The present invention provides a hemostatic composite sponge comprising oxidized cellulose and an essentially gelatin-free bioadhesive material stably associated with said sponge and present in an organized pattern on said sponge.

A wound closure includes one or more bandages. The one or more bandages include a first bandage and a second bandage. Each of the first bandage and the second bandage include a skin attachment portion having a skin fastener for attaching the bandages to a subject. Each of the first bandage and the second bandage include a closure portion having a closure fastener for attaching the closure portions with one another. The skin fastener and closure fastener may comprise an adhesive. The bandages may comprise a leg for folding over, and attaching to, the attached closure portions to form a secured folded closure. The secured folded closure may be folded generally flat against, and secured with, one of the skin attachment portions.

Embodiments herein provide hemostatic compositions comprising a plurality of liquid-expandable articles arranged on a backing material. In general, embodiments include methods for treating hemorrhagic injuries. More specifically, there is provided a method to effect rapid hemostatic response and control hemorrhage by introducing a hemostatic composition into a bleeding wound cavity. An embodiment also provides a method of preparing or manufacturing such a hemostatic composition.

A compression device includes an adhesion sheet including an adhesion surface; and a compression member mounted on the adhesion sheet and configured to compress a biological surface. The compression member includes a fixing portion fixed to the adhesion sheet on a side of the sheet opposite the adhesion surface in a thickness direction, and a compression main body portion provided in a portion of the compression member, in a plan view seen along the thickness direction, that does not overlap the adhesion sheet. The compression main body is configured to protrude or be protrusible further toward one side in the thickness direction than the adhesion surface. The adhesion sheet includes a first portion to which the fixing portion is fixed and a second portion to which the fixing portion is not fixed. The second portion is provided on at least a compression main body portion side of the adhesion sheet.

An enhanced adhesive bandage sandwich (FIG. 1) for compressing blood vessels and a kit for assembling said bandage sandwich. A bandage or kit can be used as a medicament, particularly, for use in treating varicose veins. A bandage sandwich or kit can be used to compress veins or arteries. A method to produce said bandage sandwich can include providing a first adhesive bandage layer; applying an elastic body to the first adhesive bandage layer; and applying a second adhesive bandage layer to the first bandage layer. The elastic body of the bandage sandwich can be shaped to follow the contours of veins or arteries to be compressed.

Provided are a fibrous sheet having a stress relaxation rate defined by the following formula of less than or equal to 85%:

stress relaxation rate [%]=(stress S.sub.5 at extension after five minutes/stress S.sub.0 at initial extension)100

when a stress at extension immediately after extension in an in-plane first direction at 50% elongation is defined as a stress S.sub.0 (N/50 mm) at initial extension, and a stress at extension at a time of extending in the first direction at 50% elongation for five minutes is defined as a stress S.sub.5 (N/50 mm) at extension after five minutes, and a bandage including the fibrous sheet.

A sponge including one or more hemostatic agents and one or more binding agents. At least one of the hemostatic agents is a pregelatinized potato starch. The collective percentage by weight of the one or more hemostatic agents is within the range of approximately one eighth to approximately sixteen times as great as the collective percentage by weight of the one or more binding agents.

The invention relates to a bandage (10) comprising a flat material web (12) having a first (14) and a second (16) side and a first (18) and a second (20) end spaced apart in the longitudinal direction of the bandage (10), a wound pad (22) on the first side of the flat material web (12), a pressure application means (32) on the second side (16) of the flat material web (12) opposite the wound pad (22), a securing element (24) on the second end (20) of the flat material web (12) for securing the second end (20) of the flat material web (12) on or to itself for a bandage (10) positioned on a carrier.

A line-compression patch and method are disclosed configured to achieve hemostasis in a living body. The line-compression patch includes a line-compression feature extruding out towards a patient contact surface; a base providing the support to the line-compression feature; and a patch feature that provides stability to the line-compression patch by adhering to the patient contact surface.

The invention relates to a haemostatic bracelet (1) comprising: a clamp comprising two branches (11, 12) and a first strut (13), each branch (11, 12) being connected by one of its ends to the other branch by means of the first strut (13), a compression element (24) placed, when the bracelet is ready for use, inside the space defined by the branches (11, 12) and the first strut (13) of the clamp or inside a projection of this space, the compression element (24) protruding in the direction of the opening between the ends of the branches (11, 12) of the clamp opposite to the first strut (13), actuation elements (30, 40) fixed to the branches (11, 12) of the clamp so that the ends of the branches (11, 12) of the clamp opposite to the first strut (13) can be spread by moving the ends of the actuation elements towards each other.