OR WAIT null SECS
September 02, 2006
As the pace of product development accelerates, the approach to dissolution-method development must advance beyond a manual method and an assay. A natural progression of the method-development process must include the transfer of the manual method onto automated instrumentation.
June 02, 2006
Predictable outcomes lead to greater manufacturing efficiency and speed time to value.
The biggest single recent trend in outsourcing solid-dosage processing has been the movement toward discovery and synthesis of more potent active pharmaceutical ingredients.
March 24, 2006
Implementing a PAT Strategy
March 02, 2006
Quantitative data from the literature show strong relationships among average particle size, powder densification, tensile strength, and hardness.
February 02, 2006
The pharmaceutical industry's focus on process understanding, monitoring, and control is driving manufacturers to take greater steps toward identifying possible manufacturing bottlenecks earlier in the development process. For tablet, capsule, and excipient producers, such efforts include taking a closer look at the flow-ability of their powders.
Using a novel automated microfilling system, the authors demonstrate that roller compaction followed by milling is a viable preprocessing technique for high-dose chemical-in-capsule dosage forms. The process results in higher bulk and tapped densities for drug substances compared with milling alone.
February 01, 2006
Though dissolution testing has been under scrutiny, it is still a powerful test method.
December 01, 2005
Almost all pharmaceutical manufacturing processes require handling and processing cohesive powders. The application of sufficient shear (i.e., the total deformation that the bulk of granular material undergoes under applied shear stress) is an essential factor in such processes. Sufficient shear is required to mill and de-lump materials, achieve sufficient flow, and homogenize cohesive ingredients. Shear mixing plays a critical role in the blending of dry powders, particularly for those that contain a minor cohesive component such as a solid lubricant or a drug. This mechanism is necessary to achieve a satisfactory homogeneity and disintegrate possible agglomerates. Excessive shear can be disadvantageous, however, and can lead to electrostatic buildup, attrition, and overlubrication.
Solid oral drug products are one of the oldest of all manufactured dosage forms (1). Today, the development of an appropriate formulation of drug and excipients and of an effective manufacturing process to create a tablet or capsule is slowly transforming from a practice of applied art to one of applied science. The US Food and Drug Administration supports this change by expecting sponsors of new drug applications to understand, describe, and control materials and processes as well as the risks associated with drug product manufacturing (2). These steps will ensure the consistent production of products that meet their specifications and remain safe and effective during their shelf life.