In various aspects, the present disclosure pertains to methods of treating or preventing bleeding at a tissue site comprising applying a chitosan powder composition to the tissue site. In various aspects, the present disclosure pertains to chitosan powder compositions for application to a tissue site, where the powder compositions comprise a chitosan salt, a crosslinked chitosan, a derivatized chitosan, or a combination thereof. In various aspects, the disclosure pertains to catheter assemblies, which are preloaded with a chitosan powder composition and which are configured to deliver the chitosan powder composition a tissue site.

According to an example aspect of the present invention, there is provided an auxetic structure, comprising or consisting of cellulosic material, preferably comprising nanostructured or microstructured cellulose on at least one of its surfaces or consisting of nanostructured or microstructured cellulose and optionally other cellulosic material.

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

Provided are a novel crosslinked alginic acid, a crosslinked alginic acid structure, etc., by performing a crosslinking reaction using alginic acid derivatives represented by formula (I) and formula (II). As a result, a novel crosslinked alginic acid, crosslinked alginic acid structure, etc., are provided.

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Provided are a novel crosslinked alginic acid, a crosslinked alginic acid structure, etc., by performing a crosslinking reaction using alginic acid derivatives represented by formula (I) and formula (II). As a result, a novel crosslinked alginic acid, crosslinked alginic acid structure, etc., are provided.

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The infusion pump for stem cells includes a liquor storage device and an infusion pipe. The inner wall of the liquor storage sac of the liquor storage device and inner walls of the infusion pipe are provided with an anionic protective film to prevent stem cells from adhering to the infusion pump by mutual repulsion between anions. The infusion method includes checking an infusion pump for integrity, losing a liquor stop clamp, injecting a mixed liquor of stem cells and medicine, covering a protective cap, opening the liquor stop clamp, closing the liquor stop clamp for use, connecting an external cone joint with a venous cannula, and then opening the liquor stop clamp. The method also includes steadily placing the liquor storage sac on a horizontal plane using an auxiliary placing device, and after infusion ends, closing the liquor stop clamp, and disconnecting the external cone joint.

The present disclosure relates to methods and products for reducing adhesions. In certain embodiments, the present disclosure provides a method of reducing adhesions in a subject, the method comprising exposing a region in the subject susceptible to formation of an adhesion to an agent having iron chelation and/or antioxidant activity, thereby reducing adhesions in the subject.

The present disclosure relates to methods and products for reducing adhesions. In certain embodiments, the present disclosure provides a method of reducing adhesions in a subject, the method comprising exposing a region in the subject susceptible to formation of an adhesion to an agent having iron chelation and/or antioxidant activity, thereby reducing adhesions in the subject.

A longitudinal extending body with oriented fibers comprised of an organic compound, preferably cellulose fibers, with a hydrophilic and hydrophobic polymer having absorbable and non res sorbable qualities in the body, with an internal construction to promote cell growth. The longitudinal body has at least one wall having oriented fiber to include cellulose fiber extending the length of said body. This extending body has a surface that is smooth to the touch for additional processing methods such as machining, compression molding and 3 D printing.

A surgical staple comprising a substrate and one or more coatings which slows the bioabsorption of the substrate. The coating can be selected so as to affect the environment surrounding the staple once the staple is implanted in the patient. The effect on the environment can cause the bioabsorption to occur within a desired time frame.