A smart multifunctional wound dressing for continuous monitoring and treatment of chronic injuries

Principal Investigator: 
University: 
University of Victoria
Department: 
Department of Mechanical Engineering

Wound management is a major global challenge and poses a significant financial burden to the healthcare system due to the rapid growth of chronic diseases such as diabetes, obesity, and aging population. The ability to detect pathogenic infections and release drug at the wound site is of the utmost importance to expedient patient care. We recently developed an advanced multifunctional dressing (GelDerm) capable of colorimetric measurement of bacterial infection and release of antibiotic agents at the wound site. We demonstrated the ability of GelDerm to detect bacterial infections using in vitro, ex vivo, and small animal tests with accuracies comparable to the commercially available systems.

Wireless interfaces to digital image capture hardware such as smartphones were used as a means for quantitation and enable the patient to record the wound condition at home and relay the information to the healthcare personnel for following treatment strategies. Additionally, we showed the ability of GelDerm to eradicate bacteria by the sustained release of antibiotics.

In this I2C application, we propose to support the commercialization of GelDerm through

  1. developing a multi-nozzle automated dispensing system as a scale-up manufacturing methodology for producing high volumes of GelDerm,
  2. developing a sterile packaging strategy for long-term storage of GelDerm and
  3. performing preclinical safety and performance studies in porcine model.
     
Host Institution: 
University of Victoria
Research Location: 
University of Victoria
Year: 
2019