A telemedical interface pressure monitoring system is provided for intermittent or continuous monitoring of the pressure that occurs at the interface between the body and a support surface such as with a compression device, cast or resting surface. The system simultaneously measures interface pressure at multiple compression positions as well as provide real-time measurement data to both patients and clinicians. The system uses an array of one or more sensors and a data collection and transmission node with a microprocessor and transmitter/receiver that transmits the sensor data to a receiver such as a mobile device or cloud or clinic server for remote display, evaluation and automatic recording. Remote receivers can also control compression devices associated with the node.

Apparatus for the application of topical negative pressure therapy to a wound site is described, the apparatus comprising: a wound contacting element for retaining wound exudate fluid therein; a wound covering element that provides a substantially airtight seal over the wound contacting element and wound site; a vacuum connection tube connecting a wound cavity to a vacuum source; and a vacuum source connected to a distal end of the vacuum connection tube.

A dressing for a wound includes a drape, an absorbent core, and a wicking member. The drape can be configured to sealingly couple with a patient's skin surrounding the wound. The drape may enclose an inner volume of the dressing. The absorbent core layer may be positioned within the inner volume of the dressing. The wicking member is positioned within the inner volume, wherein the wicking member extends from an underside of the absorbent core layer to the drape. The indicator may be configured to fluidly couple with the wicking member through the drape and receive fluid from the wicking member. The indicator may be configured to provide a visual wound status indication in response to receiving fluid from the wound through the wicking member.

Medical adhesive articles include a layer of adhesive and a modified substrate layer where the layer has a plurality of cuts arrayed in a pattern that may be random or the pattern can be arrayed along at least one axis. The cuts are gaps, but the gaps are not visible to the naked eye when the adhesive article is in an unstressed state, and at least some of the cuts become gaps that are visible to the naked eye and form apertures when the adhesive article is in a stressed state. The adhesive articles can be used to adhere a medical device to skin.

A wound dressing and a monitor device is disclosed, the wound dressing comprising a top layer; a first adhesive layer with a proximal surface configured for attachment of the wound dressing to the skin surface of a user; an absorbent core layer; an electrode assembly comprising a plurality of electrodes arranged on a distal side of the absorbent core layer; and a monitor interface configured for connecting the wound dressing to a monitor device, the monitor interface comprising a plurality of terminals configured to form electrical connections with respective terminals of the monitor device, wherein the wound dressing comprises a flexible element, the flexible element being bendable and/or twistable between a first flexible element end and a second flexible element end, and wherein the monitor interface comprises a coupling part positioned at the first flexible element end.

Devices and methods for encapsulating a portion of a wound dressing with biocompatible coating are disclosed. In some embodiments, a method includes coating a first side of a flexible wound contact layer of the wound dressing with a hydrophobic coating. The first side of the wound contact layer can support a plurality of electronic components. The method can further include coating a second side of the wound contact layer opposite the first side with the hydrophobic coating. The wound contact layer can be formed at least partially from hydrophilic material.

A bandage intended for use on digits; i.e. fingers and toes, to cover injuries to the knuckle or pad area of the first joint on the hand or foot. The bandage is configured as a pad with an angled loop, the loop used as an anchor around the base of a digit in order to resist motions that might peel the bandage off the skin. The pad may contain medicines suitable for treating a wound or injury, may be radio opaque, may contain a reinforced surface to prevent compression or skin friction at the site, or other ancillary devices. The loop is deformable in length in order to fit different digits and wound locations.

Devices and methods for encapsulating a portion of a wound dressing with biocompatible coating are disclosed. In some embodiments, a method includes coating a first side of a flexible wound contact layer of the wound dressing with a hydrophobic coating. The first side of the wound contact layer can support a plurality of electronic components. The method can further include coating a second side of the wound contact layer opposite the first side with the hydrophobic coating. The wound contact layer can be formed at least partially from hydrophilic material.

Augmented wound dressing systems may include traditional wound dressing components and one or more sensor devices such as accelerometers, humidity monitors, temperature monitors, electrocardiography leads, and/or oximetry sensors. Measurements from the sensor devices may be used to monitor one or more aspects of patient and/or wound health. In addition, or alternatively, one or more images of a wound that may be taken over time may be analyzed and/or compared with one another to determine one or more characteristics of the wound in order to, for example, assess wound health/healing and determine whether an intervention is necessary to assist with wound healing.

A flexible dressing for applying to a tissue site for determining the extent of debridement required to remove non-viable tissue is disclosed. Some embodiments of the dressing may be in the form of a multi-layer drape having an integrated tissue viability indicator system. Some embodiments may also include a system of shapes or a grid pattern printed or embossed on a surface of the drape for providing guidance during an ensuing debridement or amputation procedure.