Inorganic controlled release technology : materials and concepts for advanced drug formulation / Xiang Zhang, Mark Cresswell.
Inorganic Controlled Release Technology: Materials and Concepts for Advanced Drug Formulation provides a practical guide to the use and applications of inorganic controlled release technology (iCRT) for drug delivery and other healthcare applications, focusing on newly developed inorganic materials...
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| Format: | eBook |
| Language: | English |
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Oxford, UK :
Elsevier : BH,
[2016]
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Table of Contents:
- Front Cover
- Inorganic Controlled Release Technology: Materials and Concepts for Advanced Drug Formulation
- Copyright
- Contents
- About the Author
- Preface
- Acknowledgments
- Key Features
- Chapter 1: Materials for Inorganic Controlled Release Technology
- 1.1. Introduction
- 1.2. Comparison between Organic and Inorganic CRT
- 1.3. Materials Chemistry and Processing Technology
- 1.3.1. Fusion-Based Approach to Making Water-Soluble Glasses
- 1.3.2. Sol-Gel Approach
- 1.3.3. Surfactant Template Approach for Mesoporous Silica.
- 1.4. Materials Physics and Drug-Loaded Micro/NanostructureReferences
- Chapter 2: Materials Fundamentals of Drug Controlled Release
- 2.1. Introduction of Materials Nanostructure
- 2.1.1. The Structure of Amorphous Materials
- 2.1.2. Theories of Amorphous Materials
- 2.1.2.1. Glass Transition
- 2.1.2.2. Free Volume Theory
- 2.2. API Distribution Within Inorganic Matrices
- 2.2.1. Traditional API Distribution
- 2.2.2. API Distribution Within inorganic CRT Matrices
- 2.3. Basic Understanding of Potential Molecular Interactions.
- 2.3.1. Classical API Excipients2.3.2. Interactions Between API and inorganic CRT Matrix Systems
- 2.3.3. The Surface Chemistry of Silica
- 2.3.4. Molecular Interaction with Directionally Templated Mesoporous Silica Systems
- 2.3.5. Towards Molecular Dispersion and Distribution
- 2.3.6. Molecular Interaction Sites on Sol-Gel Silica and Phosphate Glass
- 2.3.7. Dissolution of Phosphate Glass
- 2.3.8. Glass Formulation for inorganic CRT
- 2.4. Theory and Practical Modelling of Drug Controlled Release Kinetics
- References
- Further Reading.
- Chapter 3: Materials Characterization of Inorganic Controlled Release3.1. Introduction
- 3.2. Chemical Analysis
- 3.2.1. X-Ray Fluorescence
- 3.2.1.1. Case Study: Contamination Investigation
- 3.2.2. Inductively Coupled Plasma Mass Spectrometry
- 3.2.2.1. Case Study: Controlled Release of Strontium from P-glass
- 3.2.2.2. Case Study: Detection of Cobalt and Chromium Ions in Patients with Metal-on-Metal Implants
- 3.2.3. FTIR
- 3.2.3.1. Case Study: FTIR Study of Silanol Groups in Silica, Slica-Alumina, and Zeolites.
- 3.2.3.2. Case Study: Quantification of Bridging and Non-bridging SiO as a Function of SiO2 % by FTIR3.2.4. X-Ray Photoelectron Spectroscopy (XPS)-Surface Chemistry 1
- 3.2.4.1. Case Study: XPS Study on SiOSi Bridging Energy Variation
- 3.2.5. Secondary Ion Mass Spectrometry (SIMS)-Surface Chemistry 2
- 3.2.5.1. Case Study: Investigation of the Surface Chemistry of a Bioglass-Polymer Hybrid Composite
- 3.3. Physical Property Analysis
- 3.3.1. X-Ray Diffraction
- 3.3.1.1. Case Study: Characterization of a Calcium Hydroxyapatite Reference Material5.