The invention generally relates to dextran fibers which are preferably electrospun and devices formed from such fibers. In particular, such devices may include substances of interest (such as therapeutic substances) associated with the electrospun fibers. Upon exposure to a liquid the electrospun fibers dissolve immediately and the substances of interest are released into the liquid. Exemplary devices include bandages formed from electrospun dextran fibers and associated agents that promote hemostasis, such as thrombin and fibrinogen.

The invention generally relates to dextran fibers which are preferably electrospun and devices formed from such fibers. In particular, such devices may include substances of interest (such as therapeutic substances) associated with the electrospun fibers. Upon exposure to a liquid the electrospun fibers dissolve immediately and the substances of interest are released into the liquid. Exemplary devices include bandages formed from electrospun dextran fibers and associated agents that promote hemostasis, such as thrombin and fibrinogen.

The present invention relates to method of preparing an absorbent wound care device comprising an active agent on a wound contacting surface, such as e.g. a protein or an enzyme, by the use of electrospraying, and a wound care device obtained by said method. The invention further relates to a wound care device comprising Thrombin and a polyurethane foam, and a method of treating bleeding.

The present invention relates to method of preparing an absorbent wound care device comprising an active agent on a wound contacting surface, such as e.g. a protein or an enzyme, by the use of electrospraying, and a wound care device obtained by said method. The invention further relates to a wound care device comprising Thrombin and a polyurethane foam, and a method of treating bleeding.

An improved fibrinogen-based tissue sealing patch having a degradation time of less than two weeks is disclosed. The patch comprises a polyethylene glycol-caprolactone-lactide (PEG-CL-LA) triblock copolymer film into which a fibrinogen-based sealant comprising less than 8 mg/cm.sup.2 fibrinogen and less than 10 IU/cm.sup.2 thrombin has been incorporated. In preferred embodiments, the polymer film comprises PEG having a molecular weight of between 3000 and 3500 and a CL:LA:PEG ratio of 34:2:1. Methods of production and use of the patch are also disclosed.

An improved fibrinogen-based tissue sealing patch having a degradation time of less than two weeks is disclosed. The patch comprises a polyethylene glycol-caprolactone-lactide (PEG-CL-LA) triblock copolymer film into which a fibrinogen-based sealant comprising less than 8 mg/cm.sup.2 fibrinogen and less than 10 IU/cm.sup.2 thrombin has been incorporated. In preferred embodiments, the polymer film comprises PEG having a molecular weight of between 3000 and 3500 and a CL:LA:PEG ratio of 34:2:1. Methods of production and use of the patch are also disclosed.

A patch for treating vascular ulcers caused by excessive enzymatic activity may include a substrate configured to span a vascular ulcer as well as a linking material that is disposed relative to the substrate and has an affinity for an enzyme involved in causing the vascular ulcer. A magnetic material may be coupled to the linking material. In some cases, the enzymes involved in causing the vascular ulcer may become coupled to the linking material and thus become coupled to the magnetic material so that that the enzymes can be removed by applying a magnetic field in the proximity of the vascular ulcer. The enzymes may include matrix metalloproteinases.

There is provided an absorbent system for wound care products having a liquid-absorbing, wound-contacting, lower layer and a more highly absorbent upper layer in liquid communication with said lower layer. Liquid communication may be provided by pores running between the layers. The dressing may include antimicrobial agents, agents to promote healing and other functional agents.

There is provided an absorbent system for wound care products having a liquid-absorbing, wound-contacting, lower layer and a more highly absorbent upper layer in liquid communication with said lower layer. Liquid communication may be provided by pores running between the layers. The dressing may include antimicrobial agents, agents to promote healing and other functional agents.

The present invention provides compositions and methods for reducing microbial and nematodal contamination or infection in plants, animals, fabrics, and products therefrom. The present invention also provides compositions and methods for reducing human infections and the emergence of antimicrobial resistance. In particular, the invention provides magnetic nanoparticles comprising biocidal or biostatic enzymes in one component, substrates for the enzymes in a second component, and a biocidal chemical agent that works in combination or synergistically with the enzymes. The compositions are dormant and become active upon exposure to hydration, oxygen, or mixing.