A wearable aptamer nanobiosensor for non-invasive female hormone monitoring

Personalized monitoring of female hormones (for example, oestradiol) is of great interest in fertility and women’s health. However, existing approaches usually require invasive blood draws and/or bulky analytical laboratory equipment, making them hard to implement at home. Here we report a skin-inte...

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Veröffentlicht in:	Nature nanotechnology 2024-03, Vol.19 (3), p.330-337
Hauptverfasser:	Ye, Cui, Wang, Minqiang, Min, Jihong, Tay, Roland Yingjie, Lukas, Heather, Sempionatto, Juliane R., Li, Jiahong, Xu, Changhao, Gao, Wei
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Sprache:	eng
Schlagworte:	631/61/350 639/166/985 639/638/11/511 639/925/930 Aptamers Biosensing Techniques Blood Chemistry and Materials Science Customization Electrodes Estradiol Female Females Fertility Gold Hormones Humans Ionic strength Iontophoresis Materials Science Menstruation Metal Nanoparticles Microfluidics Monitoring MXenes Nanoparticles Nanotechnology Nanotechnology and Microengineering Sensitivity Signal processing Skin Smartphones Sweat Wearable Electronic Devices Wearable technology Wireless communications
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container_title	Nature nanotechnology
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creator	Ye, Cui Wang, Minqiang Min, Jihong Tay, Roland Yingjie Lukas, Heather Sempionatto, Juliane R. Li, Jiahong Xu, Changhao Gao, Wei
description	Personalized monitoring of female hormones (for example, oestradiol) is of great interest in fertility and women’s health. However, existing approaches usually require invasive blood draws and/or bulky analytical laboratory equipment, making them hard to implement at home. Here we report a skin-interfaced wearable aptamer nanobiosensor based on target-induced strand displacement for automatic and non-invasive monitoring of oestradiol via in situ sweat analysis. The reagentless, amplification-free and ‘signal-on’ detection approach coupled with a gold nanoparticle-MXene-based detection electrode offers extraordinary sensitivity with an ultra-low limit of detection of 0.14 pM. This fully integrated system is capable of autonomous sweat induction at rest via iontophoresis, precise microfluidic sweat sampling controlled via capillary bursting valves, real-time oestradiol analysis and calibration with simultaneously collected multivariate information (that is, temperature, pH and ionic strength), as well as signal processing and wireless communication with a user interface (for example, smartphone). We validated the technology in human participants. Our data indicate a cyclical fluctuation in sweat oestradiol during menstrual cycles, and a high correlation between sweat and blood oestradiol was identified. Our study opens up the potential for wearable sensors for non-invasive, personalized reproductive hormone monitoring. A reagentless, wireless, wearable aptamer nanobiosensor interfaced with a gold nanoparticle-MXene-based electrode enables the selective, automatic and non-invasive analysis of the female hormone oestradiol in sweat during menstrual cycles with subpicomolar sensitivity.
doi_str_mv	10.1038/s41565-023-01513-0
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Nanotechnol</stitle><addtitle>Nat Nanotechnol</addtitle><date>2024-03-01</date><risdate>2024</risdate><volume>19</volume><issue>3</issue><spage>330</spage><epage>337</epage><pages>330-337</pages><issn>1748-3387</issn><issn>1748-3395</issn><eissn>1748-3395</eissn><abstract>Personalized monitoring of female hormones (for example, oestradiol) is of great interest in fertility and women’s health. However, existing approaches usually require invasive blood draws and/or bulky analytical laboratory equipment, making them hard to implement at home. Here we report a skin-interfaced wearable aptamer nanobiosensor based on target-induced strand displacement for automatic and non-invasive monitoring of oestradiol via in situ sweat analysis. The reagentless, amplification-free and ‘signal-on’ detection approach coupled with a gold nanoparticle-MXene-based detection electrode offers extraordinary sensitivity with an ultra-low limit of detection of 0.14 pM. 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subjects	631/61/350 639/166/985 639/638/11/511 639/925/930 Aptamers Biosensing Techniques Blood Chemistry and Materials Science Customization Electrodes Estradiol Female Females Fertility Gold Hormones Humans Ionic strength Iontophoresis Materials Science Menstruation Metal Nanoparticles Microfluidics Monitoring MXenes Nanoparticles Nanotechnology Nanotechnology and Microengineering Sensitivity Signal processing Skin Smartphones Sweat Wearable Electronic Devices Wearable technology Wireless communications
title	A wearable aptamer nanobiosensor for non-invasive female hormone monitoring
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