A wound dressing for wireless communication with a transceiver includes a radio-frequency antenna circuit disposed on a flexible substrate, and an electrochemical moisture sensor circuit disposed on a surface of the flexible substrate. An adhesive is provided to attach the wound dressing skin of a user. The electrochemical moisture sensor is arranged between the adhesive and the flexible substrate.

In some embodiments, a wound dressing that incorporates a number of sensors or sensors separate from the wound dressing can be utilized in order to monitor characteristics of a wound as it heals or to identify one or more risk factors or conditions that may precipitate a wound. In some implementations, a wound dressing configured to be positioned in contact with a wound includes a substantially flexible substrate supporting one or more sensors. The one or more sensors can include temperature sensors, conductivity sensors, multispectral optical measurements sensors, pH sensors, pressure sensors, colorimetric sensors, optical sensors, ultraviolet (UV) sensors, or infrared (IR) sensors.

A wound dressing for wireless communication with a transceiver includes a radio-frequency antenna circuit disposed on a flexible substrate, and an electrochemical moisture sensor circuit disposed on a surface of the flexible substrate. An adhesive is provided to attach the wound dressing skin of a user. The electrochemical moisture sensor is arranged between the adhesive and the flexible substrate.

A wound dressing for wireless communication with a transceiver includes a radio-frequency antenna circuit disposed on a flexible substrate, and an electrochemical moisture sensor circuit disposed on a surface of the flexible substrate. An adhesive is provided to attach the wound dressing skin of a user. The electrochemical moisture sensor is arranged between the adhesive and the flexible substrate.

A wound monitoring and/or therapy apparatus can include multiple sensor circuits, a selection circuit coupled to each sensor circuit, and a processor configured to be in communication with the selection circuit. Each sensor circuit can process multiple sensor signals to generate a single output signal from the multiple sensor signals. Each of the sensor signals can correspond to a measurement of a sensor positioned on a substrate that is configured to be positioned at least partially in a wound. The selection circuit can receive the single output signals from the sensor circuits and outputs a selected single output signal. The processor can receive the selected single output signal and decomposes the selected signal output signal into the multiple sensor signals used to generate the selected single output signal. The processor can activate sensors and receive sensor data from the sensors. The processor can digitize the sensor data and transmit the digitized sensor data to a remote controller.

A Wound Moisture and Assessment System includes a flexible coupon containing one or more electrochemical moisture sensors for measuring a moisture profile of a wound. The coupon is activated by a wireless RF scanner that provides power to the coupon for taking moisture measurements, receives the moisture measurements therefrom, and transmits the measurements to a computing device. The moisture measurements can be represented as a wound moisture map that allows a patient or caregiver to assess the health and healing progress of a wound such as an ulcer.

A wound dressing that incorporates a number of sensors can be utilized in order to monitor characteristics of a wound as it heals or to identify one or more risk factors or conditions that may precipitate a wound. The wound dressing can include at least one sensor, such as an impedance sensor, that may be restricted from sensing in a direction away from the wound when the wound dressing is positioned in contact with the wound.

An attachment device used to attach appliances to tissue can incorporate microstructures. A medical device system can comprise a coupling device comprising a base layer, a coupling attached to an air side of the base layer, a microstructure attached to a skin side of the base layer and a patient interaction feature, and an appliance comprising a structure mounted to the coupling to interface with the patient interaction feature. An appliance device comprises a base layer, an appliance structure attached to an air side of the base layer, and a microstructure attached to a skin side of the base layer. An appliance attachment system comprises an appliance, a first component comprising an adhesive backing containing microstructures that are configured to attach to skin, and a second component configured to attach the appliance to the first component.

A wound dressing that incorporates a number of sensors can be utilized in order to monitor characteristics of a wound as it heals or to identify one or more risk factors or conditions that may precipitate a wound. The wound dressing can include at least one sensor, such as an impedance sensor, that may be restricted from sensing in a direction away from the wound when the wound dressing is positioned in contact with the wound.

In some embodiments, a wound therapy apparatus includes a wound dressing configured to be positioned over a wound, the wound dressing including a substantially stretchable wound contact layer supporting a plurality of electronic components and a plurality of electronic connections that connect at least some of the plurality of the electronic components. The wound contact layer can include a first plurality of flocked fibers positioned on a wound facing side of the wound contact layer, the first plurality of flocked fibers including soft material configured to cushion the wound contact layer when the wound dressing is positioned over the wound. The wound contact layer can include a second plurality of flocked fibers positioned on a non-wound facing side opposite the wound facing side.