Applied Physical Pharmacy, 3rd Edition

Emphasizing relevancy to practice, clarity of presentation, and utilizing practice-oriented examples and case studies, this acclaimed text is the ideal learning tool for pharmacy students as well as practitioners who want to sharpen their pharmaceutical skills.
With numerous examples from the pharmacy practice, this textbook presents the chemical and physical principles fundamental to the development of medication dosage forms. Numerous case studies present relevant examples of physical and chemical principles in current pharmacy practice.

TABLE OF CONTENTS

Contributors
Preface
1. Introduction to Biopharmaceutics
Introduction
Drug Disposition—The Fate of the Drug After Administration
Ladme
Conclusion
Key Point
Clinical Questions
2. States of Matter Related to Pharmaceutical Formulations
Introduction
Intermolecular Forces
States of Matter
Stability of Solids
Acknowledgment
Problems
Answers
Key Points
Clinical Questions
Appendix
3. Physical Properties of Solutions
General Considerations
Concentration Expressions
Classification of Aqueous Solution Systems
Physical Properties of Solutions
Physiologic Applications of Colligative Properties
Isotonic Solutions
Sodium Chloride Equivalent Values (E)
Problems
Answers
Key Points
Clinical Questions
Appendix
4. Ionic Equilibria and Buffers
Electrolytes Versus Nonelectrolytes
Importance of Ionization in Pharmacy
Acids and Bases
Ionization of Water
Ionization of Electrolytes
Ionization of Salts
Buffers
Ionization of Amphoteric Electrolytes
Ionization of Polyprotic Acids
Activity and Activity Coefficient
Acid–Base Titration and Titration Curve
Problems
Answers
Key Points
Clinical Questions
Appendix
Suggested Readings
5. Solubility, Dissolution, and Partitioning
Solubility
Dissolution
Dissolution of Particles
Factors Affecting Drug Dissolution
Partitioning
Solubility Problems
Answers
Dissolution Problems
Answers
Partitioning Problems
Answers
Key Points
Clinical Questions
Appendix
6. Mass Transport
Introduction
Transport Systems
Diffusion Through a Membrane
Significance of Diffusion
Significance of Osmosis
Problems
Answers
Key Points
Clinical Questions
7. Complexation and Protein Binding
Introduction
Types of Complexes
Metal–Ion Coordinate Complexes
Cyclodextrin Complexes
Ion-Exchange Resins
Protein–Ligand Interactions
Plasma Protein Binding
Problems
Answers
Key Points
Clinical Questions
Appendix
8. Dispersed Systems
Dispersed Systems Classified by Their Phases
Dispersed Systems Classified by Their Particle Size
Physical Stability of Dispersed Systems
Summary
Problems
Answers
Key Points
Clinical Questions
Suggested Readings
9. Interfacial Phenomena
Surface Tension
Electrical Double Layer
Adsorption
Problems
Answers
Key Points
Clinical Questions
Appendix
10. Rheology
Introduction
Newtonian Flow
Viscosity of Newtonian Fluids
Effect of Temperature on Viscosity
Non-Newtonian Flow
Thixotropy
Viscoelasticity
Significance of Rheology
Viscosity Modifiers
Problems
Answers
Key Points
Clinical Questions
Appendix
11. Chemical Kinetics of Pharmaceuticals
Common Drug Degradation Reactions
Order of Reaction
Determination of the Order of a Reaction
Stability and Shelf-Life of Drugs
Enzyme Catalysis Reactions
Pharmacokinetics: An Extension of Reaction Kinetics
Problems
Answers
Clinical Questions
Suggested Readings
Appendix: Basic Mathematical Concepts
Equations
Logarithmic Function
Exponential Function
Differentiation and Integration Functions
Bibliography
Mathematical Tables
Endnotes
Index