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Pharmaceutical Dissolution Testing, Bioavailability, and Bioequivalence - Umesh V. Banakar

Pharmaceutical Dissolution Testing, Bioavailability, and Bioequivalence

Science, Applications, and Beyond
Buch | Hardcover
560 Seiten
2022
John Wiley & Sons Inc (Verlag)
978-1-119-63460-7 (ISBN)
CHF 269,95 inkl. MwSt
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Explore the cutting-edge of dissolution testing in an authoritative, one-stop resource

In Pharmaceutical Dissolution Testing, Bioavailability, and Bioequivalence: Science, Applications, and Beyond, distinguished pharmaceutical advisor and consultant Dr. Umesh Banakar delivers a comprehensive and up-to-date reference covering the established and emerging roles of dissolution testing in pharmaceutical drug development.

After discussing the fundamentals of the subject, the included resources go on to explore common testing practices and methods, along with their associated challenges and issues, in the drug development life cycle.

Over 19 chapters and 1100 references allow practicing scientists to fully understand the role of dissolution, apart from mere quality control. Readers will discover a wide range of topics, including automation, generic and biosimilar drug development, patents, and clinical safety.

This volume offers a one-stop resource for information otherwise scattered amongst several different regulatory regimes. It also includes:



A thorough introduction to the fundamentals and essential applications of pharmaceutical dissolution testing
Comprehensive explorations of the foundations and drug development applications of bioavailability and bioequivalence
Practical discussions about solubility, dissolution, permeability, and classification systems in drug development
In-depth examinations of the mechanics of dissolution, including mathematical models and simulations
An elaborate assessment of biophysiologically relevant dissolution testing and IVIVCs, and their unique applications
A complete understanding of the methods, requirements, and global regulatory expectations pertaining to dissolution testing of generic drug products

Ideal for drug product development and formulation scientists, quality control and assurance professionals, and regulators, Pharmaceutical Dissolution Testing, Bioavailability, and Bioequivalence is also the perfect resource for intellectual property assessors.

Umesh V. Banakar, PhD, is an independent consultant and advisor to the pharmaceutical industry and academia. He’s made extensive contributions to drug product development, evaluation (both in vitro and clinical), and regulatory affairs. He is the founding Board Member and Principal Scientific Adviser of the Society for Pharmaceutical Dissolution Science [SPDS] and Founding Chairperson of two International Contract Research Organizations. Dr. Banakar is the Founder of Goa – Center for Excellence in Intellectual Property [G-CEIP] in Panaji, Goa, India. He has served as a worldwide testifying/non-testifying expert in over 65 patent litigations in the disciplines of pharmaceutical formulations/technology, clinical investigations, and dissolution testing. Dr. Banakar has received numerous awards for excellence in teaching, research, and scholarly activity along with two Service to Country Awards from the United Nations and a nomination for the distinguished Fulbright Scholar Award for Teaching.

