Amy Liao scite author profile

When pressure is applied to a localized area of the body for an extended time, the resulting loss of blood flow and subsequent reperfusion to the tissue causes cell death and a pressure ulcer develops. Preventing pressure ulcers is challenging because the combination of pressure and time that results in tissue damage varies widely between patients, and the underlying damage is often severe by the time a surface wound becomes visible. Currently, no method exists to detect early tissue damage and enable intervention. Here we demonstrate a flexible, electronic device that non-invasively maps pressure-induced tissue damage, even when such damage cannot be visually observed. Using impedance spectroscopy across flexible electrode arrays in vivo on a rat model, we find that impedance is robustly correlated with tissue health across multiple animals and wound types. Our results demonstrate the feasibility of an automated, non-invasive 'smart bandage' for early detection of pressure ulcers.

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Inkjet‐Printed Flexible Gold Electrode Arrays for Bioelectronic Interfaces

Khan

Pavinatto

Lin

et al. 2015

Adv Funct Materials

147

101

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. Utilizing the versatility of printing and plastic electronic processes, electrode arrays consisting of 31 electrodes with electrode-to-electrode spacing ranging from 2 to 7 mm are fabricated and used for impedance mapping of conformal surfaces at 15 kHz. Overall, the fabrication process of an inkjet-printed gold electrode array that is electrically reproducible, mechanically robust, and promising for bioimpedance and biopotential measurements is demonstrated.

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FEV₁ reversibility for asthma diagnosis: a critical evaluation

Liao

D’Urzo

2018

Expert Review of Respiratory Medicine

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Impedance sensing device for monitoring ulcer healing in human patients

Liao

Lin

Ritz

et al. 2015

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Chronic skin wounds affect millions of people each year and take billions of dollars to treat. Ulcers are a type of chronic skin wound that can be especially painful for patients and are tricky to treat because current monitoring solutions are subjective. We have developed an impedance sensing tool to objectively monitor the progression of healing in ulcers, and have begun a clinical trial to evaluate the safety and feasibility of our device to map damaged regions of skin. Impedance data has been collected on five patients with ulcers, and impedance was found to correlate with tissue health. A damage threshold was applied to effectively identify certain regions of skin as "damaged tissue".

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Integrating coupled magnetoelastic sensors onto a flexible hernia mesh for high dynamic range strain measurements

Liao

Harris²,

Maharbiz

2017

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Despite better performance over primary repairs, tension-free ventral hernia repairs with mesh still suffer from a high recurrence rate. High stress gradients in the mesh are thought to contribute to hernia recurrence. We propose a postoperative monitoring system based on a coupled pair of magnetoelastic strain sensors to enable patients and physicians to non-invasively measure and track the strain distribution across the hernia mesh. Our design combines an encased resonator with a spring-loaded transducer to achieve high signal amplitude with a wide dynamic range. We also demonstrate a fabrication protocol to integrate the resonant strain sensors with a commercial polypropylene mesh. The packaged sensor is capable of detecting up to 37.5 millistrain, an order of magnitude greater than previously demonstrated.

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Amy Liao

Impedance sensing device enables early detection of pressure ulcers in vivo

Inkjet‐Printed Flexible Gold Electrode Arrays for Bioelectronic Interfaces

FEV₁ reversibility for asthma diagnosis: a critical evaluation

Impedance sensing device for monitoring ulcer healing in human patients

Integrating coupled magnetoelastic sensors onto a flexible hernia mesh for high dynamic range strain measurements

Contact Info

Product

Resources

About

Amy Liao

Impedance sensing device enables early detection of pressure ulcers in vivo

Inkjet‐Printed Flexible Gold Electrode Arrays for Bioelectronic Interfaces

FEV1 reversibility for asthma diagnosis: a critical evaluation

Impedance sensing device for monitoring ulcer healing in human patients

Integrating coupled magnetoelastic sensors onto a flexible hernia mesh for high dynamic range strain measurements

Contact Info

Product

Resources

About

FEV₁ reversibility for asthma diagnosis: a critical evaluation