声学透镜改善浅表平面内超声引导操作——束宽伪像的意义。
Acoustic lens improves superficial in-plane ultrasound-guided procedures - The significance of the beam width artefact.
作者信息
Scholten Harm J, Hoever Yomi, van Loon Fredericus H J, Kanters Elke, Hoveling Tamara, de Wild Marco, Bouwman R Arthur, Korsten Erik H M
机构信息
Department of Anaesthesiology, Catharina Hospital, Eindhoven, the Netherlands; Department of Electrical Engineering, Eindhoven University of Technology, Eindhoven, the Netherlands.
Department of Anaesthesiology, Catharina Hospital, Eindhoven, the Netherlands; Department of Anaesthesiology, Maastricht University Medical Center, the Netherlands.
出版信息
J Clin Anesth. 2022 Jun;78:110666. doi: 10.1016/j.jclinane.2022.110666. Epub 2022 Feb 3.
STUDY OBJECTIVE
The three-dimensional shape of the ultrasound beam produces a thicker scan plane than most users assume. Viewed longitudinally, a needle placed lateral to a vessel just outside the central scanning plane can be displayed incorrectly in the ultrasound image as if placed intravascularly. This phenomenon is called the beam width artefact, also known as the elevation or slice thickness artefact. The goal of this study was to demonstrate the potential negative effect of the beam width artefact on the performance of in-plane ultrasound-guided vascular access procedures, and to provide a solution.
DESIGN
Randomized, double-blinded study SETTING: Department of anaesthesiology and intensive care of a teaching hospital PARTICIPANTS: 31 experienced (anesthesiologists and intensivists) and 36 inexperienced (anesthetic nurses) ultrasound users INTERVENTIONS: We developed an acoustic lens that narrows the scan plane to reduce the beam width artefact. The lens was tested in a simulated vascular access study.
MEASUREMENTS
The primary endpoint was first pass success. Secondary endpoints were the number of punctures and needle withdrawals, procedure time, needle visibility and operator satisfaction.
MAIN RESULTS
First pass success was highly enhanced using the acoustic lens, with a success rate of 92.5% versus 68.7% without the lens (difference 23.8, 95% confidence interval 11.0-35.3, p < 0.001). The total number of punctures needed to obtain intravenous access was also reduced using the lens (1.10 versus 1.38, difference 0.27, 95% CI 0.11-0.43, p = 0.002). Procedure time, needle withdrawals, needle visibility and satisfaction were similar. Both inexperienced and experienced users benefited from the acoustic lens.
CONCLUSIONS
The beam width artefact has a significant effect on the performance of ultrasound-guided needle-based procedures. The efficacy of in-plane superficial vascular access procedures can be enhanced by narrowing the imaging plane using an acoustic lens.
研究目的
超声束的三维形状所产生的扫描平面比大多数使用者认为的要厚。从纵向看,位于中央扫描平面外侧血管旁的穿刺针在超声图像中可能会被错误显示,就好像是位于血管内一样。这种现象被称为束宽伪像,也称为仰角或切片厚度伪像。本研究的目的是证明束宽伪像对平面内超声引导下血管穿刺操作性能的潜在负面影响,并提供一种解决方案。
设计
随机、双盲研究
地点
一家教学医院的麻醉与重症监护科
参与者
31名经验丰富的(麻醉医生和重症医生)和36名经验不足的(麻醉护士)超声使用者
干预措施
我们研发了一种声学透镜,可使扫描平面变窄以减少束宽伪像。该透镜在模拟血管穿刺研究中进行了测试。
测量指标
主要终点是首次穿刺成功。次要终点包括穿刺和退针次数、操作时间、针的可视性以及操作者满意度。
主要结果
使用声学透镜后首次穿刺成功率显著提高,成功率为92.5%,而不使用透镜时为68.7%(差值23.8,95%置信区间11.0 - 35.3,p < 0.001)。使用透镜后获得静脉通路所需的穿刺总次数也减少了(1.10对1.38,差值0.27,95%CI 0.11 - 0.43,p = 0.002)。操作时间、退针次数、针的可视性和满意度相似。经验丰富和经验不足的使用者都从声学透镜中获益。
结论
束宽伪像对超声引导下基于穿刺针的操作性能有显著影响。使用声学透镜缩小成像平面可提高平面内浅表血管穿刺操作的效果。
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