Transdermal sensing: in-situ non-invasive techniques for monitoring of human biochemical status

Kenta Iitani, Sai Sathish Ramamurthy, Xudong Ge, Govind Rao: Transdermal sensing: in-situ non-invasive techniques for monitoring of human biochemical status. In: Curent Opinion in Biotechnology, vol. 71, pp. 198-205, 2021.

Abstract

Improving life expectancy necessitates prevention and early diagnosis of any disease state based on active self-monitoring of symptoms and longitudinal biochemical profiling. Non-invasive and continuous measurement of molecular biomarkers that reflect metabolism and health must however be established to realize this plan. Human samples non-invasively obtained via the skin are suitable in this context for in-situ biochemical monitoring. We present a brief classification of transdermal sampling in aqueous and gaseous phases and then introduce a new generation of transdermal monitoring devices for rapid and accurate assessment of important parameters. Finally, we have summarized the diversity of body-wide skin characteristics that have possible effects for transdermal sampling. Because of its passive nature, in-situ biochemical monitoring via transdermal sampling will potentially lead to a greater understanding of important biochemical markers and their temporal variation.

BibTeX (Download)

@article{Iitani2021,
title = {Transdermal sensing: in-situ non-invasive techniques for monitoring of human biochemical status},
author = {Kenta Iitani, Sai Sathish Ramamurthy, Xudong Ge, Govind Rao},
url = {https://doi.org/10.1016/j.copbio.2021.08.005},
doi = {10.1016/j.copbio.2021.08.005},
year  = {2021},
date = {2021-08-26},
journal = {Curent Opinion in Biotechnology},
volume = {71},
pages = {198-205},
abstract = {Improving life expectancy necessitates prevention and early diagnosis of any disease state based on active self-monitoring of symptoms and longitudinal biochemical profiling. Non-invasive and continuous measurement of molecular biomarkers that reflect metabolism and health must however be established to realize this plan. Human samples non-invasively obtained via the skin are suitable in this context for in-situ biochemical monitoring. We present a brief classification of transdermal sampling in aqueous and gaseous phases and then introduce a new generation of transdermal monitoring devices for rapid and accurate assessment of important parameters. Finally, we have summarized the diversity of body-wide skin characteristics that have possible effects for transdermal sampling. Because of its passive nature, in-situ biochemical monitoring via transdermal sampling will potentially lead to a greater understanding of important biochemical markers and their temporal variation.},
keywords = {transdermal sensing},
pubstate = {published},
tppubtype = {article}
}

Kenta Iitani, Ph.D.

Abstract

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