Disclosed are improved devices, systems, methods and compositions containing therapeutic lipid monolayer stabilized gas microfoam(s) that can be applied to the skin after a treatment which “damages” or otherwise modifies one or more skin layers, which can improve a patient's recovery time, reduce swelling, scarification and/or callous formation, reduce skin sensitivity and/or lead to a more desirable appearance in a shorter period of time than existing skin treatments.

The present invention relates to an extended release multiparticulate composition comprising a plurality of discrete units, each discrete unit comprising ranolazine or a pharmaceutically acceptable salt thereof and one or more pharmaceutically acceptable excipients. The said multiparticulate composition is sprinkled onto soft foods or liquids for oral administration. Further, the multiparticulate composition is bioequivalent to the marketed extended release tablet. It further relates to a process of preparation of said multiparticulate composition and method of treatment of patients suffering from angina by administering said composition.

The invention relates to coated particles with a taste-masked drug substance. The particles comprise a core with a melt-agglomerated active pharmaceutical ingredient (API), optionally a thermolabile API, and a coating comprising a triglyceride and a surfactant. The particles exhibit immediate drug release and a storage-stable release profile. Moreover, the invention provides a hot-melt granulation and hot-melt coating method for manufacturing such coated particles, and pharmaceutical compositions comprising the coated particles. The method allows the granulation of APIs with small particle sizes (e.g., mean particle size below 150 μm, or even below 100 μm or 50 μm) into core particles, as well as coating said core particles, at moderate temperatures, thereby preventing the degradation of thermolabile active pharmaceutical ingredients.

The invention provides ingestible particles comprising a water-swellable or water-soluble polymeric component, a lipid component, and optionally an amino acid, a vitamin and/or a micro-nutrient. The polymeric component may be embedded in the lipid component. The particle may further comprise an inert core and/or an outer layer which rapidly disintegrates after oral ingestion. The invention further provides methods for preparing the ingestible particles and uses thereof.

An extended release pharmaceutical composition of Clozapine The extended release composition of Clozapine provides an extended release pharmaceutical composition having Clozapine, a seal coating, an acidic coating, and an extended release coating. The composition is particularly suitable for dispensing a once-a-day solid oral pharmaceutical formulation which releases a therapeutically effective amount of Clozapine over an extended time period.

The present invention relates to the field of coating pharmaceutical substrates. In particular, the invention relates to methods of coating of pharmaceutical substances, pharmaceutical ingredients or a blend of them. The invention also provides a method of making a pharmaceutical formulation which may be processed into a pharmaceuticalcal dosage form, which utilizes solid pharmaceutical particles and a pharmaceutical formulation obtained by the method. The methods of the invention utilize atomic layer deposition technology. The novel methods allow difficult, moisture sensitive and electrically charged pharmaceutical substrates to be easily processable.

The present invention relates to an extended release multiparticulate composition comprising a plurality of discrete units, each discrete unit comprising ranolazine or a pharmaceutically acceptable salt thereof and one or more pharmaceutically acceptable excipients. The said multiparticulate composition is sprinkled onto soft foods or liquids for oral administration. Further, the multiparticulate composition is bioequivalent to the marketed extended release tablet. It further relates to a process of preparation of said multiparticulate composition and method of treatment of patients suffering from angina by administering said composition.

Modified release formulations of gamma-hydroxybutyrate having improved dissolution and pharmacokinetic properties are provided, and therapeutic uses thereof.

The present disclosure relates to nanoparticles containing cellular membrane and uses thereof. The nanoparticle comprises an interior compartment (or an inner core) and an outer surface (or shell) comprising a cellular membrane derived from a cell, said interior compartment (or an inner core) not providing a solid support to said cellular membrane in said outer surface (or shell). The present disclosure also relates to processes of making the nanoparticles. The present disclosure further relates to compositions comprising the nanoparticles and methods of using the nanoparticles.

The present invention provides novel compositions and methods for targeted delivery of therapeutics. In particular, the invention provides compositions comprising a plurality of carriers, such as microbubbles, wherein at least one active agent is associated or co-administered with the plurality of carriers for delivery to a target site, e.g., an organ, a tissue, or a tumor site, in a subject. The present invention also provides methods for treating a disease or condition, methods of targeted delivery of an active agent, e.g., to a target site, in a subject, using the carriers based compositions of the invention. The present invention further provides apparatus, devices and methods for preparing the compositions of the present invention.