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Related Concept Videos

Factors Influencing Drug Absorption: Drug Dissolution01:27

Factors Influencing Drug Absorption: Drug Dissolution

The pharmacokinetic journey of drugs from solid oral dosage forms into systemic circulation is multifaceted. It begins with disintegration, a prerequisite ensuring a solid dosage form's subdivision into minute particles. Dissolution occurs next as these granulated entities solubilize in gastrointestinal fluids. This solubilization is crucial for the succeeding stage, permeation, which describes the traversal of the drug across the intestinal membrane and its subsequent entry into the blood...
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...
Factors Affecting Dissolution: Particle Size and Effective Surface Area01:23

Factors Affecting Dissolution: Particle Size and Effective Surface Area

Dissolution kinetics, an essential aspect of oral drug delivery, is significantly influenced by the drug's particle size. According to the Noyes-Whitney dissolution model, the dissolution rate correlates directly with the drug's surface area. The larger the surface area, the higher the drug's solubility in water, leading to a faster drug dissolution rate. Reducing particle size increases the effective surface area, enhancing the dissolution process. Micronization and nanosizing are employed to...
Factors Affecting Dissolution: Drug Permeability, Stability and Stereochemistry01:20

Factors Affecting Dissolution: Drug Permeability, Stability and Stereochemistry

Orally administered drugs primarily enter the systemic circulation via passive diffusion through the intestinal membranes. The drug's absorption is influenced by drug stability in the gastrointestinal GI tract, membrane permeability, the surface area available for absorption, luminal drug concentration, and residence time in the lumen. Drug permeability can be enhanced by adjusting the lipophilicity, polarity, or molecular size of the drug, promoting its passive transport across intestinal...

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Coherent anti-Stokes Raman Scattering (CARS) Microscopy Visualizes Pharmaceutical Tablets During Dissolution
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Coherent anti-Stokes Raman Scattering (CARS) Microscopy Visualizes Pharmaceutical Tablets During Dissolution

Published on: July 4, 2014

Random effects in drug dissolution.

Jakub Cupera1, Petr Lansky

  • 1Department of Mathematics and Statistics, Faculty of Science, Masaryk University, 611 37 Brno, Czech Republic. xcupera@math.muni.cz

European Journal of Pharmaceutical Sciences : Official Journal of the European Federation for Pharmaceutical Sciences
|July 28, 2010
PubMed
Summary
This summary is machine-generated.

This study introduces stochastic models for drug dissolution, accounting for the inherent randomness observed in experiments. These new models improve understanding of dissolution variability and its impact on mean dissolution time.

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Coherent anti-Stokes Raman Scattering (CARS) Microscopy Visualizes Pharmaceutical Tablets During Dissolution
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Area of Science:

  • Pharmaceutical Science
  • Stochastic Modeling
  • Physical Chemistry

Background:

  • Deterministic dissolution models are standard in pharmaceutical research.
  • Experimental data increasingly suggests dissolution processes are stochastic.
  • Existing models do not fully capture the inherent randomness in dissolution.

Purpose of the Study:

  • To develop stochastic modifications of deterministic dissolution models.
  • To analyze the properties and probability distributions of these new stochastic models.
  • To investigate the sources and impact of variability in dissolution data.

Main Methods:

  • Utilized the Wiener process to create stochastic differential equations for dissolution.
  • Derived probability distributions for dissolution data from the stochastic models.
  • Proposed a function to describe dissolution data variability over time.
  • Employed maximum-likelihood estimation for parameter identification.

Main Results:

  • Developed novel stochastic models for drug dissolution.
  • Quantified dissolution data variability, identifying environmental and measurement errors as key sources.
  • Demonstrated the practical application of stochastic models using experimental data.
  • Showcased the influence of noise sources on mean dissolution time estimates.

Conclusions:

  • Stochastic models offer a more realistic representation of drug dissolution processes.
  • Understanding and quantifying variability is crucial for accurate dissolution analysis.
  • The proposed stochastic approach enhances the interpretation of experimental dissolution data and parameter estimation.