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Hydrogel based multianalyte microsensor arrays for metabolic monitoring.

机译：基于水凝胶的多分析物微传感器阵列，用于代谢监测。

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This thesis describes the design and assembly process optimization of smart hydrogel based micropressure sensor arrays used for metabolic monitoring. Surface, electrical and pressure characterizations were performed on the sensor arrays. An assembly process was developed to integrate the sensor arrays with the hydrogels. Micropressure sensor arrays with both pH sensitive hydrogels and glucose sensitive hydrogels were assembled and tested in vitro in phosphate buffered saline. Sensor arrays were also tested in vitro for stability analysis.;Response times of 10 minutes for swelling cycle and 8 minutes for shrinking cycle were obtained for pH sensitive hydrogel based sensor arrays and 11 minutes for swelling cycle and 5 minutes for shrinking cycle were obtained for glucose sensitive hydrogel based sensor arrays. Such low response times were obtained using hydrogel based pressure sensors to detect glucose for the first time to our knowledge. Sensitivities of pH sensitive hydrogel based sensors were calculated to be 220 mV/V-M, 149 mV/V-M and 62 mV/V-M for pressure sensor diaphragm sizes of 1.5 X 1.5 mm2, 1.25 X 1.25 mm2 and 1 X 1 mm2, respectively. Sensitivities for glucose sensitive hydrogel based sensors were determined as 203 mV/V-M, 213 mV/V-M and 74 mV/V-M for diaphragm sizes of 1.5 X 1.5 mm2, 1.25 X 1.25 mm 2 and 1 X 1 mm2, respectively. Stability experiments performed on the sensor arrays with pH hydrogels have been found to last for over 400 hours.

机译：本文描述了用于代谢监测的基于智能水凝胶的微压传感器阵列的设计和组装工艺的优化。在传感器阵列上进行了表面，电气和压力表征。开发了组装过程以将传感器阵列与水凝胶整合在一起。组装具有pH敏感水凝胶和葡萄糖敏感水凝胶的微压传感器阵列，并在磷酸盐缓冲液中进行体外测试。还对体外的传感器阵列进行了稳定性分析测试;基于pH值的水凝胶型传感器阵列，溶胀循环的响应时间为10分钟，收缩循环的响应时间为8分钟，溶胀循环的响应时间为11分钟，收缩循环的响应时间为5分钟基于葡萄糖敏感的水凝胶的传感器阵列。据我们所知，使用基于水凝胶的压力传感器首次检测到葡萄糖时，获得了如此低的响应时间。对于压力传感器隔膜尺寸分别为1.5 X 1.5 mm2、1.25 X 1.25 mm2和1 X 1 mm2的pH敏感的水凝胶基传感器，其灵敏度分别为220 mV / V-M，149 mV / V-M和62 mV / V-M。对于隔膜尺寸为1.5 X 1.5 mm2、1.25 X 1.25 mm 2和1 X 1 mm2的葡萄糖敏感水凝胶型传感器，其灵敏度分别确定为203 mV / V-M，213 mV / V-M和74 mV / V-M。已发现在使用pH水凝胶的传感器阵列上进行的稳定性实验可以持续超过400小时。

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作者
Avula, Mahender nath.;
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The University of Utah.;

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授予单位 The University of Utah.;
学科 Engineering Biomedical.
学位 M.S.
年度 2010
页码 97 p.
总页数 97
原文格式 PDF
正文语种 eng
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专利

1. Design considerations in the use of interdigitated microsensor electrode arrays (IMEs) for impedimetric characterization of biomimetic hydrogels [J] . Liju Yang, Adilah Guiseppi-Wilson, Anthony Guiseppi-Elie Biomedical Microdevices . 2011,第2期

机译：在使用叉指式微传感器电极阵列（IME）进行仿生水凝胶的阻抗表征时的设计注意事项
2. Hydrogel based sensor arrays (2 × 2) with perforated piezoresistive diaphragms for metabolic monitoring (in vitro) [J] . M.P. Orthner, G. Lin, M. Avula, Sensors and Actuators . 2010,第2期

机译：基于水凝胶的传感器阵列（2×2），带有穿孔的压阻膜片，用于代谢监测（体外）
3. Individually addressable electrode array for multianalyte electrochemiluminescent immunoassay based on a sequential triggering strategy [J] . Wang L., Wei W., Han J., The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry . 2012,第3期

机译：基于顺序触发策略的用于多分析物电化学发光免疫分析的可单独寻址的电极阵列
4. Biochemical microsensors on the basis of metabolically sensitive hydrogels [C] . Margarita Guenther, Gerald Gerlach, Thomas Wallmersperger, Conference on electroactive polymer actuators and devices;EAPAD . 2011

机译：基于代谢敏感水凝胶的生化微传感器
5. Portable analytical system employing tunable separation and microsensor array detection for indoor air quality monitoring. [D] . Lu, Chia-Jung. 2002

机译：便携式分析系统采用可调分离和微传感器阵列检测功能，可进行室内空气质量监测。
6. Hydrogel based sensor arrays (2 × 2) with perforated piezoresistive diaphragms for metabolic monitoring (in vitro) [O] . M.P. Orthner, G. Lin, M. Avula, -1

机译：基于水凝胶的传感器阵列（2×2）具有穿孔压阻性隔膜用于代谢监测（体外）
7. Hydrogel-Forming Microneedle Arrays Allow Detection of Drugs and Glucose In Vivo: Potential for Use in Diagnosis and Therapeutic Drug Monitoring. [O] . Ester Caffarel-Salvador, Aaron J Brady, Eyman Eltayib, 2015

机译：水凝胶形成微针阵列允许检测体内药物和葡萄糖：用于诊断和治疗药物监测的潜力。
8. Microfabricated Multianalyte Sensor Arrays for Metabolic Monitoring [R] . Pishko, M. V. 2007

机译：用于代谢监测的微加工多分析物传感器阵列

Hydrogel based multianalyte microsensor arrays for metabolic monitoring.

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