2024
DOI: 10.1016/j.nanoms.2023.11.009
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Nanomaterial-assisted wearable glucose biosensors for noninvasive real-time monitoring: Pioneering point-of-care and beyond

Moein Safarkhani,
Abdullah Aldhaher,
Golnaz Heidari
et al.
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Cited by 13 publications
(5 citation statements)
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“…Moreover, using nanoparticles to enhance sensitivity to light is an innovative approach to non-invasive glucose control [ 121 ]. Theoretical nanoparticles, intended for intravenous delivery and activation using precise light wavelengths, have the potential to stimulate insulin production.…”
Section: Another Possible Mechanismmentioning
confidence: 99%
“…Moreover, using nanoparticles to enhance sensitivity to light is an innovative approach to non-invasive glucose control [ 121 ]. Theoretical nanoparticles, intended for intravenous delivery and activation using precise light wavelengths, have the potential to stimulate insulin production.…”
Section: Another Possible Mechanismmentioning
confidence: 99%
“…622 For efficient management of diabetes, nanosensors can be injected into the skin or can be used as a wearable device for continuous glucose monitoring. 623,624 . 622 For efficient management of diabetes, nanosensors can be injected into the skin or can be used as a wearable device for continuous glucose monitoring.…”
Section: Nanosensors In Cancermentioning
confidence: 99%
“…622 For efficient management of diabetes, nanosensors can be injected into the skin or can be used as a wearable device for continuous glucose monitoring. 623,624 Nanosensors are also being developed that can perform metabolite detection from bodily fluids such as sweat, blood, urine, plasma, etc. 625,626 Nanofabricated sensors can also be implanted in eyes to monitor intraocular pressure which can be important for managing conditions such as glaucoma.…”
Section: Nanosensors In Cancermentioning
confidence: 99%
“…The human brain achieves complex computations and intelligent behaviors through the regulation of ion transport in the ion channels of neuronal cells, utilizing ionic information carriers, which is a major difference between the brain neural network and electronic circuits in terms of the underlying mechanisms of information processing. This understanding provides new insights for the development of bioinspired nanofluidic iontronics that employ ion-based nanochannels to emulate functions of biological neural networks, such as action potential spikes and synaptic memory, based on ion signals.…”
Section: Introductionmentioning
confidence: 99%