What makes a hydrogel-based dressing advantageous for the prevention of medical device-related pressure ulcers

Angela Grigatti, Amit Gefen*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

17 Scopus citations


The synergistic influences of geometrical, mechanical and thermal mismatches between a skin-contacting medical device and the skin may cause tissue stress concentrations and sharp temperature gradients, both of which contribute to the risk for medical device-related pressure ulcers. In this work, we developed an innovative, integrated experimental bioengineering approach encompassing mechanical stiffness, friction and thermal property studies for testing the biomechanical suitability of a hydrogel-based dressing in prophylaxis of injuries caused by devices. We characterised the viscoelastic stress relaxation of the dressing and determined its long-term elastic modulus. We further measured the coefficient of friction of the hydrogel-based dressing at dressing-device and skin-dressing interfaces, using a tilting-table tribometer. Lastly, we measured the thermal conductivity of the dressing, using a heat-flow meter and infrared thermography-based method. All measurements considered dry and moist conditions, the latter simulating skin perspiration effects. Our results revealed that the long-term stiffness and the thermal conductivity of the hydrogel-based dressing matched the corresponding properties of human skin for both dry and moist conditions. The dressing further demonstrated a relatively high coefficient of friction at its skin-facing and device-facing aspects, indicating minimal frictional sliding. All these properties make the above dressing advantageous for prevention of device-related injuries.

Original languageEnglish
Pages (from-to)515-530
Number of pages16
JournalInternational Wound Journal
Issue number3
StatePublished - Mar 2022


FundersFunder number
European Commission
Ministry of Science and Technology, Israel3‐17421
Horizon 2020811965


    • MDRPUs
    • friction properties
    • pressure injury
    • thermal conductivity
    • wound care


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