Abstract
The current need for strategies to accelerate and optimize the efforts to develop new in-expensive multifunctional direct compression tableting excipients with minimum risk to the products has urged the workers in pharmaceutical industry field to search for a simple and low cost-effective technique to tailor and engineer multi-functional excipients.
Highlights
The current need for strategies to accelerate and optimize the efforts to develop new in-expensive multifunctional direct compression tableting excipients with minimum risk to the products has urged the workers in pharmaceutical industry field to search for a simple and low cost-effective technique to tailor and engineer multi-functional excipients
The workers in pharmaceutical industry field has accelerated the steps towards developing direct compression tableting excipients of high functionality in terms of flow, compression, good binding, improved lubricating efficiency and improved dilution potential could be developed [5,6,7,8]
Which was co-processed with varying portions of locally extracted microcrystalline cellulose (CMCC) and its corresponding regenerated cellulose (CRC)
Summary
The current need for strategies to accelerate and optimize the efforts to develop new in-expensive multifunctional direct compression tableting excipients with minimum risk to the products has urged the workers in pharmaceutical industry field to search for a simple and low cost-effective technique to tailor and engineer multi-functional excipients. Developing of new tableting excipients is a tedious and time consuming multi-stage process. The co-processed excipients can be at high cost effective.
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