Dosage Form Design Considerations
eBook - ePub

Dosage Form Design Considerations

Volume I

,
  1. 820 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Dosage Form Design Considerations

Volume I

,

About this book

Dosage Form Design Parameters, Volume I, examines the history and current state of the field within the pharmaceutical sciences, presenting key developments. Content includes drug development issues, the scale up of formulations, regulatory issues, intellectual property, solid state properties and polymorphism. Written by experts in the field, this volume in the Advances in Pharmaceutical Product Development and Research series deepens our understanding of dosage form design parameters. Chapters delve into a particular aspect of this fundamental field, covering principles, methodologies and the technologies employed by pharmaceutical scientists. In addition, the book contains a comprehensive examination suitable for researchers and advanced students working in pharmaceuticals, cosmetics, biotechnology and related industries. - Examines the history and recent developments in drug dosage forms for pharmaceutical sciences - Focuses on physicochemical aspects, prefomulation solid state properties and polymorphism - Contains extensive references for further discovery and learning that are appropriate for advanced undergraduates, graduate students and those interested in drug dosage design

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Chapter 1

Preformulation in Drug Research and Pharmaceutical Product Development

Pratap Chandra Acharya1,*, Saritha Shetty2,*, Clara Fernandes2,*, Divya Suares2, Rahul Maheshwari3 and Rakesh K. Tekade3,4, 1Department of Pharmacy, Tripura University (A Central University), Suryamaninagar, Tripura, India, 2Shobhaben Pratapbhai Patel School of Pharmacy & Technology Management, SVKM’s NMIMS, Mumbai, Maharashtra, India, 3National Institute of Pharmaceutical Education and Research (NIPER)-Ahmedabad, Gandhinagar, Gujarat, India, 4Department of Pharmaceutical Technology, School of Pharmacy, International Medical University, Kuala Lumpur, Malaysia

Abstract

A typical product lifecycle stage is fraught with challenges right from the inception, i.e., early drug discovery/lead optimization to product development. Challenge includes optimization of operation process, i.e., procurement and supply of bulk materials as well as production span to develop a final commercial product. The putative reasons attributed to failure to translation of product from conception to commercialization may include but not limited to subtherapeutic efficacy, toxicity issues, commercial viability, unforeseen operational issues, and so on. Together, these issues may culminate into failures of phase-II and phase-III clinical trials. Hence, to minimize all these formulation and delivery issues during the later stages of product development and registration, there is always a need for preformulation studies before the development stage. Preformulation studies are designed to provide insights of the essential physicochemical attributes of a new chemical entity, drug-excipient compatibility, to determine kinetic rate profile of the drug and the stability indicating assay method. However, the relation between preformulation and pharmacokinetics is also needed to be understood to utilize this concept in a better way. Apart from the general information on preformulation (importance, parameters, technologies, etc.), the chapter also covers a few recent case studies on the role of preformulation in development of dosage forms such as hydrogels, liposomes, and vaccines.

Keywords

Preformulation; drug discovery; stability; drug-excipient compatibility studies; preclinical

Acknowledgment

Authors express their heartfelt thanks to NMIMS University, Mumbai for providing support for the research activities. Dr. Acharya also wishes to acknowledge UGC, New Delhi for the research grant [(F.30–376/2017 (BSR))] and CSIR, New Delhi for the extramural research grant [02(0329)/17/EMR] to work to work on chemo preventive measures of colon cancer. Dr. Acharya also expresses his heartfelt thanks to Tripura University (A Central University), Suryamaninagar, for providing all necessary research facilities. The authors would like to acknowledge Science and Engineering Research Board (Statutory Body Established Through an Act of Parliament: SERB Act 2008), Department of Science and Technology, Government of India for grant (Grant #ECR/2016/001964) allocated to Dr Tekade for research work on gene delivery and N-PDF funding to Dr. Maheshwari (PDF/2016/003329) for work on targeted cancer therapy in Dr. Tekade’s Laboaratory. The authors also acknowledge the support by Fundamental Research Grant (FRGS/1/2015/TK05/IMU/03/1) scheme of Ministry of Higher Education, Malaysia to support research on gene delivery.
Disclosures: There is no conflict of interest and disclosures associated with the manuscript.

