Flexible pH‐Sensing Hydrogel Fibers for Epidermal Applications

Tamayol, Ali; Akbari, Mohsen; Zilberman, Yoram; Comotto, Mattia; Lesha, Emal; Serex, Ludovic; Bagherifard, Sara; Chen, Yu; Fu, Guoqing; Ameri, Shideh Kabiri; Ruan, Wenjie; Miller, Eric L.; Dokmeci, Mehmet R.; Sonkusale, Sameer; Khademhosseini, Ali

doi:10.1002/adhm.201500553

Cited by 181 publications

(154 citation statements)

References 34 publications

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“…Unlike previous approaches that directly tested the wound environment, we have documented the ability to measure and create a visual map of the pH environment on the wound contacting side of discarded wound dressings to identify the state of healing and a window into the short-term healing outcome based on the alkalinity level. [52][53][54] This approach offers a number of advantages. First, it is noninvasive and does not involve any direct contact with the patient.…”

Section: Discussionmentioning

confidence: 99%

A Device to Predict Short-Term Healing Outcome of Chronic Wounds

Tran

Pal

et al. 2020

Advances in Wound Care

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Objective: While myriads of studies have suggested that a survey of wound pH environment could indicate wound healing activities, it is not clear whether wound alkalinity can be used as a prognostic indicator of nonhealing wounds. Currently available systems cannot reliably assess the pH environment across wounds, which is the objective of this study. Approach: A disposable device, DETEC Ò pH, was developed and characterized on its ability to map wound alkalinity by pressing a freshly recovered wound dressing against its test surface. By comparing the wound's alkalinity and size reduction rates (*7 days) following pH measurement, we assessed the capability of wound alkalinity to prognosticate subsequent short-term wound size reduction rates. Results: The device had high accuracy and specificity in determining the alkalinity of simulated wound fluids soaked onto wound dressing. The type of wound dressing type had an insignificant effect on its detection sensitivity. Upon testing discarded wound dressings from human patients, the device quickly determined alkaline and acidic wounds. Finally, statistical analyses of wound size reduction rates in wounds with various alkalinities confirmed that wound alkalinity has a strong influence on, at least, short-term wound healing activity. Innovation: Without directly contacting the patient, this device provides a quick assessment of wound alkalinity to prognosticate immediate and short-term wound healing activities. Conclusion: DETEC Ò pH may serve as a prognosis device for wound care specialists during routine wound assessment to predict wound healing progress. This information can assist the decision-making process in a clinical setting and augur well for chronic wound treatment. DETEC Ò pH can also be used as an aid for home health care nurses or health care providers to screen nonhealing wounds outside clinics.

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Section: Discussionmentioning

confidence: 99%

A Device to Predict Short-Term Healing Outcome of Chronic Wounds

Tran

Pal

et al. 2020

Advances in Wound Care

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“…In another report, a flexible pH electrochemical sensor array was developed on polyaniline, and it showed a linear dynamic range of pH from 4–10 [57]. Recently, a flexible hydrogel fiber-based dressing has been developed for monitoring pH during wound healing [58]. In this study, mesoporous microparticles loaded with pH sensitive dyes were incorporated into flexible hydrogel fibers via spin coating.…”

Section: Wearable Devices For Personalized Healthcare Monitoringmentioning

confidence: 99%

“…Smartphone and computer-based wireless electronics have been tethered with wearable devices to acquire sensing signals, analyze data, and report and transfer clinical results for POC applications [58, 65–70]. For example, a wearable biosensor attached to tooth enamel was recently developed for detection of bacteria in saliva (Figure 4C) [71].…”

Section: Wireless Communication For Wearable Devicesmentioning

confidence: 99%

Flexible Substrate-Based Devices for Point-of-Care Diagnostics

Wang

Chinnasamy

Lifson

et al. 2016

Trends in Biotechnology

188

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Point-of-care (POC) diagnostics play an important role in delivering healthcare, particularly for clinical management and disease surveillance in both developed and developing countries. Currently, the majority of POC diagnostics utilize paper substrates owing to their affordability, disposability, and mass production capability. Recently, flexible polymer substrates have been investigated due to their enhanced physicochemical properties, potential to be integrated into wearable devices with wireless communications for personalized health monitoring, and ability to be customized for POC diagnostics. Here, we focus on the latest advances in developing flexible substrate-based diagnostic devices, including paper and polymers, and their clinical applications at the POC.

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“…Over the past years, apart from developing advanced biomaterials for promoting wound healing, there are growing evidences to suggest that the determination of surface pH value for wound in nonhealing condition or infection status is of paramount importance in preventing exacerbations, and is also helpful for therapeutic interventions in wound care. To date, various systems have been constructed for the realization of monitoring pH that was related to wound status, such as dye immobilization technique, micromachined‐based transducer, and screen‐printed pH potentiometric sensor or voltammetric sensor . Although these wound pH sensors fabricated on the basis of electrochemical or colorimetric performances are acceptable with respect to accuracy and sensitivity, each detection system is not perfect.…”

Section: Introductionmentioning

confidence: 99%

Orange‐Emissive Carbon Quantum Dots: Toward Application in Wound pH Monitoring Based on Colorimetric and Fluorescent Changing

Yang

Zhu

Zhang

et al. 2019

Small

152

119

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Monitoring of wound pH is critical for interpreting wound status, because early identification of wound infection or nonhealing wounds is conducive to administion of therapies at the right time. Here, novel orange‐emissive carbon quantum dots (O‐CDs) are synthesized via microwave‐assisted heating of 1,2,4‐triaminobenzene and urea aqueous solution. The as‐prepared O‐CDs exhibit distinctive colorimetric response to pH changing, and also display pH‐sensitive fluorescence. Benefiting from the response of O‐CDs over a wound‐relevant pH range (5–9), medical cotton cloth is selected to immobilize O‐CDs through hydrogen bond interactions, the resultant O‐CDs‐coated cloth with emission at 560 nm shows a high response to pH variation in the range of 5–9 via both fluorescence and visible colorimetric changes. Moreover, the sensitivity of fluorescence to pH is capable of establishing an analytical mode for determining pH value. Further, the O‐CDs‐based pH indicator possesses not only superior biocompatibility and drug compatibility but also excellent resistance leachability and high reversibility. Importantly, the usage of O‐CDs‐coated cloth to detect pH is free from the interference of blood contamination and long‐term storage, thus providing a valuable strategy for wound pH monitoring through visual response and quantitative determination.

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Flexible pH‐Sensing Hydrogel Fibers for Epidermal Applications

Cited by 181 publications

References 34 publications

A Device to Predict Short-Term Healing Outcome of Chronic Wounds

A Device to Predict Short-Term Healing Outcome of Chronic Wounds

Flexible Substrate-Based Devices for Point-of-Care Diagnostics

Orange‐Emissive Carbon Quantum Dots: Toward Application in Wound pH Monitoring Based on Colorimetric and Fluorescent Changing

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