Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN)

Liyang Wang; Yingqiao Wang; Mabel Bartlett; Daniel San Roman; Gaurav Balakrishnan; Samuel Gershanok; Reem Khan; Clint Skillen; Shanae Butler; Mangesh Kulkarni; Stephen F. Badylak; Devora Cohen-Karni; Bryan Brown; Tzahi Cohen-Karni

doi:10.1126/sciadv.adv2385

Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN)

Liyang Wang, Yingqiao Wang, Mabel Bartlett, Daniel San Roman, Gaurav Balakrishnan, Samuel Gershanok, Reem Khan, Clint Skillen, Shanae Butler, Mangesh Kulkarni, Stephen F. Badylak, Devora Cohen-Karni, Bryan Brown, Tzahi Cohen-Karni^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Nitric oxide (NO) released endogenously by induced NO synthase (iNOS) in macrophages is a key regulatory biomarker for wound inflammation. Detecting NO directly on the wound bed is challenging due to its short half-life time (6 to 50 seconds), low physiological concentration (nanomolar to micromolar), and interferences in the complex wound environment. Here, we present a compliant, multiplexed, electrochemical, real-time, localized, inflammation-tracking NO sensor (MERLIN) array for in vivo spatiotemporal measurement of NO, with high sensitivity (883 ± 283 nanoamperes per micromolar per square centimeter); selectivity against nitrites (~27,900-fold), ascorbic acid (~3800-fold), and uric acid (~6900-fold); and low limit of detection (~8.00 nM). MERLIN spatiotemporally tracked NO on rat skin wounds for 7 days, and results indicated that NO peaks on day 3, in line with previously reported iNOS activity. MERLIN allows spatial mapping of the NO gradient across the wound bed, which can be used to provide diagnostic information to assist wound care.

Original language	English
Article number	eadv2385
Pages (from-to)	eadv2385
Journal	Science Advances
Volume	11
Issue number	22
DOIs	https://doi.org/10.1126/sciadv.adv2385
State	Published - 30 May 2025

Keywords

Animals
Biomarkers
Biosensing Techniques/methods
Electrochemical Techniques/methods
Inflammation/metabolism
Male
Nitric Oxide Synthase Type II/metabolism
Nitric Oxide/metabolism
Rats
Rats, Sprague-Dawley
Skin/metabolism
Wound Healing
Wounds and Injuries/metabolism

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10.1126/sciadv.adv2385

Cite this

Wang, L., Wang, Y., Bartlett, M., Roman, D. S., Balakrishnan, G., Gershanok, S., Khan, R., Skillen, C., Butler, S., Kulkarni, M., Badylak, S. F., Cohen-Karni, D., Brown, B., & Cohen-Karni, T. (2025). Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN). Science Advances, 11(22), eadv2385. Article eadv2385. https://doi.org/10.1126/sciadv.adv2385

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title = "Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN)",

abstract = "Nitric oxide (NO) released endogenously by induced NO synthase (iNOS) in macrophages is a key regulatory biomarker for wound inflammation. Detecting NO directly on the wound bed is challenging due to its short half-life time (6 to 50 seconds), low physiological concentration (nanomolar to micromolar), and interferences in the complex wound environment. Here, we present a compliant, multiplexed, electrochemical, real-time, localized, inflammation-tracking NO sensor (MERLIN) array for in vivo spatiotemporal measurement of NO, with high sensitivity (883 ± 283 nanoamperes per micromolar per square centimeter); selectivity against nitrites (~27,900-fold), ascorbic acid (~3800-fold), and uric acid (~6900-fold); and low limit of detection (~8.00 nM). MERLIN spatiotemporally tracked NO on rat skin wounds for 7 days, and results indicated that NO peaks on day 3, in line with previously reported iNOS activity. MERLIN allows spatial mapping of the NO gradient across the wound bed, which can be used to provide diagnostic information to assist wound care.",

keywords = "Animals, Biomarkers, Biosensing Techniques/methods, Electrochemical Techniques/methods, Inflammation/metabolism, Male, Nitric Oxide Synthase Type II/metabolism, Nitric Oxide/metabolism, Rats, Rats, Sprague-Dawley, Skin/metabolism, Wound Healing, Wounds and Injuries/metabolism",