1.1 Introduction

The pharmaceutical industry is playing a key role in contributing to global health science. The research and development team have unique responsibilities to develop new drugs, vaccines, medical devices, technologies, and so on, to improve patient compliance worldwide. This only becomes possible by adopting fundamental research into innovation. The success of any pharmaceutical company is based on its continuous innovation especially for preventing and treating the common, complex diseases, neglected diseases, and improving the existing treatments. From an industrial perspective, preformulation is often considered as a multidepartment activity which involves coordinated efforts between different skill domains such as analytical, formulation development, regulatory, and others throughout the development cycle.

1.1.1 An Overview of Formulation Life Cycle and Management

In any pharmaceutical company, the R&D team is at the forefront in generating newer concepts for furthering the brand development of the company. This department is responsible for identifying a new potential moiety amongst several screened compounds based on the physicochemical as well as biological activities for treatment of target maladies. This moiety is tested extensively for ensuring its safety and efficacy. This entire process is demanding, challenging and time-consuming, i.e., it can extend over a period of 10–15 years as shown in Fig. 1.1. For example, in 2015, 56 new medicaments were introduced, while currently, more than 7,000 composites are at various developmental phases globally.
image

Figure 1.1 Drug product life cycle.
Understanding the enormity of the task to generate one Investigational new drug (IND) application for a company, it becomes imperative to minimize the propensity of failure by conducting suitable and well-defined studies to predict the success of new chemical entities (NCEs). In this perspective, preformulation becomes an effective tool assisting researchers in generation of physicochemical and biopharmaceutical data for screening of lead compounds. Hence, this neces...

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Dedication
  6. List of Contributors
  7. About the Editor
  8. Chapter 1. Preformulation in Drug Research and Pharmaceutical Product Development
  9. Chapter 2. Physicochemical Aspects to Be Considered in Pharmaceutical Product Development
  10. Chapter 3. Role of Physicochemical Parameters on Drug Absorption and Their Implications in Pharmaceutical Product Development
  11. Chapter 4. Physiologic Factors Related to Drug Absorption
  12. Chapter 5. Physicochemical, Pharmaceutical, and Biological Considerations in GIT Absorption of Drugs
  13. Chapter 6. Influence of Drug Properties and Routes of Drug Administration on the Design of Controlled Release System
  14. Chapter 7. Stability and Degradation Studies for Drug and Drug Product
  15. Chapter 8. First-Pass Metabolism Considerations in Pharmaceutical Product Development
  16. Chapter 9. Dissolution Profile Consideration in Pharmaceutical Product Development
  17. Chapter 10. Drug Disposition Considerations in Pharmaceutical Product
  18. Chapter 11. Protein and Tissue Binding: Implication on Pharmacokinetic Parameters
  19. Chapter 12. Preformulation Studies of Drug Substances, Protein, and Peptides: Role in Drug Discovery and Pharmaceutical Product Development
  20. Chapter 13. Role of Salt Selection in Drug Discovery and Development
  21. Chapter 14. Drug Complexation: Implications in Drug Solubilization and Oral Bioavailability Enhancement
  22. Chapter 15. Solubility and Solubilization Approaches in Pharmaceutical Product Development
  23. Chapter 16. Rheology and Its Implications on Performance of Liquid Dosage Forms
  24. Chapter 17. Micromeritics in Pharmaceutical Product Development
  25. Chapter 18. Four Stages of Pharmaceutical Product Development: Preformulation, Prototype Development and Scale-Up, Biological Aspects, and Commercialization
  26. Chapter 19. Scale-Up Studies in Pharmaceutical Products Development
  27. Chapter 20. Manipulation of Physiological Processes for Pharmaceutical Product Development
  28. Chapter 21. Impact of Pharmaceutical Product Quality on Clinical Efficacy
  29. Chapter 22. Formulation Additives Used in Pharmaceutical Products: Emphasis on Regulatory Perspectives and GRAS
  30. Index