Foreword xvii

Foreword xix

Preface xxi

Acknowledgments xxvii

1 Pharmaceutical Dissolution Testing: Fundamentals and Essential Applications (An Overview) 1

1.1 Introduction and Objective(s) 1

1.2 Science of Dissolution Over Past 120+ Years 3

1.2.1 Journey from Quality Control (QC) to Development 5

1.3 Fundamentals of Dissolution Testing (An Overview) 6

1.4 Factors Influencing Dissolution Test(ing) 8

1.5 Pharmaceutical Product Life Cycle: Role of Dissolution (An Overview) 12

1.6 Dissolution Test(ing): What It Is and What It Is Not! 13

1.7 Need for This Textbook 14

1.8 Summary and Concluding Remarks 15

References 16

2 Bioavailability (BA) and Bioequivalence (BE): Fundamentals and Applications in Drug Product Development 20

2.1 Introduction and Objective(s) 20

2.2 Definitions 21

2.3 Bioequivalence (BE) Testing: Basics, Advances, and Global Perspectives 23

2.3.1 BA/BE Study Designs 26

2.3.2 Sample Size, n 28

2.3.3 BE (Acceptance) Criteria and Statistical Considerations 31

2.3.4 Bioequivalence (BE) Studies: Role of Modeling and Simulations 33

2.3.5 Surrogates to BE 35

2.3.6 PD Endpoint-Based and Clinical Endpoint-Based BE Assessment 37

2.3.7 Regulatory Requirements 40

2.4 Current Challenges and Solutions (Insight into Chapter 14) 43

2.5 Summary and Concluding Remarks 44

References 44

3 Solubility, Dissolution, Permeability, and Classification Systems 54

3.1 Introduction and Objective(s) 54

3.2 Definitions 56

3.3 Solubility Versus Solubilization: What Is Critical in Development? 58

3.3.1 Theories of Solubilization 58

3.3.2 Solubility: Challenges in Drug Development! 63

3.3.3 Solubility Enhancement: Purpose, Theoretical and Practical Considerations! 68

3.4 Dissolution: Intrinsic Versus Apparent! 70

3.4.1 Theories of Dissolution 70

3.4.1.1 Noyes–Whitney Theory (1897) 70

3.4.1.2 Brunner and Tolloczko Theory (1900) 71

3.4.1.3 Nernst and Brunner Theory (1904) 71

3.4.2 Intrinsic Versus Apparent Dissolution 72

3.5 Permeability Versus Permeation (Process): What Is Critical for Bioefficacy! 74

3.6 Classification Systems: Theoretical Versus Pragmatic Considerations! 75

3.7 Summary and Concluding Remarks 78

References 79

4 Understanding the Mechanics of Dissolution: Mathematical Models and Simulations 86

4.1 Introduction and Objective(s) 86

4.2 Mechanics of Dissolution: Theories, Presumptions, and Reality Check 87

4.3 Dissolution Theories/Models 91

4.4 Dissolution Mechanics (Model-Dependent Methods) 92

4.4.1 Zero Order 92

4.4.2 First-Order Model (Gibaldi–Feldman Model 1967) 93

4.4.3 Makoid–Banakar Model (1993) 93

4.4.4 Hixson and Crowell Model (1931) 95

4.4.5 Higuchi Model (1961, 1963, 1967) 96

4.4.6 Baker–Lonsdale (1974) 97

4.4.7 Korsmeyer–Peppas Model (1983) 98

4.4.8 Hopfenberg Model (1976) 98

4.4.9 Gompertz Distribution Model 99

4.4.10 El-Yazigi Model (1981) 100

4.5 Dissolution Mechanics (Model-Independent Methods) 101

4.5.1 Weibull Distribution Model (1951) 101

4.5.2 Statistical Mean Time Concept/Model (1982) 101

4.5.3 (Other) Statistical Regression-Based Models 102

4.5.4 Sequential Model 102

4.5.5 Density Function Theory (DFT) 103

4.6 Relevance of Mathematical Modeling of Dissolution 104

4.7 Purposeful Modeling and Simulation 105

4.8 Summary and Concluding Remarks 106

References 107

5 Dissolution Testing Methods: Necessity Is the Mother of Invention! 110

5.1 Introduction and Objective(s) 110

5.2 Need for Dissolution Testing Method 112

5.3 Dissolution Testing Methods 113

5.3.1 Science of Dissolution 114

5.3.2 Intrinsic and Apparent Dissolution Methods 116

5.3.3 Compendial Methods Versus Regulatory Perspective 120

5.3.4 Predictive Testing Methods and “Biorelevant Dissolution” Methods 124

5.4 Necessity Is the Mother of Invention! 137

5.4.1 Controlled Release Parenteral Systems Including Drug-Eluting Stents 138

5.4.2 Pharmaceutical Formulations for the Oral Cavity 139

5.4.2.1 Soft Gelatin Capsules (SGC): Oral Delivery and Rectal Inserts 144

5.4.3 Inhalation Products 145

5.4.4 Semisolid Pharmaceutical Systems Including Transdermal Drug Delivery Systems (TDDSs) 148

5.4.5 Nanotechnology-Based Systems: Nanobiomedicine Formulations 149

5.4.6 Others 150

5.5 The Perpetual Struggle 152

5.6 Concluding Remarks 154

References 155

6 Essentials of Dissolution Testing of Pharmaceutical Systems 166

