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In Vitro Drug Dissolution: Compendial Testing Models II01:09

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In Vitro Drug Dissolution: Compendial Testing Models I01:13

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Compendial dissolution methods are standardized procedures defined by pharmacopeias to evaluate the rate at which a drug dissolves in a specific medium. These methods ensure batch-to-batch consistency, enable quality control, and support the prediction of drug bioavailability. They are critical for both immediate and modified-release drug products.The apparatuses used for dissolution testing differ in their design and mechanical function, but all aim to simulate the physiological environment of...
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In pharmaceutical development, it's crucial to establish a predictive in vitro–in vivo correlation (IVIVC) for two or more formulations to gain a comprehensive understanding of release properties. IVIVC reduces the need for costly in vivo studies and facilitates the establishment of meaningful dissolution specifications with significant cost savings and decreased regulatory burden. Furthermore, a meaningful IVIVC should predict Cmax and AUC within 20%, aligning with FDA guidance while...
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Predictive Performance Comparison of Computed Linear and Quadratic Multivariate Models for In-Situ UV Fiber Optics

Rusha Sardhara1, Kaushalendra Chaturvedi2, Harsh S Shah2

  • 1Division of Pharmaceutical Sciences, Arnold & Marie Schwartz College of Pharmacy and Health Sciences, The Long Island University, Brooklyn, NY-11201, USA.

European Journal of Pharmaceutical Sciences : Official Journal of the European Federation for Pharmaceutical Sciences
|March 16, 2021
PubMed
Summary
This summary is machine-generated.

Linear multivariate models accurately predict drug dissolution using fiber optics dissolution systems (FODS), overcoming signal saturation issues common with high-absorbance formulations. This offers a flexible alternative to traditional methods.

Keywords:
Multivariate analysisPartial least squaresPrincipal component regressionUV fiber optic dissolutionUV/Vis spectroscopy

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Area of Science:

  • Pharmaceutical Sciences
  • Analytical Chemistry
  • Process Analytical Technology (PAT)

Background:

  • In-situ UV fiber optics dissolution systems (FODS) face signal saturation challenges with high-absorbance formulations, leading to inaccurate dissolution profiles.
  • High absorbance impedes real-time assessment and can compromise the reliability of dissolution testing.

Purpose of the Study:

  • To develop and validate multivariate modeling approaches to resolve inaccuracy in FODS caused by signal saturation.
  • To assess the performance of linear and quadratic partial least squares (PLS) and principal component regression (PCR) models.

Main Methods:

  • Development of linear and quadratic PLS and PCR models using full spectra and low absorbance regions.
  • Comparison of model predictions against conventional dissolution testing (HPLC) for atenolol, ibuprofen, and metformin HCl immediate-release tablets.
  • Evaluation of multivariate models' performance within the 'built-in' Opt-Diss system.

Main Results:

  • Linear multivariate models (PLS and PCR) accurately predicted dissolution profiles, even with potential UV signal saturation.
  • The 'built-in' Opt-Diss model and multivariate quadratic models failed to provide accurate dissolution predictions.
  • Models demonstrated robust predictability across both low absorbance regions and full spectra.

Conclusions:

  • Linear PLS and PCR models offer a statistically robust and flexible solution for accurate dissolution testing with FODS, even under signal saturation conditions.
  • These linear multivariate models provide a viable alternative to conventional, labor-intensive UV or HPLC dissolution testing methods.