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Bioavailability Enhancement: Drug Permeability Enhancement01:27

Bioavailability Enhancement: Drug Permeability Enhancement

After oral administration, poor permeability often limits the rate at which drugs are absorbed through the intestinal epithelium. Enhancing drug permeability is crucial for effective therapy, and several strategies have been developed to overcome this challenge.One effective strategy involves the use of lipid-based formulations. These formulations enhance dissolution and solubility, targeting physiological mechanisms to increase drug absorption. This includes stimulating bile salt secretion,...
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...
Bioavailability Enhancement: Drug Solubility Enhancement01:16

Bioavailability Enhancement: Drug Solubility Enhancement

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...
Methods for Studying Drug Absorption: In situ01:09

Methods for Studying Drug Absorption: In situ

In situ experiments, such as the Doluisio method and Single-Pass Perfusion technique, provide critical insights into drug uptake by simulating in vivo conditions for drug absorption.
The Doluisio method involves perfusing a prepared segment of a rat's small intestine with a solution of radiolabeled drug and a non-absorbable marker. This helps to differentiate between absorbed and non-absorbed drug concentrations. The intestinal segment is connected at both ends using tubing and syringes,...
Modified-Release Drug Delivery Systems: Site-Targeted01:24

Modified-Release Drug Delivery Systems: Site-Targeted

Site-targeted drug delivery systems enhance therapeutic efficacy while minimizing systemic toxicity and treatment costs. Unlike conventional methods, these systems ensure precise drug delivery, improving bioavailability and reducing side effects. Targeted drug delivery is classified into three levels. First-order targeting directs drugs to the capillary beds of specific organs or tissues. Second-order targets specific cell types, such as tumor cells, using receptor-mediated interactions.
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...

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Related Experiment Video

Updated: May 18, 2026

Visualizing and Quantifying Pharmaceutical Compounds within Skin using Coherent Raman Scattering Imaging
11:07

Visualizing and Quantifying Pharmaceutical Compounds within Skin using Coherent Raman Scattering Imaging

Published on: November 24, 2021

Applying response surface methodology to optimize nimesulide permeation from topical formulation.

Yasser Shahzad1, Urooj Afreen, Syed Nisar Hussain Shah

  • 1Division of Pharmacy and Pharmaceutical Science, School of Applied Sciences, University of Huddersfield, Huddersfield, HD1 3DH, UK. y.shahzad@hud.ac.uk

Pharmaceutical Development and Technology
|September 22, 2012
PubMed
Summary
This summary is machine-generated.

This study optimized topical nimesulide lotions for better skin absorption. Using response surface methodology, researchers enhanced percutaneous absorption of the non-steroidal anti-inflammatory drug.

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Area of Science:

  • Pharmaceutical Sciences
  • Drug Delivery Systems

Background:

  • Nimesulide, a selective COX-2 inhibitor, suffers from poor bioavailability, leading to local toxicity and reduced therapeutic efficacy.
  • Topical drug delivery offers a potential alternative to overcome systemic side effects and improve localized treatment.

Purpose of the Study:

  • To formulate and optimize topical nimesulide lotion formulations using response surface methodology.
  • To investigate the impact of permeation enhancers on the percutaneous absorption of nimesulide.

Main Methods:

  • Formulation of nimesulide lotions with varying concentrations of propylene glycol and polyethylene glycol.
  • Evaluation of physical parameters (pH, viscosity, spreadability, homogeneity) and in vitro permeation studies using Franz diffusion cells.
  • Application of response surface methodology to model and optimize enhancer concentrations for enhanced drug permeation.

Main Results:

  • The best fit quadratic model indicated that a combination of propylene glycol and polyethylene glycol at equal levels significantly enhanced nimesulide flux and permeability coefficient.
  • Optimized formulations demonstrated improved in vitro percutaneous absorption of nimesulide through rabbit skin.
  • Response surface methodology proved effective in predicting and optimizing topical formulation performance.

Conclusions:

  • Optimized nimesulide lotion formulations with enhanced permeation can improve topical drug delivery.
  • Response surface methodology is a valuable tool for optimizing topical formulations and predicting drug permeation.
  • This approach holds promise for developing effective topical treatments with improved bioavailability and reduced local toxicity.