Provided are methods of preparing compounds and pharmaceutical compositions for treating Filoviridae virus infections The compounds, compositions, and methods provided are particularly useful for the treatment of Marburg virus, Ebola virus and Cueva virus infections.

Provided are methods of preparing compounds and pharmaceutical compositions for treating Filoviridae virus infections The compounds, compositions, and methods provided are particularly useful for the treatment of Marburg virus, Ebola virus and Cueva virus infections.

Methods, formulations and kits for treating and/or protecting against acute liver failure and other hepatotoxicities in an individual employ a combination of a first active agent which replenishes, or decreases a loss of, functional glutathione in the individual, and a second active agent comprising a manganese complex selected from the group consisting of (i) a calcium manganese mixed metal complex of N,N′-bis-(pyridoxal-5-phosphate)-ethylenediamine-N,N′-diacetic acid (DPDP) having a molar ratio of calcium to manganese in a range of from 1 to 10, or a pharmaceutically acceptable salt thereof, (ii) a mixture of manganese DPDP (MnDPDP), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing DPDP compound, or (iii) a mixture of manganese pyridoxyl ethylenediamine (MnPLED), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing pyridoxyl ethylenediamine (PLED) compound.

Methods, formulations and kits for treating and/or protecting against acute liver failure and other hepatotoxicities in an individual employ a combination of a first active agent which replenishes, or decreases a loss of, functional glutathione in the individual, and a second active agent comprising a manganese complex selected from the group consisting of (i) a calcium manganese mixed metal complex of N,N′-bis-(pyridoxal-5-phosphate)-ethylenediamine-N,N′-diacetic acid (DPDP) having a molar ratio of calcium to manganese in a range of from 1 to 10, or a pharmaceutically acceptable salt thereof, (ii) a mixture of manganese DPDP (MnDPDP), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing DPDP compound, or (iii) a mixture of manganese pyridoxyl ethylenediamine (MnPLED), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing pyridoxyl ethylenediamine (PLED) compound.

Methods, formulations and kits for treating and/or protecting against acute liver failure and other hepatotoxicities in an individual employ a combination of a first active agent which replenishes, or decreases a loss of, functional glutathione in the individual, and a second active agent comprising a manganese complex selected from the group consisting of (i) a calcium manganese mixed metal complex of N,N′-bis-(pyridoxal-5-phosphate)-ethylenediamine-N,N′-diacetic acid (DPDP) having a molar ratio of calcium to manganese in a range of from 1 to 10, or a pharmaceutically acceptable salt thereof, (ii) a mixture of manganese DPDP (MnDPDP), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing DPDP compound, or (iii) a mixture of manganese pyridoxyl ethylenediamine (MnPLED), or a pharmaceutically acceptable salt thereof, and a non-manganese-containing pyridoxyl ethylenediamine (PLED) compound.

Provided is an ophthalmic composition comprising diquafosol or a salt thereof, a vinyl-based polymer and a cellulose-based polymer. Also provided is an agent for prevention or treatment of dry eyes, comprising diquafosol or a salt thereof, a vinyl-based polymer and a cellulose-based polymer. These solution-type aqueous eye drop for treatment of dry eye each comprises diquafosol sodium with a concentration of 3% (w/v), hydroxyethyl cellulose and polyvinylpyrrolidone having a K value of 30, and is characterized in that a single dose of 1 to 2 drops is administered by eye drop three times per day.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Tumor cells exhibit consistent abnormalities in calcium regulation. The present disclosure teaches methods by which such differences are exploited to induce Apoptosis selectively in tumor/cancer cells while sparing normal cells. These methods are based upon employing drugs that, acting in synergistic combinations, trigger selective killing of malignant cells. Since the invention is based upon fundamental cell cycle requirements, to the extent that calcium handling abnormalities are a general characteristic of the malignant state, the methods presented here are widely applicable regardless of tissue of origin and degree of cellular de-differentiation.

Pharmaceutical, odontological, cosmetic and dermatological compositions comprising addition salts of trichloroacetic acid, one or more hydroxyacids and optionally glutamic acid or glutamic acid bioisosteres and phytic acid are useful for the peeling of the gingival collar, skin peeling, for resurfacing, treating skin hyper pigmentation, control sebum production, acne, pore size reduction and reducing the appearance of scars without causing undesirable side effects and contrast in coloration of the treated skin, for stimulation of the fibroblasts, transdermal biorevitalization, stimulation of the production of new collagen, for aesthetic improvement, for skin lightening, skin beautifying, skin firming and skin rejuvenation.