《Pharmaceutical Dosage Form and Technology（药物剂型与工艺）》通过介绍药物剂型和药物载体系统的处方、制备工艺过程、科学原理和临床应用特点等，使读者初步了解药物制剂与工艺的基本原理、剂型设计、处方筛选以及不同药物剂型的临床应用等知识，还可以对一些制剂的最新、最前沿研究成果有所了解。本书共10章：第1章是基础知识介绍；第2章和第3章是固体药物制剂；第4章和第5章分别是肺部用药系统和透皮药物运载系统；第6章和第7章分别是液体制剂和无菌制剂；第8章是口服载药系统和该领域的最新研究成果；第9章是栓剂；第10章是有关儿童患者和老年患者临床用药注意事项。本书内容精炼、通俗易懂、英语语法准确，贴合实际教学需求，有助于提高学生专业英语水平。
本书可以作为药学类专业本科生或研究生药物制剂与工艺学及相关课程的教材，也可以作为药学相关领域科研人员的参考书。

Chapter 1 Introduction
1.1 Drugs and diseases
1.1.1 Treatment of diseases
1.1.2 Drug substances and medicines
1.1.3 The history of drugs
1.1.4 The drug-target interaction
1.2 About pharmacy
1.2.1 Pharmaceutical sciences
1.2.2 Pharmaceutics
1.2.3 Dosage forms and drug delivery systems
1.2.4 Categories of DDS
1.3 The standardization of medicine
1.3.1 Why medicine needs standard
1.3.2 Pharmacopeia
1.4 Clinical using medicine
1.4.1 Brand medicine and generic medicine
1.4.2 Prescription medicine and over-the-counter medicine
1.4.3 Prescription
1.4.4 Drug-drug interaction
1.4.5 Drug-food interaction
References
Chapter 2 Solid dosage forms I
2.1 Introduction
2.2 Powder
2.3 Granules
2.3.1 Preparation of granules
2.3.2 Granulation methods and equipments
2.3.3 Quality control of granules
References
Chapter 3 Solid dosage forms II
3.1 Capsules
3.1.1 Hard gelatin capsules
3.1.2 Soft capsules
3.2 Tablets
3.2.1 Excipients of tablets
3.2.2 Manufacture of tablets
3.2.3 Film coating
3.2.4 Quality control of tablets
3.2.5 Packaging and storing of tablets
References
Chapter 4 Pulmonary drug delivery system
4.1 Introduction
4.1.1 Anatomy of lungs
4.1.2 Advantages of pulmonary drug delivery
4.1.3 Mechanisms of particle deposition in the lung
4.2 Pulmonary drug delivery devices
4.2.1 Nebulizers
4.2.2 pMDIs
4.2.3 DPIs
4.2.4 Soft mist inhaler
4.3 Factors governing aerosol deposition and targeting in the lung
4.3.1 Aerodynamic diameter and size distribution
4.3.2 Airflow rate
4.3.3 Particle shape
4.3.4 Particle density
4.3.5 Surface roughness
4.4 Clinical application of pulmonary drug delivery systems
4.5 Perspectives of pulmonary drug delivery
References
Chapter 5 Transdermal drug delivery system
5.1 Introduction
5.2 Skin structure and the major obstacles of transdermal permeation
5.3 Major transdermal routes
5.3.1 Appendageal routes
5.3.2 Transcellular routes
5.3.3 Intercellular routes
5.4 Chemical penetration enhancers
5.4.1 Natural chemical penetration enhancers
5.4.2 Synthetic chemical penetration enhancers
5.4.3 Combination of penetration enhancers
5.5 Physical techniques to improve transdermal delivery
5.5.1 Microneedle
5.5.2 Laser
5.5.3 Iontophoresis
5.5.4 Sonophoresis
5.5.5 Electroporation
5.5.6 Magnetophoresis
5.5.7 Microwave
5.6 Transdermal formulations
5.6.1 Liposome
5.6.2 Cubic phase
5.6.3 Microemulsion
5.6.4 Hydrogel
5.6.5 Transfersome
5.7 Device-assisted or wearable transdermal delivery systems
5.7.1 Development stages
5.7.2 Device
5.7.3 Application
5.7.4 Prospect
References
Chapter 6 Liquid dosage forms
6.1 Introductions
6.1.1 Solubilities
6.1.2 Solvents
6.1.3 Enhancements
6.2 Syrups
6.3 Elixirs
6.4 Suspensions
6.4.1 Sedimentation of particles in suspension
6.4.2 Preparation of suspensions
6.4.3 Colloidal dispersions
6.5 Emulsions
6.5.1 Pharmaceutical emulsions
6.5.2 Emulsion formation theory
6.5.3 Emulsion identification
6.5.4 Emulsion preparation
6.5.5 The HLB system
6.5.6 Emulsion stability
6.5.7 Nanoemulsions
6.6 Creams
6.7 Gels and magmas
References
Chapter 7 Sterilized preparations
7.1 Principles of sterilization
7.1.1 Introduction
7.1.2 Sterilization parameters
7.1.3 Principles of sterilization processes
7.1.4 Gaseous sterilization
7.1.5 Radiation sterilization
7.1.6 Filtration sterilization
7.1.7 High-level disinfection
7.2 Parenteral
7.2.1 Introduction
7.2.2 Injections
7.2.3 Large-volume parente