Jeffrey S. Parkey scite author profile

Non-thermal plasmas (NTP) have been shown to be promising for disinfection, blood coagulation, and cutaneous wound healing applications. Unfortunately, most existing NTP technologies rely on bulky and specialized instrumentation which limits their utility for pointof-injury wound treatment. Here we discuss the fabrication of an inexpensive, compact, lightweight, battery powered, portable, and self-contained helium NTP jet device for potential applicability in burn wound treatment directly at the point-of-injury or during transport of the burn casualty to a medical facility. Using the NTP jet we demonstrate rapid inactivation of three bacterial species, two of which are implicated in causing burn wound infection. We also demonstrate that application of the NTP jet improves the rate of closure of deep partial thickness thermal burn wounds compared to untreated wounds in vitro (EpiDermFT).

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Reaction Kinetics and Combustion Dynamics of I<sub>4</sub>O<sub>9 </sub>and Aluminum Mixtures

Smith

Pantoya

Parkey

et al. 2016

JoVE

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Jeffrey S. Parkey

The water–iodine oxide system: a revised mechanism for hydration and dehydration

Development of a biofuel cell using glucose-oxidase- and bilirubin-oxidase-based electrodes

Reactive characterization of anhydrous iodine (v) oxide (I2O5) with aluminum: amorphous versus crystalline microstructures

A Battery Powered, Portable, and Self-Contained Non-Thermal Helium Plasma Jet Device for Point-of-Injury Burn Wound Treatment

Reaction Kinetics and Combustion Dynamics of I<sub>4</sub>O<sub>9 </sub>and Aluminum Mixtures

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