利用喷墨打印和选择性金属化技术制备生物阻抗传感器

R. Bernasconi, D. Meroni, A. Aliverti, L. Magagnin
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引用次数: 3

摘要

在现代工业化国家,癌症对公共卫生的重大影响正在推动新的治疗技术和诊断工具的研究。后者尤其至关重要,因为在许多情况下,及时的癌症诊断可以显著降低患者的死亡率。特别是生物阻抗组织分析,作为一种很有前途的肿瘤识别方法而受到关注。然而,生物阻抗探针的制造技术仍然不能完全适应具有成本效益的大规模生产。在这种情况下,目前的工作旨在通过喷墨打印和电解金属沉积生产一种无成本的生物阻抗传感器。用这种方法制造的探针成功地用于三种动物组织的生物阻抗测试,证明了成功区分它们的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of a Bioimpedance Sensor via Inkjet Printing and Selective Metallization
The significant incidence of cancer on public health in the modern industrialized world is pushing the research on novel therapeutic techniques and diagnosis tools. The latter, in particular, are of vital importance, since in many cases a prompt cancer diagnosis can significantly decrease patient’s mortality. Bioimpedance tissue analysis, in particular, is gaining attention as a promising methodology to identify tumor. Manufacturing technologies for bioimpedance probes are however still not completely adapt for cost effective mass production. In this context, the present work aims at producing a costless bioimpedance sensor by employing inkjet printing and electrolytic metal deposition. The probe manufactured in this way is successfully employed for bioimpedance testing of three animal tissues, demonstrating ability to successfully distinguish between them.
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