Gerald B. Kasting scite author profile

Non-invasive and accurate access of biomarkers remains a holy grail of the biomedical community. Human eccrine sweat is a surprisingly biomarker-rich fluid which is gaining increasing attention. This is especially true in applications of continuous bio-monitoring where other biofluids prove more challenging, if not impossible. However, much confusion on the topic exists as the microfluidics of the eccrine sweat gland has never been comprehensively presented and models of biomarker partitioning into sweat are either underdeveloped and/or highly scattered across literature. Reported here are microfluidic models for eccrine sweat generation and flow which are coupled with review of blood-to-sweat biomarker partition pathways, therefore providing insights such as how biomarker concentration changes with sweat flow rate. Additionally, it is shown that both flow rate and biomarker diffusion determine the effective sampling rate of biomarkers at the skin surface (chronological resolution). The discussion covers a broad class of biomarkers including ions (Na(+), Cl(-), K(+), NH4 (+)), small molecules (ethanol, cortisol, urea, and lactate), and even peptides or small proteins (neuropeptides and cytokines). The models are not meant to be exhaustive for all biomarkers, yet collectively serve as a foundational guide for further development of sweat-based diagnostics and for those beginning exploration of new biomarker opportunities in sweat.

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Mathematical models of skin permeability: An overview

Mitragotri

Anissimov

Bunge

et al. 2011

International Journal of Pharmaceutics

319

226

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Mathematical models of skin permeability play an important role in various fields including prediction of transdermal drug delivery and assessment of dermal exposure to industrial chemicals. Extensive research has been performed over the last several decades to yield predictions of skin permeability to various molecules. These efforts include the development of empirical approaches such as quantitative structure-permeability relationships and porous pathway theories as well as the establishment of rigorous structure-based models. In addition to establishing the necessary mathematical framework to describe these models, efforts have also been dedicated to determining the key parameters that are required to use these models. This article provides an overview of various modeling approaches with respect to their advantages, limitations and future prospects.

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A multiphase microscopic diffusion model for stratum corneum permeability. II. estimation of physicochemical parameters, and application to a large permeability database

Wang

Kasting

Nitsche

2007

Journal of Pharmaceutical Sciences

125

181

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A Multiphase Microscopic Diffusion Model for Stratum Corneum permeability. I. Formulation, Solution, and Illustrative Results for Representative Compounds

Wang

Kasting

Nitsche

2006

Journal of Pharmaceutical Sciences

140

172

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Design and performance of a spreadsheet-based model for estimating bioavailability of chemicals from dermal exposure

Dancik

Miller

Jaworska

et al. 2013

Advanced Drug Delivery Reviews

128

132

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Gerald B. Kasting

The microfluidics of the eccrine sweat gland, including biomarker partitioning, transport, and biosensing implications

Mathematical models of skin permeability: An overview

A multiphase microscopic diffusion model for stratum corneum permeability. II. estimation of physicochemical parameters, and application to a large permeability database

A Multiphase Microscopic Diffusion Model for Stratum Corneum permeability. I. Formulation, Solution, and Illustrative Results for Representative Compounds

Design and performance of a spreadsheet-based model for estimating bioavailability of chemicals from dermal exposure

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