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Pharmaceutical Alternatives: Polymorphic Form-Related and Particle Size-Related Therapeutic Nonequivalence01:27

Pharmaceutical Alternatives: Polymorphic Form-Related and Particle Size-Related Therapeutic Nonequivalence

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,...
Factors Affecting Dissolution: Polymorphism, Amorphism and Pseudopolymorphism01:21

Factors Affecting Dissolution: Polymorphism, Amorphism and Pseudopolymorphism

Polymorphism refers to the existence of a drug substance in multiple crystalline forms, known as polymorphs. Recently, this term has been expanded to include solvates (forms containing a solvent), amorphous forms (non-crystalline forms), and desolvated solvates (forms from which the solvent has been removed).
Some polymorphic crystals possess lower aqueous solubility than their amorphous counterparts, leading to incomplete absorption. For instance, the oral suspension of Chloramphenicol, which...
Factors Influencing Drug Absorption: Pharmaceutical Parameters01:28

Factors Influencing Drug Absorption: Pharmaceutical Parameters

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...
In Vitro Drug Dissolution: Alternative Methods01:17

In Vitro Drug Dissolution: Alternative Methods

Alternative drug dissolution methods include the rotating bottle, intrinsic dissolution test, peristalsis, and the Franz diffusion cell method. The rotating bottle method involves meticulously rotating tightly capped controlled-release beads in a temperature-controlled bath. Periodic decanting of samples allows for residue assay, followed by refilling with fresh medium and testing at various pH levels to emulate the gastrointestinal tract conditions.In contrast, the intrinsic dissolution test...
Formulation and Manufacturing Process: Physical Attributes of Generic Tablets and Capsules01:18

Formulation and Manufacturing Process: Physical Attributes of Generic Tablets and Capsules

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...
Pharmaceutical Alternatives: Stability-Related Therapeutic Nonequivalence01:22

Pharmaceutical Alternatives: Stability-Related Therapeutic Nonequivalence

Generic intravenous (IV) drugs are considered bioequivalent to their branded counterparts due to their 100% bioavailability upon administration. However, variations in stability among different drug products can significantly influence their therapeutic performance, even if they are pharmaceutically equivalent.Cefuroxime, a prophylactic antimicrobial, is often used as a single-dose IV injection for patients undergoing coronary artery bypass grafting surgery. A 3 g dose typically provides...

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Related Experiment Video

Updated: Jun 25, 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

Thixotropic property in pharmaceutical formulations.

Chi H Lee1, Venkat Moturi, Yugyung Lee

  • 1Division of Pharmaceutical Sciences, School of Pharmacy, University of Missouri, Kansas City, MO 64110, USA. leech@umkc.edu

Journal of Controlled Release : Official Journal of the Controlled Release Society
|March 3, 2009
PubMed
Summary

This review explores thixotropic property characterization and its pharmaceutical uses. Understanding rheological properties of thixotropic formulations is key for effective controlled drug delivery systems.

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Formation of Dispersible Taohong Siwu Tablets
05:44

Formation of Dispersible Taohong Siwu Tablets

Published on: February 3, 2023

Related Experiment Videos

Last Updated: Jun 25, 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

Formation of Dispersible Taohong Siwu Tablets
05:44

Formation of Dispersible Taohong Siwu Tablets

Published on: February 3, 2023

Area of Science:

  • Pharmaceutical Sciences
  • Materials Science

Background:

  • Thixotropy, a time-dependent shear-thinning behavior, is crucial for developing advanced drug delivery systems.
  • Understanding the factors influencing thixotropy is essential for optimizing formulation performance.

Purpose of the Study:

  • To comprehensively review the characterization of thixotropic properties.
  • To identify key factors affecting thixotropy in pharmaceutical formulations.
  • To explore the diverse pharmaceutical applications of thixotropic systems for controlled drug delivery.

Main Methods:

  • Literature review focusing on rheological and mechanical characterization of thixotropic materials.
  • Analysis of factors such as pH, temperature, polymer concentration, and excipient addition.
  • Examination of drug release kinetics and pharmacological outcomes from various administration routes.

Main Results:

  • Thixotropic behavior is significantly influenced by pH, temperature, polymer characteristics, and excipient interactions.
  • Thixotropic formulations demonstrate potential for controlled drug delivery via oral, topical, ophthalmic, dental, and mucosal routes.
  • Rheological properties directly correlate with drug release profiles and therapeutic efficacy.

Conclusions:

  • Thixotropic formulations offer tunable properties for advanced drug delivery applications.
  • Comprehensive understanding of rheology and influencing factors is vital for designing effective thixotropic drug delivery systems.
  • This review highlights the broad potential of thixotropic systems in pharmaceutical development.