Disclosed are immunotherapeutic compositions and the concurrent use of combinations of such compositions for the improved induction of therapeutic immune responses and/or for the prevention, amelioration and/or treatment of disease, including, but not limited to, cancer and infectious disease.

Compositions and methods for identifying and using cis-regulatory and decoy sequences are disclosed.

This invention relates to the field of therapeutics. Most specifically, the invention provides methods of generating conditionally expressing vectors for one or more immuunomodulators under the control of a gene expression modulation system in the presence of activating ligand and uses for therapeutic purposes in animals. These vector may be provided to treat a variety of disorders, e.g., neoplastic disorders, through direct injection or through in vitro engineered cells, such as dendritic cells.

Provided is an inorganic composite compound having reduced oxygen and a high reducing ability, which includes elements having a positive atomic valence of a plant-derived component and a sulfur compound. The compound provides a therapeutic treatment effect and a pharmacological effect and is useful to suppress the influence of active oxygen (oxidization) and cannot be produced by a synthetic chemical technique. A method of producing the same is also provided.

The disclosure describes nanocarried and/or microcarried jasmonate compounds and their pharmaceutical compositions, as well as use thereof for treating or preventing angiogenesis-related or NF-κB-related disorders. Also disclosed are methods of making the nanocarried and/or microcarried compounds and their compositions.

The present invention provides for a process for preparing liposomes, lipid discs, and other lipid nanoparticles using a multi-port manifold, wherein the lipid solution stream, containing an organic solvent, is mixed with two or more streams of aqueous solution (e.g., buffer). In some aspects, at least some of the streams of the lipid and aqueous solutions are not directly opposite of each other. Thus, the process does not require dilution of the organic solvent as an additional step. In some embodiments, one of the solutions may also contain an active pharmaceutical ingredient (API). This invention provides a robust process of liposome manufacturing with different lipid formulations and different payloads. Particle size, morphology, and the manufacturing scale can be controlled by altering the port size and number of the manifold ports, and by selecting the flow rate or flow velocity of the lipid and aqueous solutions.

The present invention relates to a pharmaceutical composition comprising a combination of benzydamine and an antimycotic active ingredient, said combination having a synergistic effect in the treatment of mycosis.

The invention relates to an oil-in-water dispersion comprising coniferous resin acids, its preparation and use as an antimicrobial and anti-inflammatory agent in medical and non-medical products. The invention also relates to a pharmaceutical product comprising the oil-in-water dispersion.

The dual microbial preparation contains the microscopic oomycete Pythium oligandrum and components of a physiological microbiome. The microscopic oomycete Pythium oligandrum and the physiological microbiome component are present in the dual preparation in a form which facilitates their germination, subsequent propagation and colonization of the target tissues. The microscopic oomycete Pythium oligandrum is incorporated in a quantity of 10.sup.3 to 10.sup.7 CFU (colony forming units), with 10.sup.4 to 10.sup.5 CFU per one cycle of application preferably. The physiological microbiome component contains 5×10.sup.6 to 5×10.sup.10 CFU, with 5×10.sup.7 to 5×10.sup.9 per one cycle of application preferably. The fermented substrate found in the Pythium oligandrum oomycete is the source of nutrients for both microbial components. The dual microbial preparation also contains at least one auxiliary substance from a group including a desiccant, components of a buffer system, an anti-caking substance and an agent for the creation of a physiological osmotic environment. The physiological microbiome component is a component of the human microbiome, one of the microbes of the green complex, such as the Capnocytophaga sputigena bacterium, or one of the components of the healthy skin microbiome, such as the Staphyloccocus epidermidis bacterium, or one of the components of the healthy vaginal microbiome, such as the peroxide producing Lactobacillus crispatus. Either the microscopic oomycete Pythium oligandrum or the physiological microbiome component is present in the dual microbial preparation in the form of inactivated cells, cell extracts or isolated cell fractionation. The microbial activator for the Pythium oligandrum oomycete is a yeast autolysate in a quantity of 0.1% to 10% weight of the total quantity of dual microbial preparation. The auxiliary substances are regulated in a way which allows for application in the form of an ointment, cream, oil or suppository or in the form of a liquid aqueous preparation.

The present invention provides crystalline forms of efinaconazole, including crystalline efinaconazole forms designated herein as Form A, Form B and Form C, crystalline efinaconazole p-toluenesulfonate salt designated herein as Form I, and processes for their preparation.