Various oil-in-water (O/W) nanoemulsions containing an oil phase or oil core, preferably selected from vitamin E or oleic acid, stabilized by a sphingolipid of the sphingomyelin type, and optionally other lipids such as phospholipids, cholesterol, octadecylamine, DOTAP (N-[1-(2,3-Dioleoyloxy) propyl]-N, N, N-trimethylammonium methyl-sulfate), and PEGylated derivatives (derivatives with polyethylene glycol), for use as a nanotech vehicle, for example for the management of cancer and metastatic disease. Said nanoemulsions can be functionalized with ligands capable of interacting or binding to receptors expressed on the cell membrane of tumor cells, and in particular capable of interacting or binding to receptors expressed on the membrane of primary and/or disseminated or metastatic tumor cells. Also, antitumor drugs or therapeutic biomolecules can be encapsulated in said nanoemulsions and, finally, contrast agents can be incorporated for their use in the in vivo diagnosis in said nanoemulsions.

Embodiments of the present disclosure provide for probes, methods of using the probe, methods of making the probe, method of imaging a condition (e.g., pre-cancerous tissue, cancer, or a tumor), methods of planning resection of a brain tumor, methods of imaging a brain tumor, and the like.

The disclosure relates to compositions comprising (i) at least one fluorocarbon, (ii) at least one fluorous hydroxamic acid chelator, and in some instances, (iii) at least one radioisotope. The disclosure also relates to methods for using such compositions, methods of making such compositions, and kits for making such compositions.

In the present invention, the development of various oil-in-water (O/W) nanoemulsions containing an oil phase or oil core, preferably selected from vitamin E or oleic acid, stabilized by a sphingolipid of the sphingomyelin type, and optionally other lipids such as phospholipids, cholesterol, octadecylamine, DOTAP (N-[1-(2,3-Dioleoyloxy) propyl]-N, N, N-trimethylammonium methyl-sulfate), and PEGylated derivatives (derivatives with polyethylene glycol), for use as a nanotech vehicle, in particular for the management of cancer and metastatic disease, is herein described. Said nanoemulsions can be functionalized with ligands capable of interacting or binding to receptors expressed on the cell membrane of tumor cells, and in particular capable of interacting or binding to receptors expressed on the membrane of primary and/or disseminated or metastatic tumor cells. Also, antitumor drugs or therapeutic biomolecules can be encapsulated in said nanoemulsions and, finally, contrast agents can be incorporated for their use in the in vivo diagnosis in said nanoemulsions.

An improved process for producing an oil-in-water emulsion to deliver a substantially water insoluble active pharmaceutical ingredient includes creating a microemulsion containing such ingredient in the oil phase of the emulsion by mixing an aqueous phase including non-ionic surfactant, polyol, and water, wherein the weight ratio of the surfactant to polyol to water is between 10:20:70 and 1:1:1, to generate a mixture, with an oil phase comprising a substantially water insoluble active pharmaceutical ingredient and a long-chain triglyceride; circulating the said mixture through a homogenizer at a temperature from 20 C. to 60 C. to generate a coarse emulsion; passing the coarse emulsion through a microfluidizer at a pressure of from 70 MPa to 150 MPa at least once to produce an oil-in-water microemulsion; and, optionally, filtering the microemulsion through a 0.2 m filter and/or mixing the microemulsion with a polymeric stabilizer.

This invention relates to a pharmaceutical composition for parenteral or oral administration containing a radioactive compound which can be used diagnostically or therapeutically. The composition comprises a micro-emulsion constituted by a dispersion of vesicles or microsponges of a fatty acid based component in an aqueous or other pharmacologically acceptable carrier in which nitrous oxide is dissolved, the fatty acid based component comprising at least one long chain fatty acid based substance selected from the group consisting of free fatty acids and derivatives of free fatty acids, and the radioactive compound.

An improved process for producing an oil-in-water emulsion to deliver a substantially water insoluble active pharmaceutical ingredient includes creating a microemulsion containing such ingredient in the oil phase of the emulsion by mixing an aqueous phase including non-ionic surfactant, polyol, and water, wherein the weight ratio of the surfactant to polyol to water is between 10:20:70 and 1:1:1, to generate a mixture, with an oil phase comprising a substantially water insoluble active pharmaceutical ingredient and a long-chain triglyceride; circulating the said mixture through a homogenizer at a temperature from 20 C. to 60 C. to generate a coarse emulsion; passing the coarse emulsion through a microfluidizer at a pressure of from 70 MPa to 150 MPa at least once to produce an oil-in-water microemulsion; and, optionally, filtering the microemulsion through a 0.2 m filter and/or mixing the microemulsion with a polymeric stabilizer.

The present invention relates to a formulation of a therapeutic or diagnostic agent in the form of a nano-emulsion, to its preparation method and to the use of this formulation for treating or diagnosing hormone-dependent cancers or cancers of organs synthesizing steroidal hormones.