Simultaneous lancet-free monitoring of alcohol and glucose from low-volumes of perspired human sweat

Bhide, Ashlesha; Muthukumar, Sriram; Saini, Amreek; Prasad, Shalini

doi:10.1038/s41598-018-24543-4

Cited by 65 publications

(49 citation statements)

References 30 publications

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“…4B ), with calibration curve inset, and shown to have an even wider range of sensitive detection in fig. S2 to accommodate expected sweat alcohol levels ( 36 , 37 ). The zinc sensor is tested in 0.001 M acetate buffer solutions of zinc (0, 400, 800, 1200, 1600, and 2000 μg/liter; Fig.…”

Section: Resultsmentioning

confidence: 99%

Glove-based sensors for multimodal monitoring of natural sweat

et al. 2020

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Sweat sensors targeting exercise or chemically induced sweat have shown promise for noninvasive health monitoring. Natural thermoregulatory sweat is an attractive alternative as it can be accessed during routine and sedentary activity without impeding user lifestyles and potentially preserves correlations between sweat and blood biomarkers. We present simple glove-based sensors to accumulate natural sweat with minimal evaporation, capitalizing on high sweat gland densities to collect hundreds of microliters in just 30 min without active sweat stimulation. Sensing electrodes are patterned on nitrile gloves and finger cots for in situ detection of diverse biomarkers, including electrolytes and xenobiotics, and multiple gloves or cots are worn in sequence to track overarching analyte dynamics. Direct integration of sensors into gloves represents a simple and low-overhead scheme for natural sweat analysis, enabling sweat-based physiological monitoring to become practical and routine without requiring highly complex or miniaturized components for analyte collection and signal transduction.

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Section: Resultsmentioning

confidence: 99%

Glove-based sensors for multimodal monitoring of natural sweat

et al. 2020

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“…[183][184][185] The research interest is mainly focused on the improvement of sensitivity, selectivity, adaptation to skin, and comfortability. [13,186] For example, Kim et al reported a stretchable diabetes monitoring patch consisting of an electrochemical glucose sensor and pH sensor (Figure 8a). [174] They innovated Ag doped graphene to improve the electrochemical sensitivity.…”

Section: Sweat Sensorsmentioning

confidence: 99%

Soft Electronics for the Skin: From Health Monitors to Human–Machine Interfaces

Rao

Ershad

Almasri

et al. 2020

Adv Materials Technologies

105

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Conventional bulky and rigid electronics prevent compliant interfacing with soft human skin for health monitoring and human–machine interaction, due to the incompatible mechanical characteristics. To overcome the limitations, soft skin‐mountable electronics with superior mechanical softness, flexibility, and stretchability provide an effective platform for intimate interaction with humans. In addition, soft electronics offer comfortability when worn on the soft, curvilinear, and dynamic human skin. Herein, recent advances in soft electronics as health monitors and human–machine interfaces (HMIs) are briefly discussed. Strategies to achieve softness in soft electronics including structural designs, material innovations, and approaches to optimize the interface between human skin and soft electronics are briefly reviewed. Characteristics and performances of soft electronic devices for health monitoring, including temperature sensors, pressure sensors for pulse monitoring, pulse oximeters, electrophysiological sensors, and sweat sensors, exemplify their wide range of utility. Furthermore, the soft electronic devices for prosthetic limb, household object, mobile machine, and virtual object control are presented to highlight the current and potential implementations of soft electronics for a broad range of HMI applications. Finally, the current limitations and future opportunities of soft skin‐mountable electronics are also discussed.

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“…Sensing was achieved from perspired human sweat at low volumes (1-3 μL), without external stimulation. Zinc oxide thin-film electrodes were surface functionalized with AOx, and alcohol monitoring was made by measuring impedance changes onto the sensor interface with a dynamic range between 0.01 and 200 mg dL −1 , with an LOD value of 0.01 mg dL −1 ethanol [39]. Electrochemical instruments for health monitoring using smartphones or similar devices have arisen in recent years.…”

Section: Organic Toxics: Alcoholmentioning

confidence: 99%

What Electrochemical Biosensors Can Do for Forensic Science? Unique Features and Applications

et al. 2019

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This article critically discusses the latest advances in the use of voltammetric, amperometric, potentiometric, and impedimetric biosensors for forensic analysis. Highlighted examples that show the advantages of these tools to develop methods capable of detecting very small concentrations of analytes and provide selective determinations through analytical responses, without significant interferences from other components of the samples, are presented and discussed, thus stressing the great versatility and utility of electrochemical biosensors in this growing research field. To illustrate this, the determination of substances with forensic relevance by using electrochemical biosensors reported in the last five years (2015–2019) are reviewed. The different configurations of enzyme or affinity biosensors used to solve analytical problems related to forensic practice, with special attention to applications in complex samples, are considered. Main prospects, challenges to focus, such as the fabrication of devices for rapid analysis of target analytes directly on-site at the crime scene, or their widespread use and successful applications to complex samples of interest in forensic analysis, and future efforts, are also briefly discussed.

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Simultaneous lancet-free monitoring of alcohol and glucose from low-volumes of perspired human sweat

Cited by 65 publications

References 30 publications

Glove-based sensors for multimodal monitoring of natural sweat

Glove-based sensors for multimodal monitoring of natural sweat

Soft Electronics for the Skin: From Health Monitors to Human–Machine Interfaces

What Electrochemical Biosensors Can Do for Forensic Science? Unique Features and Applications

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