A graduated compression garment is disclosed that includes a plurality of longitudinal fuzzy wales arranged to form a fabric with a plurality of transverse elastomeric threads under variable tension connecting the adjacent longitudinal fuzzy wales to deliver a first level of elastic compression distally on a limb and a gradually decreasing level of elastic compression as the limb increases in diameter proximally.

There is provided a support portion-bonded medical tape that has a high effect of alleviating a persistent skin irritation during an application duration caused by a residual shrink force and aims to be applied on a skin that exhibits an excessive reaction even when a degree of residual shrink force as a cause is an insignificant irritation so as to be described as of a level of magnifying lens or microscope, not as of a level of naked eye.

A support portion-bonded medical tape of the present invention includes an elastic base member portion film-formed of a solution polymer and having an elastic function, an adhesion portion having a function to apply and hold the elastic base member portion on a skin, a release portion having a function to protect the adhesion portion, and a support portion having a function to support the elastic base member portion. The support portion, the elastic base member portion, the adhesion portion, and the release portion are provided in this order from an upper layer. In a manufacturing process, the solution polymer used as a material for the elastic base member portion is applied to an upper layer of the adhesion portion, and the support portion is laminated on an upper layer of the elastic base member portion before or after completion of forming shrinkage. A residual shrink force existing in the support portion-bonded medical tape is reduced by removing the release portion at a time of use.

A surgical container has more than one surgical sponge, more than one dispensing containers containing respectively the more than one surgical sponge, and more than one disposal containers each proximate to and visually associated respectively with the more than one dispensing containers to receive a used surgical sponge, wherein a selected surgical sponge is visible in one of the dispensing container or the corresponding disposal container.

The present application is concerned with an improved wound dressing for use in the treatment of skin wounds with some level of exudation, especially for use in those wounds which are infected or under risk of being infected by microorganisms.

A cellulose membrane according to an embodiment of the present disclosure is a self-supporting cellulose membrane having a thickness of between 20 nm and 1300 nm, inclusive, composed of regenerated cellulose having a weight average molecular weight of 150,000 or more.

A cellulose membrane according to an embodiment of the present disclosure is a self-supporting cellulose membrane having a thickness of between 20 nm and 1300 nm, inclusive, composed of regenerated cellulose having a weight average molecular weight of 150,000 or more.

A wound dressing and method of use is provided that increases healing of tissues by targeting damaged tissue at a predetermined wavelength. The device includes the use of a negative pressure bandage, a flexible light sheet, and one or more bioactive marine extracts. Light emitted from the flexible light sheet penetrates through the bandage to target damaged tissue, which accelerates the wound healing process and works synergistically with the negative pressure bandage and bioactive marine extracts such as collagen fibers, alginate, chitosan and fucoidan, or any combination thereof to accelerate healing.

A wound dressing and method of use is provided that increases healing of tissues by targeting damaged tissue at a predetermined wavelength. The device includes the use of a negative pressure bandage, a flexible light sheet, and one or more bioactive marine extracts. Light emitted from the flexible light sheet penetrates through the bandage to target damaged tissue, which accelerates the wound healing process and works synergistically with the negative pressure bandage and bioactive marine extracts such as collagen fibers, alginate, chitosan and fucoidan, or any combination thereof to accelerate healing.

A device includes a substrate and a hydrophilic polymer layer made of a hydrophilic polymer having a hydroxyl group. The hydrophilic polymer layer having a hydroxyl group is fixed to at least a part of a surface of the substrate and the hydrophilic polymer further has an amide group. A liquid film retention time of the device is 15 seconds or more. The device has a surface of a substrate which is hydrophilized. A method for producing the device by a simple method is also disclosed.

A device includes a substrate and a hydrophilic polymer layer made of a hydrophilic polymer having a hydroxyl group. The hydrophilic polymer layer having a hydroxyl group is fixed to at least a part of a surface of the substrate and the hydrophilic polymer further has an amide group. A liquid film retention time of the device is 15 seconds or more. The device has a surface of a substrate which is hydrophilized. A method for producing the device by a simple method is also disclosed.