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Changes in polymorphic forms can significantly influence the bioavailability of poorly soluble drugs. Although the FDA defines pharmaceutical equivalence based on having the same active ingredient, dosage form, and route of administration, it does not automatically disqualify products with different polymorphic forms. This means two products with different polymorphs can still be deemed pharmaceutically equivalent. However, polymorphic differences can affect properties like wettability,...
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Solid dosage forms such as tablets and capsules undergo rigorous manufacturing processes to ensure stability and effectiveness. Their dissolution and absorption properties are influenced significantly by the choice of excipients (inactive ingredients that serve various roles in the formulation), and the methodology applied during production. The manufacturing parameters, such as compression force and granulation techniques, significantly affect dissolution rates. Elevated compression forces...
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Improving a drug's stability in the gastrointestinal (GI) tract is paramount for enhancing its bioavailability and therapeutic effectiveness. Various strategies are employed to protect the drug from the harsh gastric milieu and to ensure its release and absorption at the desired site within the GI tract.Polymer coatings are one such method used to shield drugs from the stomach's acidic environment. By preventing premature drug release, these coatings improve the bioavailability of unstable...
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Bioavailability is a critical factor in determining a drug's effectiveness. It refers to the proportion of a drug that enters the circulation when introduced into the body and is, as a result, able to have an active effect. Enhancing bioavailability is essential for drugs with poor solubility, as it can significantly impact their therapeutic efficacy. Various methods are employed to increase the solubility of drugs, thereby enhancing their bioavailability.Micronization and nanonization are...
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Bioequivalence in generic drugs, such as tablets and capsules, refers to their pharmaceutical equivalence to the brand-name counterparts. However, for therapeutic equivalence, manufacturers must also consider physical attributes like size, shape, and weight (FDA Guidance for Industry, December 2003). Discrepancies in these aspects could impact patient compliance and cause medication errors. For instance, swallowing difficulties, often experienced with larger tablets or capsules, can lead to...
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Related Experiment Video

Updated: Jun 23, 2026

A Package of Established Analytical Tools to Investigate the Solid-State Alteration of Lipid-Based Excipients
11:27

A Package of Established Analytical Tools to Investigate the Solid-State Alteration of Lipid-Based Excipients

Published on: August 9, 2022

Short-term changes in drug agglomeration within interactive mixtures following blending.

J G Andreou1, P J Stewart, D A V Morton

  • 1Drug Delivery, Disposition and Dynamics, Monash Institute of Pharmaceutical Science, Monash University, 381 Royal Parade, Parkville, Victoria 3052, Australia.

International Journal of Pharmaceutics
|May 12, 2009
PubMed
Summary
This summary is machine-generated.

Drug dissolution rates in interactive mixtures decrease significantly after blending due to increased particle agglomeration. This study highlights the need for better understanding of powder behavior in drug delivery systems.

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Published on: January 7, 2019

Area of Science:

  • Pharmaceutical Sciences
  • Materials Science
  • Physical Chemistry

Background:

  • Interactive mixtures are crucial in powder-based drug delivery systems.
  • Understanding dynamic changes post-processing is vital for drug performance and stability.

Purpose of the Study:

  • To investigate short-term dynamic changes in dissolution of micronized drugs in interactive mixtures.
  • To quantify changes in agglomeration and dissolution rates after blending.

Main Methods:

  • Formulation of nitrazepam and flunitrazepam into lactose-based interactive mixtures with a surfactant.
  • Dissolution rate testing and modeling using a multi-exponential equation.
  • Particle-sizing studies to assess agglomerate formation.

Main Results:

  • Significant decrease in drug dissolution rates observed days after preparation.
  • Increased drug agglomeration correlated with decreased dissolution rates.
  • First report of short-term dissolution changes post-secondary processing.

Conclusions:

  • Short-term agglomeration significantly impacts drug dissolution in interactive mixtures.
  • Further research is needed on factors influencing agglomeration (surface charge, moisture, processing).
  • Findings have implications for powder-based drug delivery and Quality by Design (QbD) implementation.