6.1 Introduction and Objective(s) 166

6.2 Objectives of Dissolution Testing of Pharmaceutical Systems 167

6.3 Oral Solid Dosage Forms (SDFs) 168

6.3.1 Immediate Release/Rapid Release SDFs 170

6.3.1.1 Conventional IR SDFs (Focus: Recent Advances in Solubility Enhancement!) 171

6.3.1.2 Chewable: Tablets and Gums 175

6.3.2 Modified Release (MR) SDFs 179

6.3.3 Advanced/Innovative MR-SDFs 193

6.4 Oral Liquid Dosage Forms 197

6.4.1 Rapid Release Systems (RRSs) 198

6.5 Non-oral Dosage Forms 201

6.5.1 Topical Dosage Forms 202

6.5.1.1 Traditional Topical Dosage Forms 203

6.5.1.2 Transdermal Drug Delivery Systems 204

6.5.1.3 Nasal, Ocular, Otic, Vaginal, and Rectal Dosage Forms 205

6.5.2 Parenteral Dosage Forms 213

6.6 Nanotechnology-Based Pharmaceutical Systems 220

6.7 Nutraceuticals and Natural Products 221

6.8 Concluding Remarks: Need for Purposeful Dissolution/Release Testing! 225

References 226

7 Dissolution/Release Test Data (Profile): Requirements, Analyses, and Regulatory Expectations 237

7.1 Introduction and Objective(s) 237

7.2 Academic Curiosity 239

7.3 Early Development 241

7.4 Product Development Stage 242

7.5 Comparative Analyses 244

7.6 Summary and Concluding Remarks 248

References 250

8 Automation in Dissolution Testing: Recent Advances and Continuing Challenges! 254

8.1 Introduction and Objective(s) 254

8.2 Automated Dissolution Testing: Why and What to Automate? 255

8.3 Challenges in Automation of Dissolution Test(ing) 263

8.4 Automation in Dissolution Testing: Looking Forward! 264

8.5 Concluding Remarks 266

References 267

9 In vitro–In vivo Correlations (IVIVCs): What Makes Them Challenging! 269

9.1 Introduction and Objective(S) 269

9.2 Basic Model, Scheme, and Assumptions 270

9.3 Mechanics for Determination of IVIVC 277

9.4 BCS and IVIVC 280

9.5 IVIVC in New Drug Development vis-à-vis Generic Drug Development 283

9.6 IVIVCs in Topical/Transdermal Drug Delivery Systems (TDDSs) 284

9.7 Nonlinear IVIVCs 286

9.8 Validation of IVIVC Prediction Error (PE) 286

9.9 IVIVC in Drug Product Life Cycle: What Is the Ultimate Objective? 287

9.10 Summary and Conclusions 289

References 289

10 Biorelevant Dissolution/Release Test Method Development for Pharmaceutical Dosage Forms 294

10.1 Introduction and Objective(s) 294

10.2 General Considerations in BDM Development 295

10.3 Oral Drug Delivery Systems 296

10.3.1 Challenges in the Simulation of GI Biorelevant Factors: Motility and Hydrodynamics 299

10.3.2 Biorelevant Dissolution Media for Oral Drug Delivery Systems 301

10.4 Inhalation Drug Delivery Systems 303

10.5 Parenteral Drug Delivery Systems 306

10.6 Other Drug Delivery Systems 308

10.7 The Roadmap 309

10.8 Summary and Concluding Remarks 310

References 311

11 Bioavailability Prediction Software: Hype or Reality! 320

11.1 Introduction and Objective(s) 320

11.2 The Need for Simulations and Predictions in Drug Product Development 322

11.3 Simulation and Prediction of In Vivo Performance: The Catch- 22 Situation!325

11.4 Bioavailability (BA)/Bioequivalence (BE) Simulation Software: What They Do and Do Not! 327

11.5 Appreciating and Depreciating Potential Utility of BA Prediction Software 335

11.6 Concluding Remarks 336

References 337

12 Challenges and Unique Applications of IVIVC in Drug Development 340

12.1 Introduction and Objective(s) 340

12.2 USP <1088> and US FDA Guidance for Industry (1997): Operational Challenges 342

12.3 Applications of IVIVC(s) 347

12.4 Prospective IVIVC(s) 349

12.4.1 Background 349

12.4.2 Process 349

12.4.3 Application 352

12.4.3.1 Unique Application of IVIVC 353

12.5 Retrospective IVIVC(s): Responding to Agency Queries! 355

12.6 Summary and Concluding Remarks 361

References 362

13 Dissolution Testing in Generic Drug Development: Methods, Requirements, and Regulatory Expectations/Requirements 366

13.1 Introduction and Objective(s) 366

13.2 Generic Drug Development Process: Role of Dissolution Testing 368

13.2.1 Preformulation 369

13.2.2 Prototype Formulation 371

13.2.3 Prospective Development: IVIVC with BE as the Objective! 372

13.2.4 Pilot BE to Pivotal BE 375

13.3 Generic Pharmaceutical Systems: Role of Dissolution 375

13.3.1 Traditional: Para III Formulations – Rush to “First to File” 376

13.3.2 Para IV Formulations 377

