Risto T. Vänskä scite author profile

Out of 463 million people currently with diabetes, 232 million remain undiagnosed. Diabetes is a threat to human health, which could be mitigated via continuous self-monitoring of glucose. In addition to blood, interstitial fluid is considered to be a representative sample for glucose monitoring, which makes it highly attractive for wearable on-body sensing. However, new technologies are needed for efficient and noninvasive sampling of interstitial fluid through the skin. In this report, we introduce the use of Lorentz force and magnetohydrodynamics to noninvasively extract dermal interstitial fluid. Using porcine skin as an ex-vivo model, we demonstrate that the extraction rate of magnetohydrodynamics is superior to that of reverse iontophoresis. This work seeks to provide a safe, effective, and noninvasive sampling method to unlock the potential of wearable sensors in needle-free continuous glucose monitoring devices that can benefit people living with diabetes.

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Influence of enzyme immobilization and skin-sensor interface on non-invasive glucose determination from interstitial fluid obtained by magnetohydrodynamic extraction

Kemp¹,

Palomäki²,

Ruuth³

et al. 2022

Biosensors and Bioelectronics

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Pilot study in human healthy volunteers on the use of magnetohydrodynamics in needle-free continuous glucose monitoring

Hakala¹,

Zschaechner

Vänskä

et al. 2022

Sci Rep

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The benefits of continuous glucose monitoring (CGM) in diabetes management are extensively documented. Yet, the broader adoption of CGM systems is limited by their cost and invasiveness. Current CGM devices, requiring implantation or the use of hypodermic needles, fail to offer a convenient solution. We have demonstrated that magnetohydrodynamics (MHD) is effective at extracting dermal interstitial fluid (ISF) containing glucose, without the use of needles. Here we present the first study of ISF sampling with MHD for glucose monitoring in humans. We conducted 10 glucose tolerance tests on 5 healthy volunteers and obtained a significant correlation between the concentration of glucose in ISF samples extracted with MHD and capillary blood glucose samples. Upon calibration and time lag removal, the data indicate a Mean Absolute Relative Difference (MARD) of 12.9% and Precision Absolute Relative Difference of 13.1%. In view of these results, we discuss the potential value and limitations of MHD in needle-free glucose monitoring.

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Influence of Enzyme Immobilization and Skin-Sensor Interface on Non-Invasive Glucose Determination from Interstitial Fluid Obtained by Magnetohydrodynamic Extraction

Kemp¹,

Palomäki²,

Ruuth³

et al. 2021

SSRN Journal

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Risto T. Vänskä

Sampling of fluid through skin with magnetohydrodynamics for noninvasive glucose monitoring

Influence of enzyme immobilization and skin-sensor interface on non-invasive glucose determination from interstitial fluid obtained by magnetohydrodynamic extraction

Pilot study in human healthy volunteers on the use of magnetohydrodynamics in needle-free continuous glucose monitoring

Influence of Enzyme Immobilization and Skin-Sensor Interface on Non-Invasive Glucose Determination from Interstitial Fluid Obtained by Magnetohydrodynamic Extraction

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