Provided herein is a pharmaceutical composition for treating cancers. The pharmaceutical composition includes an oil-in-water (o/w) microemulsion, and an active pharmaceutical ingredient dissolved therein. The o/w microemulsion is comprised of an aqueous solution, an oil, and a surfactant, and is about 5-250 nm in diameter. Also provided herein are methods for treating cancers by use of the present pharmaceutical composition.

Estrogen and progesterone replacement therapies are provided herein. Among others, the following formulations are provided herein: solubilized estradiol without progesterone; micronized progesterone without estradiol; micronized progesterone with partially solubilized progesterone; solubilized estradiol with micronized progesterone; solubilized estradiol with micronized progesterone in combination with partially solubilized progesterone; and solubilized estradiol with solubilized progesterone.

Disclosed herein are compositions and methods for an embolizing agent precursor. The embolizing agent precursor may include a gaseous component and a first stabilizer to stabilize the gaseous component, the first stabilizer may include a a polymer, and wherein a gas portion of the gaseous component is selected from the group consisting of sulphur hexafluoride and C3-6 perfluorocarbons. The embolizing agent precursor may further include an oil component which comprises a C1-7 hydrocarbon, a second stabilizer to stabilize the oil component, and a vaporous component configured to enlarge the gaseous component.

The present invention discloses an ionic liquid composition comprising an at least partially hydrophobic ionic liquid, wherein the at least partially hydrophobic ionic liquid comprises a dication comprising two monocationic groups linked by a bridging group wherein the bridging group provides an at least partially hydrophobic character. The composition may also include a hydrophilic ionic liquid. The hydrophobic ionic liquid may include a quaternary ammonium group which may be substituted or unsubstituted, saturated or unsaturated, linear, branched, cyclic or aromatic and the bridging group is a unsubstituted or substituted C.sub.3-C.sub.10 alkylene or C.sub.3-C.sub.10 alkoxyalkyl. Also disclosed is a nanoemulsion formulation which includes the ionic liquid compositions, at least one polymer, a hydrophobic liquid, an aqueous liquid, and a hydrophobic or hydrophilic therapeutic agent. Methods to deliver a therapeutic agent by delivering a nanoemulsion and methods to make a nanoemulsion are also disclosed.

A pharmaceutical composition contains at least one methacrylic copolymer having units derived from methacrylamide; at least one pharmaceutically active ingredient; at least one lipid component; and at least one surfactant. The pharmaceutical composition can be used as a medicament. A method can be used to prepare a solid self-nanoemulsifying drug delivery system using the different compounds of the pharmaceutical composition.

The present disclosure relates to the method of filtering emulsions at cold temperatures. Specifically, cold filtration of emulsion adjuvants for vaccine manufacture is discussed.

Self-emulsifying compositions are disclosed that form stable monodispersions in aqueous solutions containing relatively high concentrations of cannabinoids. They can be easily diluted in aqueous solutions. This makes them suitable for the production of water-based oral products, in particular pharmaceutical compositions, medical devices or food products.

The present disclosure provides SETD7 modulators (e.g., polypeptides, polynucleotides, vectors, compositions, micelles, or pharmaceutical composition) which reduce or abolish SETD7 translocation to the nucleus, e.g., in response to stimuli such as increases in glucose levels. In some aspects, the SETD7 modulators mimic phosphorylated STED7, competing with STED7 and reducing or abolishing SETD7 nuclear translocation. In turn, the reduced SETD7 nuclear translocation results in a decrease in histone monomethylation. In some aspects, the SETD7 modulator is a catalytically inactive SETD7 protein. In some aspects, the SETD7 modulator is a polypeptide (e.g., a phosphomimetic polypeptide). In other aspects, the SETD7 modulator is a polynucleotide encoding a SETD7 polypeptide modulator, e.g., a phosphomimetic polypeptide or a mutant SETD7 protein. The SETD7 modulators of the present disclosure can be used to treat type diabetes or cancer.

A benefit agent delivery system can deliver benefit agents on demand. The benefit agent delivery system comprises a first electrode layer, a microcell layer comprising a plurality of microcells, and a porous second electrode layer. Each of the plurality of microcells are filled with a liquid mixture comprising reverse micelles in a hydrophobic liquid that are formed from a polar liquid, a surfactant or stabilizing particles, and a benefit agent. Application of an electric field across a microcell layer causes an increase in the rate of release of the benefit agent of the microcell through the porous second electrode layer.

The present disclosure is directed to fatty-acid glycerol ester derivative compounds containing a targeting bisphosphonate group. The disclosure further includes pharmaceutical or biomedical compositions comprising these compounds, and methods of using these compounds and compositions forming microbubbles. The microbubbles have affinity for metal-containing, especially calcium-containing, bodies and/or biological targets. In certain embodiments, these compositions are useful for providing targeted placement of microbubbles capable of cavitation on application of high frequency energy.