A hemostatic colloid and method of forming a hemostatic colloid for dispensing into a wound site to control bleeding is provided. The hemostatic colloid is comprised of collagen in microfibril, crystalline, powder or granular form and is mixed with a liquid thrombin solution to form a flowable collagen/thrombin hemostatic colloid.

A polyelectrolyte complex includes nanofibers. The nanofibers include at least one polycationic component and at least one polyanionic component. The nanofibers have a diameter in a range of 20-100 nm. A process for preparing the complex, a method of using the complex, a kit which includes the complex, and a method of inhibiting loss of blood from a wound site by applying the complex to the wound site are also provided.

The present disclosure, when used by a live actor, may allow users to safely simulate hemorrhaging in some of the most challenging blood vessels in the most challenging anatomical locations such as the carotid artery, the axillary artery, and the femoral artery. The present disclosure may further provide the ability for users to safely perform hemorrhage control procedures, such as compression and ligation. The simulated wound of the present disclosure may be compressed to control hemorrhage. The simulated wound receptacle of the present disclosure may be packed with hemostatic or simple gauze to control hemorrhage. The simulated blood vessel of the device may be ligated with hemostats or other ligating instruments or material and bandaged with pressure dressings to control hemorrhage.

The invention relates to medicine, namely, to the solutions used for hemostasis. The hemostatic agent, which represents a polyammonia methanediamine chloride of the general formula

##STR00001##

where: n=1-20, m=1-10, at that n×m≧8.

The hemostatic agent may be applied in the form of a 0.01-10% aqueous solution. An aqueous solution of the preparation can be used for impregnation of materials used for bleeding arrest, suture material, bandaging material. The hemostatic agent may be used in the composition of a retraction cord, adhesive pastes, vaginal and rectal suppositories, creams, gels, as well as used with microchips that provide slow release of the preparation. The preparation can also be used in eye drops, eye ointments, and lubricants applied to the surface of the catheter. The drug can be used in endodontic treatment, may be injected into a polymer sealer for root canal obturation, as well as locally—by means of electrophoresis. The hemostatic agent may be used in conjunction with a gel based on aluminum sulphate or silver solution, and also with a polysaccharide haemostatic system. An efficient haemostatic preparation ensuring a significant analgetic effect is developed.

A bandage to control bleeding from an open wound has a hemostatic gauze. An absorbent pad is removably attached to the hemostatic gauze.

A hemostatic composition is provided. The hemostatic composition includes a hemostatically effective amount of a hemostatic agent that includes a nanoparticle and a polyphosphate polymer attached to the nanoparticle. Also provided are medical devices and methods of use to promote blood clotting.

Composite materials made of a citrate, a calcium carbonate-containing material and an association moiety which is associated with the citrate and the calcium carbonate-containing material are provided. The composite materials are typically particulate materials (e.g., powdery materials). Compositions and articles-of-manufacturing containing and/or configured for applying the composite materials are also provided, as well as their use in inducing blood coagulation and arresting hemorrhage, including internal and/or massive hemorrhage.

Disclosed herein is a non-flowable and deformable hemostatic compositions comprised of a xerogel crosslinked powdered polysaccharide dispersed within a substantially anhydrous blend of: glycerol, and polyethylene glycol (PEG), wherein the PEG and glycerol are present in a ratio ranging from higher than 1:1.3: to below 1:2.7 by weight, respectively, and wherein the powder content in the composition is above 50%, by weight. Methods of making the non-flowable compositions, and uses of the compositions in methods for treating a wound or a bleeding tissue, such as bone tissue, are further disclosed.

The present disclosure relates to a gastrointestinal delivery device of a dressing, where the delivery device is capable of fitting through a narrow channel before expanding and applying the dressing. The gastrointestinal delivery device may be used in all gastrointestinal bleeding applications and can be used with a biocompatible, foldable, thin profile, chitosan dressing. Various aspects of the device and its uses are provided herein.

The present invention provides for nanostructured fibrin and agarose hydrogels, preferably type VII agarose hydrogels, (NFAH) or non-nanostructured or pre-nanostructured fibrin and agarose hydrogels, preferably type VII agarose hydrogels, (FAH), as hemostatic agents designed for use as an adjunct or primary treatment in moderate intraoperative hemorrhage and in trauma. These hydrogels can be applied topically to the wound either on the skin in a laparotomy or as non-invasive manner in surgical procedures. Its nanostructure technology generates an adhesive stable fibrin clot required for hemostasis. The attachment properties of the hydrogel, as well as the rapid formation of a fibrin clot, ensures that a strong stable fibrin clot is formed shortly after application.