The present invention relates to a stable preservative-free Cyclosporine emulsion in the form of eye drops and a process for the manufacturing thereof, packed in a container that ensures stability of the product for the treatment of keratoconjunctivitis sicca.

The present invention relates to a stable preservative-free Cyclosporine emulsion in the form of eye drops and a process for the manufacturing thereof, packed in a container that ensures stability of the product for the treatment of keratoconjunctivitis sicca.

The invention relates to compositions and methods for treating ophthalmic conditions.

The invention relates to compositions and methods for treating ophthalmic conditions.

A method of increasing the solubility of a water-insoluble or slightly water-soluble hydrophobic organic compound in an aqueous solvent includes adding a saponin component selected from escin, glycyrrhizin, and Quillaya saponaria extract to the aqueous solvent in an amount sufficient to trigger the formation of micelles, wherein in a first step the hydrophobic organic compound is pre-dissolved in an organic solvent, and in a second step the organic solvent comprising the pre-dissolved compound is admixed to the aqueous solvent, whereby at least a part of the insoluble or slightly soluble hydrophobic organic compound gets solubilized and dissolved in the aqueous solvent, yielding an aqueous composition having an increased concentration of said organic compound dissolved therein. Also indicated are pharmaceutical or cosmetic compositions including a water-insoluble or slightly water-soluble organic compound dissolved in an aqueous solvent at substantially increased concentrations.

A method of increasing the solubility of a water-insoluble or slightly water-soluble hydrophobic organic compound in an aqueous solvent includes adding a saponin component selected from escin, glycyrrhizin, and Quillaya saponaria extract to the aqueous solvent in an amount sufficient to trigger the formation of micelles, wherein in a first step the hydrophobic organic compound is pre-dissolved in an organic solvent, and in a second step the organic solvent comprising the pre-dissolved compound is admixed to the aqueous solvent, whereby at least a part of the insoluble or slightly soluble hydrophobic organic compound gets solubilized and dissolved in the aqueous solvent, yielding an aqueous composition having an increased concentration of said organic compound dissolved therein. Also indicated are pharmaceutical or cosmetic compositions including a water-insoluble or slightly water-soluble organic compound dissolved in an aqueous solvent at substantially increased concentrations.

The invention described herein relates to therapeutic dosing regimens comprising administering venetoclax in combination with azacitidine and a CYP3A inhibitor for treating myelodysplastic syndromes (MDS).

The invention described herein relates to therapeutic dosing regimens comprising administering venetoclax in combination with azacitidine and a CYP3A inhibitor for treating myelodysplastic syndromes (MDS).

The invention provides, for the first time, strategies to inhibit the killing of transplanted cells by activated polymorphonuclear cells (PMNs) of the recipient. Multiple different modes for PMN inhibition are provided and one or more agents effectively utilized every mode of action. The combination of two or more of those agents with different modes of action synergistically improved the efficacy of PMN inhibition without exerting toxic side effects on the survival of the target cells. The cells may be pluripotent cells, including hypoimmune pluripotent cells (HIP), ABO blood type O Rhesus Factor negative HIP cells (HIPO−), or derivatives thereof. The cells may also be alpha 1 antitrypsin (A1AT) secreting cells.

The invention provides, for the first time, strategies to inhibit the killing of transplanted cells by activated polymorphonuclear cells (PMNs) of the recipient. Multiple different modes for PMN inhibition are provided and one or more agents effectively utilized every mode of action. The combination of two or more of those agents with different modes of action synergistically improved the efficacy of PMN inhibition without exerting toxic side effects on the survival of the target cells. The cells may be pluripotent cells, including hypoimmune pluripotent cells (HIP), ABO blood type O Rhesus Factor negative HIP cells (HIPO−), or derivatives thereof. The cells may also be alpha 1 antitrypsin (A1AT) secreting cells.