A silver nanowire-based flexible pressure sensor to measure the non-nutritive sucking power of neonates

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY
Jean G. de Oliveira, Tausif Muhammad, Sohee Kim
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引用次数: 5

Abstract

Preterm infants are prone to have higher risks of morbidity, disability and developmental delay compared to term infants. The primitive reflexes, inborn behaviors found in early life development, are shown to be a good tool to assess the integrity of the central nervous system of infants and to predict potential malfunctions. Among these reflexes, the non-nutritive sucking reflex plays an important role in indicating congenital abnormalities in brain development and feeding readiness, especially for premature infants. Conventionally, pediatricians evaluate the oral sucking power qualitatively based on their experiences, by using a gloved finger put inside the infant’s mouth. Thus, more quantitative solutions to assess the sucking power of preterm infants are necessary to support healthcare professionals in their evaluation procedures. Here, we developed a silver nanowire (AgNW)-based flexible pressure sensor to measure the non-nutritive sucking power of infants. The flexible sensor was fabricated using silver nanowires deposited on polydimethylsiloxane (PDMS) in a sandwich-like structure. The sensor based on the principle of strain gauge was attached to a ring-shaped connecting module, and then to a pacifier. The negative sucking pressure exerted by the infant deformed the sensor membrane, causing its electrical resistance to change without any contact between the infant’s mouth and the sensing element. The fabricated sensor was characterized and optimized to achieve both the suitable sensitivity and stability. Thanks to the excellent long-term electro-mechanical stability and high sensitivity, the developed sensor is expected to provide the means to quantitatively assess the non-nutritive sucking of infants, with a portable, low-cost, non-invasive and light-weight solution.

Abstract Image

一种基于银纳米线的柔性压力传感器,用于测量新生儿非营养性吸吮力
与足月婴儿相比,早产儿有更高的发病、残疾和发育迟缓的风险。原始反射是早期生命发育中发现的先天行为,是评估婴儿中枢神经系统完整性和预测潜在功能障碍的良好工具。在这些反射中,非营养性吸吮反射在指示大脑发育和喂养准备的先天性异常中起着重要作用,特别是对于早产儿。传统上,儿科医生根据他们的经验,用戴着手套的手指放进婴儿的嘴里,定性地评估口腔吸吮力。因此,更多的定量解决方案来评估早产儿的吸吮力是必要的,以支持医疗保健专业人员在他们的评估程序。在这里,我们开发了一种基于银纳米线(AgNW)的柔性压力传感器来测量婴儿的非营养性吸吮力。该柔性传感器采用银纳米线沉积在聚二甲基硅氧烷(PDMS)上,形成三明治状结构。基于应变计原理的传感器连接在环形连接模块上,然后连接在安抚奶嘴上。婴儿施加的负吸吮压力使传感器膜变形,使其电阻发生变化,而婴儿的嘴与传感元件之间没有任何接触。对所制备的传感器进行了表征和优化,以达到合适的灵敏度和稳定性。由于其优异的长期机电稳定性和高灵敏度,该传感器有望为定量评估婴儿非营养性吸吮提供一种便携式、低成本、无创和轻量化的解决方案。
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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来源期刊
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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