The present invention relates to a biological film-forming agent which is for facilitating wound healing and coating and protecting biological organs, and for coating and protecting damaged cells, wound surfaces, organs and damaged sites of organs, and wound surfaces reaching soft tissues such as muscle and facia, periosteum or bone cortex. Provided is a biological film-forming agent for suppressing exudation of intracellular fluid from damaged cells, suppressing expansion of inflammation reactions and secondary inflammation reactions resulting from production of fibrin and eliminating adverse effects caused by formation of stabilised fibrin on healing. Various problems can be solved by using the agent containing aluminium chloride, cyclodextrin and water as base components.

The present disclosure is directed towards an absorbent binder composition that includes a hydrophilic polymer which has the capability of post-application, moisture-induced cross-linking. The absorbent binder composition can include 1) a superabsorbent polymer material which can include at least 15 mass percent monoethylenically unsaturated polymer, such as carboxylic acid, sulphonic acid, or phosphoric acid, or salts thereof, and an acrylate or methacrylate ester that contains an alkoxysilane functionality and 2) a polyvalent metal cation having a valence of at least two. Upon loss of water by evaporation, the alkoxysilane functionality forms a silanol functional group which condenses to form a crosslinked polymer. Upon exposure of the absorbent binder composition to a biological material, such as urine, blood, or feces, the biological material can interact with the polyvalent metal cation and can serve as a catalyst to accelerate the polymer cross-linking and gelation of the polymer.

Provided herein are hemostatic compositions useful for treating wounds in a patient in need thereof. An exemplary hemostatic comprises gelatin or a derivative thereof and silicate nanoparticles. Methods of use, kits comprising the compositions, and a process of making the compositions are also provided.

The present invention provides a system comprising: (i) a layer containing a nitrite; and (ii) a hydrogel that contains hydrogen ions; wherein the layer containing a nitrite and/or the hydrogel comprises a pharmaceutically active agent. The invention also provides the use of a system of the invention in medicine, and in the treatment of pain.

Provided are pharmaceutical compositions comprising an anion exchanger and a calcium salt; methods for inducing hemostasis at a site of bleeding by applying to the site of bleeding an effective amount of the compositions; and methods of preparation of the compositions.

A wound healing composition and method for wound healing utilizing a nitrofurazone in a water soluble ointment, activated charcoal, caustic and biebrich scarlet. Applying the composition to the wound and observing epithelial healing along the sides and bottom of the wound. Stopping treatment when the epithelial tissue fills the wound.

What is disclosed is high saturated gas solution compositions for use medical use. Any therapeutically relevant gas is contemplated but highly oxygenated solutions are preferred. These solutions are the basis for several types of theological mediums such as lotions or gels.

Film forming gel compositions, useful in creating conformable and flexible gel bandages, can be formulate from a film-forming polymer, a tackifier, and a volatile solvent. The film forming gels can also include antiseptics, cationic polymer coagulants, fillers, and other additives. The gel compositions form relatively thick films when dried on tissue, and can exhibit enhanced breathability to promote wound healing.

There is disclosed a substrate with an electron donating surface, characterized in having metal particles on said surface, said metal particles comprising palladium and at least one metal selected from the group consisting of gold, ruthenium, rhodium, osmium, iridium, and platinum, wherein the amount of said metal particles is from about 0.001 to about 8 g/cm.sup.2. Examples of coated objects include contact lenses, pacemakers, pacemaker electrodes, stents, dental implants, rupture nets, rupture mesh, blood centrifuge equipment, surgical instruments, gloves, blood bags, artificial heart valves, central venous catheters, peripheral venous catheters, vascular ports, haemodialysis equipment, peritoneal dialysis equipment, plasmapheresis devices, inhalation drug delivery devices, vascular grafts, arterial grafts, cardiac assist devices, wound dressings, intermittent catheters, ECG electrodes, peripheral stents, bone replacing implants, orthopaedic implants, orthopaedic devices, tissue replacing implants, intraocular lenses, sutures, needles, drug delivery devices, endotracheal tubes, shunts, drains, suction devices, hearing aid devices, urethral medical devices, and artificial blood vessels.

A composite antibacterial hydrogel dressing, a preparation method and an application method thereof are provided, which relate to the field of biomedical technologies. The composite antibacterial hydrogel dressing is made from the following raw materials in parts by weight: 8 to 22 parts of chitosan, 12 to 36 parts of carrageenan, 9 to 25 parts of 2-aminoisonicotinic acid, 3 to 8 parts of lactic acid, 4 to 10 parts of iodine and 6 to 15 parts of potassium iodide. The composite antibacterial hydrogel dressing has a good flexibility, a strong antibacterial effect, a long antibacterial time, no skin irritation, good application prospect in the field of medical wound repair, simple preparation process and easy industrial production.