13.3.3 Exploring 505(b)(2) Opportunities 380

13.3.4 Differentiated Products and/or Incremental Innovations 384

13.3.5 Supergenerics: Are They? 385

13.3.6 Complex Generics 386

13.4 Generics: Finished Products – Role of Dissolution Testing 388

13.4.1 Tentative Approval to Final Approval: Setting QC Specifications! 388

13.4.2 Biowaivers: Global Considerations and Perspectives! 389

13.4.3 Regulatory Queries and Responses 392

13.5 Summary and Concluding Remarks 396

References 396

14 Successful Bioequivalence Investigations: Current Challenges and Possible Solutions! 400

14.1 Introduction and Objective(s) 400

14.2 Understanding Challenges and Approaches to Overcome Them! 402

14.2.1 Oral Dosage Forms 404

14.2.1.1 Highly Variable Drugs (HVDs) 405

14.2.1.2 Oral Dosage Forms: Locally Acting 406

14.2.2 Narrow Therapeutic Index (NTI) Drugs 409

14.2.3 Topical Dosage Forms 411

14.2.3.1 Ophthalmic Dosage Forms 413

14.2.4 Oral Inhalation Products 417

14.2.5 Complex Generics 420

14.2.6 Nutraceuticals and Natural Products 422

14.3 Concluding Remarks 423

References 424

15 Beyond Guidance(s): Convincing Regulatory Authorities Through Creative Dissolution Data Interpretation 434

15.1 Introduction and Objective(s) 434

15.2 Regulatory Guidance(s): Reading Versus Understanding! 435

15.3 Regulatory Submission: Premise and Expectation(s) 438

15.4 Handling Regulatory Query/Deficiency: Efficient and Satisfying Response 440

15.5 Winning an Argument: Three Cs to Succeed! 443

15.6 Sample Case Study(ies) 444

15.7 Summary and Concluding Remarks 447

References 447

16 Biosimilars: The Emerging Frontier for Generics – Role of Dissolution Testing! 449

16.1 Introduction and Objective(s) 449

16.2 Generics, (Bio)betters, and Biosimilars: What Are They? 451

16.3 Regulatory Approval Process (Brief): Focus on Efficacy! 453

16.4 Role of Solubility and Dissolution 456

16.5 Concluding Remarks 458

References 459

17 Patentability of Drug Product Based on Dissolution Data: Intellectual Property Considerations! 461

17.1 Introduction and Objective(s) 461

17.2 Patentability and the Patent Process (Brief): Scientist’s Perspective 462

17.2.1 Is Solubility and Dissolution Patentable: Scientist’s Perspective 465

17.3 Pharmaceutical Product: Patentability and Role of Dissolution Testing 466

17.4 Patentability: Double-Edged Sword! 468

17.5 Concluding Remarks 471

References 471

18 Setting Up Clinical Therapeutics Safety-Based QC Specifications for Dissolution Testing of a Finished Product 473

18.1 Introduction and Objective(s) 473

18.2 Critical Quality Attributes (CQA): Role of In vitro Dissolution as a QC Test! 475

18.3 Clinical Drug Product Performance: Adequate or Predictable! 476

18.4 Clinically Relevant Specifications (CRS): Basics and Challenges! 478

18.4.1 Setting Up CRDS or CRS 481

18.5 Idealism and Pragmatism Versus Realism! 484

18.6 Concluding Remarks 489

References 490

19 Unlocking the Mystery(ies) While Predicting Bioavailability from Dissolution 493

19.1 Introduction and Objective(s) 493

19.2 The IVIVC Model and Objective(s) of IVIVC 494

19.3 Challenges Encountered in Predicting Bioavailability from Dissolution 495

19.4 What Are We Doing Now? 499

19.4.1 Mathematical Modeling: Limitations and Feel Good Phenomena! 499

19.4.2 BCS and Its Relation to Drug Formulation’s Dissolution Performance 500

19.4.3 The Application (or the Lack) of f 1 and f 2 Parameters 501

19.4.4 Dissolution Data Banks, Agency Recommendations, and Compendial Monographs 502

19.4.5 Dissolution Testing Apparatuses (Choice Versus Selection!) 503

19.4.6 Advent of Biophysiologically Relevant Dissolution Media(um) 504

19.4.7 What Are We Missing in This Picture? 505

19.5 What We Should Be Doing! The Way Forward: The Missing Link! 506

19.6 Advent of IVRT, IVPT, PBPK, and PBAM 508

19.6.1 Role of IVRT, IVPT, and PBAM in Predicting In Vivo Absorption of Drug from Oral Solid Dosage Forms 510

19.7 Summary and Concluding Remarks 511

References 512

Index 515

Erscheinungsdatum
Verlagsort New York
Sprache englisch
Maße 10 x 10 mm
Gewicht 454 g
Themenwelt Naturwissenschaften Biologie
Naturwissenschaften Chemie
ISBN-10 1-119-63460-1 / 1119634601
ISBN-13 978-1-119-63460-7 / 9781119634607
Zustand Neuware
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