胸部超声在水下42米的可行性。

IF 3.4 Q2 Medicine
Matteo Paganini, Giuseppe Cantarella, Danilo Cialoni, Ezio Giuffrè, Gerardo Bosco
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引用次数: 0

摘要

经过近年来的发展,超声已将其应用范围从床边临床实践扩展到野外医学。在极端环境中进行超声扫描可以直接看到独特的病理生理适应,但在技术上可能具有挑战性。本文概述了如何将便携式超声设备海水化,让科学潜水员和超声医师在水下高达- 42米的地方对肺部进行超声扫描。金属外壳保护内部的超声波设备;一个带手套的正面透明面板允许潜水超声医师可视化和操作超声波。内部压力通过一个与水肺潜水类似的电路相连的压缩空气罐与环境压力平衡。最后,超声波探头通过一个密封的孔退出金属外壳。在第一步测试和实际实验之后,没有报告任何技术问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Feasibility of chest ultrasound up to 42 m underwater.

Feasibility of chest ultrasound up to 42 m underwater.

Feasibility of chest ultrasound up to 42 m underwater.

After recent advancements, ultrasound has extended its applications from bedside clinical practice to wilderness medicine. Performing ultrasound scans in extreme environments can allow direct visualization of unique pathophysiological adaptations but can be technically challenging. This paper summarizes how a portable ultrasound apparatus was marinized to let scientific divers and sonographers perform ultrasound scans of the lungs underwater up to - 42 m. A metallic case protected the ultrasound apparatus inside; a frontal transparent panel with a glove allowed visualization and operation of the ultrasound by the diving sonographer. The inner pressure was equalized with environmental pressure through a compressed air tank connected with circuits similar to those used in SCUBA diving. Finally, the ultrasound probe exited the metallic case through a sealed aperture. No technical issues were reported after the first testing step and the real experiments.

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来源期刊
Ultrasound Journal
Ultrasound Journal Health Professions-Radiological and Ultrasound Technology
CiteScore
6.80
自引率
2.90%
发文量
45
审稿时长
22 weeks
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