Modeling of Disintegration and Dissolution Behavior of Mefenamic Acid Formulation Using Numeric Solution of Noyes-Whitney Equation with Cellular Automata on Microtomographic and Algorithmically Generated Surfaces
Published 2018 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Modeling of Disintegration and Dissolution Behavior of Mefenamic Acid Formulation Using Numeric Solution of Noyes-Whitney Equation with Cellular Automata on Microtomographic and Algorithmically Generated Surfaces
Authors
Keywords
-
Journal
Pharmaceutics
Volume 10, Issue 4, Pages 259
Publisher
MDPI AG
Online
2018-12-03
DOI
10.3390/pharmaceutics10040259
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Dissolution and disintegration kinetics of high-active pharmaceutical granules produced at laboratory and manufacturing scale
- (2016) David Smrčka et al. EUROPEAN JOURNAL OF PHARMACEUTICS AND BIOPHARMACEUTICS
- Review of Disintegrants and the Disintegration Phenomena
- (2016) Parind Mahendrakumar Desai et al. JOURNAL OF PHARMACEUTICAL SCIENCES
- In silico and in vitro methods to optimize the performance of experimental gastroretentive floating mini-tablets
- (2015) Veronika A. Eberle et al. DRUG DEVELOPMENT AND INDUSTRIAL PHARMACY
- Predicting the dissolution behavior of pharmaceutical tablets with NIR chemical imaging
- (2015) Ketsia Yekpe et al. INTERNATIONAL JOURNAL OF PHARMACEUTICS
- The Disintegration Process in Microcrystalline Cellulose Based Tablets, Part 1: Influence of Temperature, Porosity and Superdisintegrants
- (2015) Samy Yassin et al. JOURNAL OF PHARMACEUTICAL SCIENCES
- Floating gastroretentive drug delivery systems: Comparison of experimental and simulated dissolution profiles and floatation behavior
- (2014) Veronika A. Eberle et al. EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES
- Multifractal breakage patterns of thick maltodextrin agglomerates
- (2014) Evangelina García-Armenta et al. POWDER TECHNOLOGY
- Mathematical modeling of drug dissolution
- (2013) J. Siepmann et al. INTERNATIONAL JOURNAL OF PHARMACEUTICS
- An Attempt to Calculate In Silico Disintegration Time of Tablets Containing Mefenamic Acid, a Low Water-Soluble Drug
- (2013) Go Kimura et al. JOURNAL OF PHARMACEUTICAL SCIENCES
- Formulation design space analysis for drug release from swelling polymer tablets
- (2012) James A. Kimber et al. POWDER TECHNOLOGY
- DEM simulation of drug release from structurally heterogeneous swelling tablets
- (2012) James A. Kimber et al. POWDER TECHNOLOGY
- Discrete element method modeling of bi-convex pharmaceutical tablets: Contact detection algorithms and validation
- (2011) Madhusudhan Kodam et al. CHEMICAL ENGINEERING SCIENCE
- Modelling of pharmaceutical tablet swelling and dissolution using discrete element method
- (2011) James A. Kimber et al. CHEMICAL ENGINEERING SCIENCE
- Controlled release from hydrogel-based solid matrices. A model accounting for water up-take, swelling and erosion
- (2011) Gaetano Lamberti et al. INTERNATIONAL JOURNAL OF PHARMACEUTICS
- Microstructure-based mathematical modelling and spectroscopic imaging of tablet dissolution
- (2010) James A. Kimber et al. COMPUTERS & CHEMICAL ENGINEERING
- Cellular automata model for swelling-controlled drug release
- (2009) Hannu Laaksonen et al. INTERNATIONAL JOURNAL OF PHARMACEUTICS
- An efficient finite/discrete element procedure for simulating compression of 3D particle assemblies
- (2008) Göran Frenning COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
- Process Modeling in the Pharmaceutical Industry using the Discrete Element Method
- (2008) William R. Ketterhagen et al. JOURNAL OF PHARMACEUTICAL SCIENCES
- Micromechanics of breakage in sharp-edge particles using combined DEM and FEM
- (2008) Ahad Bagherzadeh-Khalkhali et al. Particuology
- Single and bulk compression of pharmaceutical excipients: Evaluation of mechanical properties
- (2007) Siaw Fung Yap et al. POWDER TECHNOLOGY
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now