author = "Liyang Wang and Yingqiao Wang and Mabel Bartlett and Roman, {Daniel San} and Gaurav Balakrishnan and Samuel Gershanok and Reem Khan and Clint Skillen and Shanae Butler and Mangesh Kulkarni and Badylak, {Stephen F.} and Devora Cohen-Karni and Bryan Brown and Tzahi Cohen-Karni",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 The Authors, some rights reserved.",

year = "2025",

month = may,

day = "30",

doi = "10.1126/sciadv.adv2385",

language = "English",

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Wang, L, Wang, Y, Bartlett, M, Roman, DS, Balakrishnan, G, Gershanok, S, Khan, R, Skillen, C, Butler, S, Kulkarni, M, Badylak, SF, Cohen-Karni, D, Brown, B & Cohen-Karni, T 2025, 'Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN)', Science Advances, vol. 11, no. 22, eadv2385, pp. eadv2385. https://doi.org/10.1126/sciadv.adv2385

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T1 - Wound state monitoring by multiplexed, electrochemical, real-time, localized, inflammation-tracking nitric oxide sensor (MERLIN)

AU - Wang, Liyang

AU - Wang, Yingqiao

AU - Bartlett, Mabel

AU - Roman, Daniel San

AU - Balakrishnan, Gaurav

AU - Gershanok, Samuel

AU - Khan, Reem

AU - Skillen, Clint

AU - Butler, Shanae

AU - Kulkarni, Mangesh

AU - Badylak, Stephen F.

AU - Cohen-Karni, Devora

AU - Brown, Bryan

AU - Cohen-Karni, Tzahi

PY - 2025/5/30

Y1 - 2025/5/30

N2 - Nitric oxide (NO) released endogenously by induced NO synthase (iNOS) in macrophages is a key regulatory biomarker for wound inflammation. Detecting NO directly on the wound bed is challenging due to its short half-life time (6 to 50 seconds), low physiological concentration (nanomolar to micromolar), and interferences in the complex wound environment. Here, we present a compliant, multiplexed, electrochemical, real-time, localized, inflammation-tracking NO sensor (MERLIN) array for in vivo spatiotemporal measurement of NO, with high sensitivity (883 ± 283 nanoamperes per micromolar per square centimeter); selectivity against nitrites (~27,900-fold), ascorbic acid (~3800-fold), and uric acid (~6900-fold); and low limit of detection (~8.00 nM). MERLIN spatiotemporally tracked NO on rat skin wounds for 7 days, and results indicated that NO peaks on day 3, in line with previously reported iNOS activity. MERLIN allows spatial mapping of the NO gradient across the wound bed, which can be used to provide diagnostic information to assist wound care.

AB - Nitric oxide (NO) released endogenously by induced NO synthase (iNOS) in macrophages is a key regulatory biomarker for wound inflammation. Detecting NO directly on the wound bed is challenging due to its short half-life time (6 to 50 seconds), low physiological concentration (nanomolar to micromolar), and interferences in the complex wound environment. Here, we present a compliant, multiplexed, electrochemical, real-time, localized, inflammation-tracking NO sensor (MERLIN) array for in vivo spatiotemporal measurement of NO, with high sensitivity (883 ± 283 nanoamperes per micromolar per square centimeter); selectivity against nitrites (~27,900-fold), ascorbic acid (~3800-fold), and uric acid (~6900-fold); and low limit of detection (~8.00 nM). MERLIN spatiotemporally tracked NO on rat skin wounds for 7 days, and results indicated that NO peaks on day 3, in line with previously reported iNOS activity. MERLIN allows spatial mapping of the NO gradient across the wound bed, which can be used to provide diagnostic information to assist wound care.

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KW - Electrochemical Techniques/methods

KW - Inflammation/metabolism

KW - Male

KW - Nitric Oxide Synthase Type II/metabolism

KW - Nitric Oxide/metabolism

KW - Rats

KW - Rats, Sprague-Dawley

KW - Skin/metabolism

KW - Wound Healing

KW - Wounds and Injuries/metabolism

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DO - 10.1126/sciadv.adv2385

M3 - Article

C2 - 40435247

AN - SCOPUS:105007122027

SN - 2375-2548

VL - 11

SP - eadv2385

JO - Science Advances

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