A bandage system with decongestion function for the treatment of disorders of the lymphatic and/or venous system of the human body, consisting of a fabric which has alternately strip-shaped regions with relative extensibility and without extensibility and at least partially encases the human body and/or a limb.

According to the invention the extension direction of the fabric regions of relative extensibility (9) is oriented longitudinally to the working direction of the musculature of the body or of the limbs, the fabric regions without extensibility (10) run transversely to the working direction of the musculature, the fabric regions of relative extensibility (9) and the fabric regions without extensibility (10) are arranged successively alternately in working direction of the musculature of the body or of the limbs and the bandage system is adjustable in its circumference.

There is provided herein a compression dressing comprising a first cushion layer (1) and a second support layer (2) wherein the two layers (1,2) are connected to each other in the unstretched state by means of a stich-bonding process via an elastic sewing thread, the stich length being 1.5 to 3mm/U at a sewing thread tension of at most 4 cN.

A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

A negative pressure wound closure devices, systems and methods. Embodiments of the invention facilitate closure of the wound by preferentially contracting under negative pressure to provide for movement of the surrounding tissues. Some embodiments may utilize a stabilizing structure with a plurality of cells configured to collapses more in the x-direction than in the y-direction.

An improved syndesmosis reduction device has a wrap of elastic material extending a length L from a first end to a second end with an open window or slot positioned in an intermediate portion of the wrap spaced from the ends. The wrap causes a reduction of an injured ankle and is facilitated by the elastic nature of the wrap. The reduction is facilitated by circumferentially wrapping the wrap from a leg to a foot or vice versa in a compressive fashion by securing the first end by wrapping and stretching the wrap to the second end. The window or slot is to permit an incision at the ankle for hardware placement without the need to remove the wrap and without loss of the reduction achieved.

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.

Embodiments disclosed within herein relate to a wound dressing, suitable for use in negative pressure wound therapy, comprising a body of porous material, the body of porous material comprising a plurality of cuts which provide regions of flexibility within the body. Further embodiments relate to methods of manufacturing and method of use of such wound dressings. In addition, the wound dressing can comprise a retaining mechanism removably coupled to the material and configured to retain the material in the expanded conformation.

A therapeutic medical garment including a knitted welt proximate one end thereof with a surface adapted for residing against the wearer's skin. The garment includes a ground yarn and a plurality of raised, skin-engaging stabilizer elements, such as elongate bars extending in spaced-apart relation around an inner surface of the welt and along a longitudinal axis of the garment to reduce a tendency of the welt to roll over on itself.

The present invention concerns extensible absorbent wound dressings. The wound dressing has a wound contact layer having a proximal surface facing toward the wound and a distal surface facing away from the wound, and a backing layer having a proximal surface facing toward the wound and a distal surface facing away from the wound, the backing layer having an absorbent region located on a proximal surface thereof, the absorbent region comprising a plurality of discrete absorbent members, wherein the backing layer is configured to be positioned over the wound contact layer, such that the absorbent region is located adjacent to the distal surface of the wound contact layer, and wherein the absorbent region and the wound contact layer are configured to be detached at least in an area inside a perimeter of the absorbent region. The absorbent wound dressings of the present invention can be used to dress so-called truly three-dimensional anatomical areas, such as for example a knee or an elbow.

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.