Nano-sensor and circuit design for anti-cancer drug detection

2011 IEEE/NIH Life Science Systems and Applications Workshop (LiSSA) Pub Date : 2011-04-07 DOI:10.1109/LISSA.2011.5754147

S. Ghoreishizadeh, C. Baj-Rossi, S. Carrara, G. De Micheli

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引用次数: 11

Abstract

The development of new technologies to monitor drugs concentration directly in patient's blood is absolutely required to succeed in personalized drug therapies. In this study, Etoposide - a well-known anti-cancer drug - has been chosen as model for cyclic voltammetry detection of drugs. Carbon nanotubes are chosen as electron-transfer mediators to enhance the system sensitivity. A very low frequency and low slope triangular-wave potential is required to acquire cyclic voltammograms. Cyclic voltammograms are definitely needed for a correct identification and quantification of the drug concentration in the patient serum. The aim of the paper is to investigate the feasibility of VLSI fully-integration of cyclic voltammetry measurements as a tool to develop a low-cost chip for drug monitoring in personalized therapy. A triangular wave generator CMOS circuit is proposed by using Direct Digital Synthesis (DDS) method. The circuit is implemented in 0.18 µm technology and it presents the possibility of changing the slope of the triangular voltage in a wide range of 10 to 100mV/s.

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抗癌药物检测纳米传感器及电路设计

开发直接监测患者血液中药物浓度的新技术是个性化药物治疗取得成功的绝对必要条件。本研究选择著名的抗癌药物依托泊苷作为循环伏安法检测药物的模型。选择碳纳米管作为电子传递介质，提高了系统的灵敏度。获得循环伏安图需要一个非常低频率和低斜率的三角波电位。循环伏安图对于正确识别和定量患者血清中的药物浓度是绝对需要的。本文的目的是研究VLSI完全集成循环伏安测量的可行性，作为开发用于个性化治疗中药物监测的低成本芯片的工具。采用直接数字合成(DDS)方法设计了一种三角波产生电路。该电路采用0.18µm技术，可以在10 ~ 100mV/s的宽范围内改变三角电压的斜率。

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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2011 IEEE/NIH Life Science Systems and Applications Workshop (LiSSA)

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