Described herein is a three-dimensional platform delivery technology including a polymeric material.

Described herein is a three-dimensional platform delivery technology including a polymeric material.

A hemostatic surface application device having a region of hemostatic foam for contact with a patient's skin where a wound exists or is created, the device includes: a release layer, the release layer in contact with a hemostatic flexible foam section, and a structural foam layer having a front side and a back side surrounding the hemostatic flexible foam layer, forming a generally central hemostatic surface exposed through the front side of the surrounding structural foam layer, and a support layer adhered to the backside of the structural foam layer.

A hemostatic surface application device having a region of hemostatic foam for contact with a patient's skin where a wound exists or is created, the device includes: a release layer, the release layer in contact with a hemostatic flexible foam section, and a structural foam layer having a front side and a back side surrounding the hemostatic flexible foam layer, forming a generally central hemostatic surface exposed through the front side of the surrounding structural foam layer, and a support layer adhered to the backside of the structural foam layer.

The invention relates to a therapeutic adhesive tape for use in medical or sporting applications. The therapeutic tape is configured to be applied to the skin of a user. The tape comprising: a base layer having a face side and a back side, the base layer being composed of a combination of recycled polyethylene terephthalate (hereinafter: RPET) and an elastic material, and an adhesive layer deposited on one of said face side or back side of the base layer for attaching the tape to the skin of the user.

The invention relates to a therapeutic adhesive tape for use in medical or sporting applications. The therapeutic tape is configured to be applied to the skin of a user. The tape comprising: a base layer having a face side and a back side, the base layer being composed of a combination of recycled polyethylene terephthalate (hereinafter: RPET) and an elastic material, and an adhesive layer deposited on one of said face side or back side of the base layer for attaching the tape to the skin of the user.

The invention relates to a therapeutic adhesive tape for use in medical or sporting applications. The therapeutic tape is configured to be applied to the skin of a user. The tape comprising: a base layer having a face side and a back side, the base layer being composed of a combination of recycled polyethylene terephthalate (hereinafter: RPET) and an elastic material, and an adhesive layer deposited on one of said face side or back side of the base layer for attaching the tape to the skin of the user.

A surface is covered with microstructures that extend from the surface, and are made of a resilient material that allows the microstructures to bend or articulate. The microstructures are generally columnar and can have fingers on their distal or top end that is opposite the base from which the microstructures extend. In addition to the ordinary roughness presented by the microstructures, the articulation further discourages biofouling and bioadherence. The articulation of the microstructures can be oriented, and the orientations can be mixed or varied among the microstructures so that adjacent ones of the microstructures have different orientations of articulation.

A surface is covered with microstructures that extend from the surface, and are made of a resilient material that allows the microstructures to bend or articulate. The microstructures are generally columnar and can have fingers on their distal or top end that is opposite the base from which the microstructures extend. In addition to the ordinary roughness presented by the microstructures, the articulation further discourages biofouling and bioadherence. The articulation of the microstructures can be oriented, and the orientations can be mixed or varied among the microstructures so that adjacent ones of the microstructures have different orientations of articulation.

The invention relates to an easy-to-use scar reduction bandage (or sticking plaster), that can be used in the case of hypertrophic scars and keloids. The invention offers a qualitatively even treatment over months by the permanent pressure achieved by the integrated scar bandage and spring. The effect can be strengthened or altered by the differing materials of upper and lower carrier sheets. Likewise, and at the same time, a supplemental treatment can be initiated by so-called storage structures in the base of the spring.