Sodium Starch Glycolate: A Superior Tablet Disintegrant
Enhance your tablet formulations with rapid disintegration and improved drug delivery.
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Sodium Starch Glycolate
As a leading pharmaceutical excipient, Sodium Starch Glycolate (SSG) derived from potato starch stands out as a potent superdisintegrant. Its primary function is to ensure rapid disintegration of tablets upon contact with gastrointestinal fluids, significantly improving the dissolution rate of active pharmaceutical ingredients (APIs). This leads to enhanced bioavailability and a faster onset of therapeutic action, making it an indispensable component in modern tablet formulations.
- Discover the benefits of sodium starch glycolate superdisintegrant in achieving faster tablet disintegration.
- Explore how potato starch pharmaceutical excipient can optimize your drug delivery systems.
- Understand the key mechanisms behind enhanced drug dissolution with SSG.
- Learn how to improve API bioavailability improvement using this versatile excipient.
Advantages of Using SSG
Exceptional Swelling Capacity
Benefit from the rapid water penetration and impressive swelling capabilities of SSG, a key factor in its role as a sodium starch glycolate superdisintegrant.
Enhanced Dissolution Rates
Leverage the power of this potato starch pharmaceutical excipient to significantly accelerate API dissolution, leading to more effective drug absorption.
Improved Bioavailability
Achieve better outcomes for patients by improving API bioavailability improvement, particularly for poorly soluble compounds.
Key Applications
Tablet Formulations
Crucial for enhancing tablet disintegration and dissolution, making it a staple in pharmaceutical tablet formulation.
Capsule Fillers
Used in capsule formulations to promote improved release profiles, contributing to faster drug action.
Direct Compression
An excellent direct compression excipient, facilitating efficient tablet manufacturing processes.
Wet Granulation
Well-suited for wet granulation, offering flexibility in tablet production methods.