− Pellets, which are multiple-unit dosage systems, have the several therapeutic advantages over single-unit dosage systems in oral drug delivery. This review focuses on the current status and explores extrusion-spheronization technique with special attention to controlled-release application of pellets including coated pellets for delayed release formulations, coated pellets for colon delivery, coated pellets for sustained drug delivery, sustained-release matrix pellets, pellets compressed into tablets, bioadhesive pellets, floating pellets, and pelletization with solubilization techniques.Key words − Pellets, Multiparticulates, Modified-release, Pelletization, Solubilization Pelletization process is an agglomeration process that results in agglomerates of a narrow size distribution in the range of 0.5-1.5 mm with a low intra-agglomerate porosity (about 10%) and the higher density compared to the granules. Pellets are produced by pelletization process and these agglomerates have the relatively spherical shape, low friability and free flowing properties, which facilitate the handling of pellets in the manufacturing process. Pelletization process can prevent the segregation of co-agglomerated components, resulting in an improvement of the content uniformity. Pelletization process can also avoid the dust formation resulting in an improvement of the process safety, as fine powders can cause dust explosions and respiratory health problems. Pellets are widely used in multiparticulate systems and multiparticulate systems have the several therapeutic advantages over single-unit dosage systems in oral drug delivery. The low inter-and intra-subject variability can be achieved by multiparticulate systems because multiparticulates can pass through the pylorus immediately after administration. Moreover, less effect of food on drug absorption and rather uniform gastric emptying time than single-unit dosage systems can be attainable in multiparticulate systems. Safety concerns due to dose dumping of drugs, which have narrow therapeutic index, is minimized in multiparticulate systems, and more foreseeable drug delivery in sustained release formulation is possible because the total drug dose is divided over many units, not in a single-unit system. The small size of multiparticulates also enables them to be well dispersed along the gastrointestinal (GI) tract, enhancing drug absorption and reducing the irritant effect that single-unit systems may cause to the mucosal lining, especially if remained for an extended time at a specific site. The spherical pellets can be coated with rate-controlling polymers or compressed into tablets to achieve delayed-release, extended-release, and targeted-release profiles. Multiparticulate systems with different dose strengths can be obtained from the same batch of drug-loaded pellets without additional formulation or process modification. Pellets with different drugs or with different release profiles can be blended and formulated in a single-unit dosage form such as capsule, which promo...
