用于精确疫苗接种和药物输送的超声针导向系统

S. Aslan, Mahbubur Rahman, Sourav Das, B. Schnitta
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引用次数: 0

摘要

图像引导针头目前用于体内给药,但与调整和保持针头位置相关的额外时间导致患者不适或侵犯人体的风险增加。本文设计并分析了一种使用压电材料的针导向系统,该系统可以在不损伤身体部位的情况下精确给药,并缩短处理时间。一个压电晶体产生的超声波可以在不同的介质中传播,而另一个压电晶体可以接收该能量并将其转化为电压。一维实时图像显示了双压电晶体中电压的变化。广泛的数据分析和可视化使用不同的障碍和针的位置验证了其他介质。在这些晶体之间存在的障碍物可以在实时灰度图像中识别出来。针头可以使用该图像信息作为方向引导到达目的地。这种引导给药可以缩短患者的恢复时间,并消除由于错误的针头注射可能造成的额外伤害,例如腰椎相关的神经损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrasound Needle Guidance System for Precision Vaccinations and Drug Deliver
Image-guided needles are currently used for drug delivery in bodies, but the additional time associated with aligning and maintaining the needle’s position results in increased patient discomfort or risk of invasion of the human body. In this paper, a needle guidance system using piezoelectric materials is designed and analyzed for precise drug delivery without damaging parts of the body and improving processing time. A piezoelectric generates an ultrasound wave that can propagate through different mediums, and a second piezoelectric crystal can receive that energy and convert it into voltage. A 1D real-time image represents the changes of the voltage induced in the double piezoelectric crystal. Extensive data analysis and visualization are done using different obstacles and location of the needle verified for other mediums. The presence of obstacles in between those crystals can be identified in the real-time grayscale image. The needle can reach its destination using this image information as directional guidance. This guided drug delivery improves patient recovery time and eliminates extra injuries that can be caused due to wrong needle injections, such as lumbar puncture-related nerve damage.
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