A method of treating, reducing, or alleviating a medical condition in a patient is disclosed herein. The method includes administering to a patient in need thereof a biocompatible drug comprising one or more antiviral medications together with one or more cell pathway inhibitors, the patient having at least one of a respiratory tract inflammatory disease, a central nervous system inflammatory disease, and vasculitis. The one or more antiviral medications preventing an attachment of viruses to cell walls, blocking a penetration of the viruses into cells, and/or inhibiting virus replication by damaging nucleic acids of the viruses. The one or more cell pathway inhibitors blocking an inflammatory response of inflamed tissue without inhibiting an immune response of the patient.

The field of the disclosure relates generally to cancer cell destruction and, more specifically, to cancer cell destruction by photo-magnetic irradiation mediated multimodal therapy using smart nanostructures.

The field of the disclosure relates generally to cancer cell destruction and, more specifically, to cancer cell destruction by photo-magnetic irradiation mediated multimodal therapy using smart nanostructures.

Compositions comprising metal entities in combination with an activating agent, or pharmaceutically acceptable salts thereof are disclosed. Certain compositions are active as antibacterial, antiviral, antifungal, anti-protozoal, and/or anti-worm agents. The disclosure provides pharmaceutical compositions containing the compositions. Methods of using the composition to treat bacterial infections are disclosed.

Compositions comprising metal entities in combination with an activating agent, or pharmaceutically acceptable salts thereof are disclosed. Certain compositions are active as antibacterial, antiviral, antifungal, anti-protozoal, and/or anti-worm agents. The disclosure provides pharmaceutical compositions containing the compositions. Methods of using the composition to treat bacterial infections are disclosed.

A method of treating diseased tissue while healing the wound using a diode laser which generates a beam of light having a wavelength in the visible portion of the electromagnetic spectrum (400 nm-700 nm) at a laser power of 0.001 to 1.2 watts, used with intermittent stops to control tissue temperature and biostimulate epithelial regeneration when used with or without substrates. A method of treating diseased tissue using a laser light in the green wavelength range (520-570 nm) at a laser power of 0.001 W to 5 W. A method of treating diseased tissue using a laser light in the IR wavelength range (700-1400 nm) at a laser power of 0.001 W to 5 W.

A method of treating diseased tissue while healing the wound using a diode laser which generates a beam of light having a wavelength in the visible portion of the electromagnetic spectrum (400 nm-700 nm) at a laser power of 0.001 to 1.2 watts, used with intermittent stops to control tissue temperature and biostimulate epithelial regeneration when used with or without substrates. A method of treating diseased tissue using a laser light in the green wavelength range (520-570 nm) at a laser power of 0.001 W to 5 W. A method of treating diseased tissue using a laser light in the IR wavelength range (700-1400 nm) at a laser power of 0.001 W to 5 W.

Stabilized multi-component antimicrobial compositions for treating tissue diseases, infections or conditions include a first and second set of differently sized and/or differently shaped metal nanoparticles, and a stabilizing agent. Compositions and treatment methods may be used for treating tissue diseases, infections or conditions caused by microbial infections, such as bacteria, viral, and/or fungal infections, or for preventing the infection of a wound, such as a cut, abrasion, ulcer, lesion, sore, and the like. The compositions and treatment methods disclosed herein may also be used as a prophylactic, and in some embodiments may be applied to otherwise healthy tissue in order to prevent or reduce the occurrence of a tissue disease, infection or condition.

The present invention provides a nanoparticle comprising a core comprising a metal; and a corona comprising a plurality of ligands covalently linked to the core, the plurality of ligands including at least a first species of ligand comprising an ethylene glycol portion and an amine group and at least a second species of ligand comprising a carbohydrate group, for use in a method of treating a cancer, particularly skin cancer, in a mammalian subject. Also disclosed are methods of treatment by administering the nanoparticles alone or in combination with radiotherapy.

The present invention relates to novel gold-platinum based bi-metallic nanocrystal suspensions that have nanocrystal surfaces that are substantially free from organic or other impurities or films associated with typical chemical reductants/stabilizers and/or raw materials used in nanoparticle formation processes. Specifically, the surfaces are “clean” relative to the surfaces of metal-based nanoparticles made using chemical reduction (and other) processes that require organic (or other) reductants and/or surfactants to grow (and/or suspend) metal nanoparticles from metal ions in a solution.

The invention includes novel electrochemical manufacturing apparatuses and techniques for making the bi-metallic nanocrystal suspensions. The techniques do not require the use or presence of chlorine ions/atoms and/or chlorides or chlorine-based materials for the manufacturing process/final suspension. The invention further includes pharmaceutical compositions thereof and the use of the bi-metallic nanocrystals or suspensions or colloids thereof for the treatment or prevention of diseases or conditions for which metal-based therapy is already known, including, for example, for cancerous diseases or conditions.