The proposed compositions and methods for preparation thereof relate to pharmacology, medicine, veterinary science and pharmaceutical industry. The compositions can be used for preparing infusion solutions of antimicrobial (antibacterial and antifungal) preparations increasing therapeutic efficiency thereof. The compositions include nanostructured colloidal silica and are efficient when treating overwhelming sepsis of tested animals. The pharmaceutical compositions have a proven and significant clinically important potentiating impact on therapeutic efficiency of the infusion solution, when treating inflammatory diseases, in comparison with traditional solvents.

Disclosed are various embodiments of lipid multiparticulate compositions comprising at least one active agent, a low flow point excipient, and a high flow point excipient.

Disclosed herein are therapeutic constructs including a delivery particle, at least one mitotic kinase inhibitor, and at least one immune checkpoint inhibitor. Also disclosed are therapeutic constructs including a mitotic kinase inhibitor, an immune checkpoint inhibitor, and a chemical linker. These therapeutic constructs cause cancer death by both therapeutic and immune effects and promote targeted delivery of more therapeutics to the surviving cancer cells in a positive feed-back loop. They enhance therapeutic index of free drugs and can be used intratumorally or systemically. This strategy can treat broad cancer types and is particular useful for cancer without obvious receptors for cancer-targeted delivery of otherwise toxic therapeutics.

The invention relates to a process for the preparation of a product comprising one or more nanoparticles of calcium phosphate (CaP-NP) with negative surface charge having a ζ-potential in the range from −41.0 mV to −27.0 mV comprising the steps of: a) maintaining a mixture having a pH in the range from 7 to 10 and comprising an aqueous solution of calcium, an aqueous solution of phosphate and a solution of citrate ions at a temperature in the range from 20° C. to 40° C. for a time in the range from 30 seconds to 10 minutes; b) removing non-reacted ions from the solution of step a), thus obtaining a suspension of one or more nanoparticles of calcium phosphate (CaP-NP); c) recovering the product of one or more nanoparticles of calcium phosphate (CaP-NP) from the suspension of step b). In an advantageous embodiment, the process of the invention provides, in the mixture of step a), also an aqueous solution of one or more therapeutic/diagnostic compounds. The product of the invention may be used as a vehicle for one or more diagnostic/therapeutic compounds for the treatment of cardiovascular diseases through inhalation administration.

Processes for preparing porous particles are disclosed, in which the resulting particles release an encapsulated active ingredient more readily in aqueous media than they do in alcoholic media. Also described are the particles themselves, as well as tamperproof, abuse-deterrent, dosage forms comprising the porous particles. The release characteristics of the porous particles make them useful for overcoming drug-abuse techniques, such as dose-dumping in alcoholic media.

The invention includes a substance based on nanocrystalline maghemite having a crystal size of between 0.5 and 4 nm, which is defined by a proportion of divalent iron ions less than five percent by weight of the total iron, and the transport of sodium and simultaneously phosphate in the gastrointestinal wall from the gastrointestinal contents into the bloodstream is reduced and thus can improve the imbalance of electrolyte and water and mineral balances of patients having impaired renal function when used orally in combination with suitable pharmaceutical adjuvants.

The present invention relates to novel microporous zirconium silicate compositions that are formulated to remove toxins, e.g. potassium ions, from the gastrointestinal tract at an elevated rate without causing undesirable side effects. The preferred formulations are designed avoid increase in pH of urine in patients and/or avoid potential entry of particles into the bloodstream of the patient. Also disclosed is a method for preparing high purity crystals of UZSi-9 exhibiting an enhanced level of potassium exchange capacity. These compositions are particularly useful in the therapeutic treatment of hyperkalemia.

The present invention includes solid compositions of triglycerides with one or more fatty acids, such as triheptanoin and glycerol phenylbutyrate, and therapeutic use thereof. The solid compositions can be prepared by spray-drying or other processes.

The present invention relates to a solid or liquisolid formulation comprising corallopyronin A, wherein the formulation comprises an amorphous solid dispersion of corallopyronin A embedded in a water-soluble polymer or corallopyronin A loaded onto porous silica.

The present invention provides a tablet comprising opicapone or a pharmaceutically acceptable salt thereof, having reduced tableting faults during manufacture. It further relates to a tablet comprising opicapone or a pharmaceutically acceptable salt thereof, wherein the tablet comprises particles of opicapone or pharmaceutically acceptable salt thereof having the following particle size, and a manufacturing method thereof:(i) a maximum length D50 value of 45 .Math.m or less, and/or (ii) a maximum length D90 value of 110 .Math.m or less