Luca Lipani scite author profile

Currently, there is no available needle-free approach for diabetics to monitor glucose levels in the interstitial fluid. Here, we report a path-selective, non-invasive, transdermal glucose monitoring system based on a miniaturized pixel array platform (realized either by graphene-based thin-film technology, or screen-printing). The system samples glucose from the interstitial fluid via electroosmotic extraction through individual, privileged, follicular pathways in the skin, accessible via the pixels of the array. A proof of principle using mammalian skin ex vivo is demonstrated for specific and 'quantized' glucose extraction/detection via follicular pathways, and across the hypo- to hyper-glycaemic range in humans. Furthermore, the quantification of follicular and non-follicular glucose extraction fluxes is clearly shown. In vivo continuous monitoring of interstitial fluid-borne glucose with the pixel array was able to track blood sugar in healthy human subjects. This approach paves the way to clinically relevant glucose detection in diabetics without the need for invasive, finger-stick blood sampling.

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Studies on molecular properties prediction and histamine H3 receptor affinities of novel ligands with uracil-based motifs

Lipani

Odadzic

Weizel

et al. 2014

European Journal of Medicinal Chemistry

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Luca Lipani

Non-invasive, transdermal, path-selective and specific glucose monitoring via a graphene-based platform

Studies on molecular properties prediction and histamine H3 receptor affinities of novel ligands with uracil-based motifs

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