : 2024-01-01 DOI:10.17116/neiro20248805146

R S Martynov, A V Stanishevskiy, A E Chistyakov, D E Alekseev, K N Babichev, N K Vasilyeva, D V Svistov

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引用次数: 0

Abstract

Background: Advisability of magnets in neurotrauma is due to pattern of patients admitted to neurosurgical departments of military hospitals with wounds accompanied by intracranial fixation of foreign metallic ferromagnetic bodies.

Objective: To study dimensions, mass and magnetic properties of fragments extracted from gunshot wounds inflicted by modern weapons; to assess the feasibility of devices and instruments for removing foreign bodies.

Material and methods: We analyzed foreign bodies extracted after gunshot wounds. Shape, dimension, weight and magnetic properties were studied. We estimated 532 foreign bodies (497 surgeries) extracted at the Kirov Military Medical Academy and 83 foreign bodies (79 surgeries) extracted at the Burdenko Military Clinical Hospital. Distribution by anatomical regions was established for both groups. We intraoperatively used cylindrical neodymium magnets 3×20 and 5×20 mm to extract magnetic foreign bodies. These magnets were brought to the target using standard surgical tweezers or original devices.

Results: The median mass of removed fragments was 0.385 (Q₁-Q₃=0.12-1.435; min-max≤0.01-30.5) g at the Kirov Military Medical Academy and 0.4 (Q₁-Q₃≤0.001-1.6; min-max≤0.01-11.4) g at the Burdenko Military Clinical Hospital. Magnetic foreign bodies were found in 501 (94.2%) and 74 (94.8%) cases, respectively. In 8.8% of cases, foreign bodies were not removed due to difficult-to-reach location accompanied by higher risk of adverse outcomes after extraction.

Conclusion: Extracted foreign bodies after combat injuries have magnetic properties in 94% of cases. Intraoperative magnet allows for safe extraction of fragments in 91% of cases. Devices with adjustable magnetic field strength seem perspective. Further analysis of indications for removal of wounding projectiles in primary and, especially, repeated surgical treatment of craniocerebral wounds is needed.

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[清除脑内金属异物的术中磁铁]。

背景：磁铁在神经创伤中的可取性是由于军队医院神经外科收治的病人中，有不少人的伤口伴有颅内固定的金属铁磁性异物：研究从现代武器造成的枪伤中取出的碎片的尺寸、质量和磁性；评估取出异物的装置和仪器的可行性：我们对枪伤后提取的异物进行了分析。研究了异物的形状、尺寸、重量和磁性。我们估算了基洛夫军事医学院提取的 532 个异物（497 例手术）和布尔登科军事临床医院提取的 83 个异物（79 例手术）。两组异物均按解剖区域分布。我们在术中使用 3×20 和 5×20 毫米的圆柱形钕磁铁提取磁性异物。使用标准手术镊子或原始装置将这些磁铁带到目标位置：基洛夫军事医学科学院取出的碎片质量中位数为 0.385（Q1-Q3=0.12-1.435；最小-最大≤0.01-30.5）克，布尔登科军事临床医院取出的碎片质量中位数为 0.4（Q1-Q3≤0.001-1.6；最小-最大≤0.01-11.4）克。发现磁性异物的病例分别为 501 例（94.2%）和 74 例（94.8%）。8.8%的病例因异物位置难以触及而未取出，且取出后出现不良后果的风险较高：结论：在 94% 的病例中，战伤后取出的异物具有磁性。在 91% 的病例中，术中磁铁可安全取出碎片。可调节磁场强度的设备似乎很有前景。需要进一步分析在颅脑创伤的初次手术治疗，尤其是重复手术治疗中取出创口碎片的适应症。

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

Zhurnal voprosy neirokhirurgii imeni N. N. Burdenko Medicine-Neurology (clinical)

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： Scientific and practical peer-reviewed journal. This publication covers the theoretical, practical and organizational problems of modern neurosurgery, the latest advances in the treatment of various diseases of the central and peripheral nervous system. Founded in 1937. English version of the journal translates from Russian version since #1/2013.