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<p>Preface and Acknowledgments xv</p> <p><b>Part A General Concepts 1</b></p> <p><b>1. Introduction 3</b></p> <p>General Discussion 3</p> <p>Key Definitions 6</p> <p>The Interacting Parties 6</p> <p>Extractables versus Leachables 7</p> <p>Regulatory Perspectives for Performing Compatibility and/or Safety Assessments 13</p> <p>The U.S. Food and Drug Administration Guidance for Industry: Container Closure Systems for Packaging Human Drugs and Biologics 14</p> <p>European Medicines Agency (EMEA) Guideline on Plastic Immediate Packaging Materials 15</p> <p>FDA Guidance for Industry Inhalation Products 18</p> <p>Medical Devices 20</p> <p>An Overview of Strategies for Performing Safety Assessments 21</p> <p>The Generalized Strategy for Safety Assessments 22</p> <p>Moving Forward 24</p> <p>References 25</p> <p><b>2. Nomenclature and General Concepts 27</b></p> <p>General 27</p> <p>Nomenclature 27</p> <p>Primary Definitions 28</p> <p>Constituents of a Material or Construct 29</p> <p>Classification of Extracting Media 31</p> <p>Classification of Extraction Strategies 32</p> <p>Example Extraction Conditions Applied to a Model System 39</p> <p>Correlation 43</p> <p>Factors That Influence the Linking of Extractables and Leachables 44</p> <p>A Hierarchy for Linkages between Extractables and Leachables 44</p> <p>Decisions Concerning the Required Rigor for Linkages 47</p> <p>Circumstances Requiring the Linking of Extractables and Leachables 48</p> <p>Identification and Quantitation 50</p> <p>Risks and Risk Management 55</p> <p>Risk Categories Related to Biological Assessment of Medical Devices 58</p> <p>Risk Categories Related to Assessment of Primary Packaging and/or Container–Closure Systems 58</p> <p>The General Dimensions of Risk 64</p> <p>Utilization of Risk Classification Profiles 68</p> <p>Risk Classification in Indirect Contact Situations 71</p> <p>The Construct Itself as a Contributor to Risk 73</p> <p>References 74</p> <p><b>3. Extractables, Leachables, and the Product Life Cycle 77</b></p> <p>General 77</p> <p>Discussion of the Components of the Master Flow Diagram 78</p> <p>Observations 83</p> <p>Application of the Process Map 87</p> <p><b>Part B Material Characterization 89</b></p> <p><b>4. Material Screening and Characterization 91</b></p> <p>Overview 91</p> <p>General Principles 94</p> <p>Compendial Compliance 97</p> <p>United States Pharmacopeia 98</p> <p>Japanese Pharmaceopeia 101</p> <p>European Pharmacopeia 102</p> <p>Compositional Characterization, General Concepts 103</p> <p>Compositional Characterization by Collecting Available Material Information 104</p> <p>General 104</p> <p>Collecting Extractables Information from the Material Supplier 106</p> <p>Compositional Characterization by Material Testing, Extractables Survey 112</p> <p>Extractables Survey: Extraction 112</p> <p>Case Studies: The Influence of Extraction Medium on the Extractables Survey 121</p> <p>Extractables Survey: Extract Analysis 124</p> <p>Case Study: Extractables Survey for Plastic Tubing Materials 131</p> <p>Case Study: Extractables Survey for an Elastomer Used in OINDP 136</p> <p>Case Study: Extractables Survey for a Rubber Closure Used with Semisolid Drug Products 137</p> <p>Case Study: Extractables Survey for Filter Cartridges Used in Downstream Processing of Pharmaceuticals 138</p> <p>Bibliography of Analytical Methods 139</p> <p>Reconciliation as a Survey Tool 140</p> <p>Case Study: TOC Reconciliation; Characterization of a Polyolefin Material 141</p> <p>Use of Extractables Information in Safety Assessment: Extractables Profile, Total Pool, and Total Available Pool 142</p> <p>Extractions to Establish the Total Pool and Total Available Pool 143</p> <p>Case Study: Total Pool Determination by Successive Extraction 145</p> <p>Recap: Components of a Complete Extractables Assessment 146</p> <p>Caveats in Using Extractables Information for Safety Assessment 149</p> <p>Chemical Characterization: Device Perspective per ISO 10993-18 152</p> <p>References 154</p> <p><b>Part C Construct Qualification 157</b></p> <p><b>5. The Prototype Stage 159</b></p> <p>General Comments 159</p> <p>The Simulation Study 161</p> <p>Generating the Simulating Extract 162</p> <p>Simulating the Contact Parameters 164</p> <p>Simulating the Therapeutic Product 166</p> <p>Simulating the Exposure Parameters 169</p> <p>Analyzing the Simulating Extract 171</p> <p>Case Study: Modeling of the Impact of Solubilizing Agents on Leachables Accumulation 172</p> <p>Case Study: Accumulation of Organic Leachables from Plastic Biopharmaceutical Process Containers 174</p> <p>Case Study: Accumulation of Label-Related Leachables in a Solid Dosage Form 179</p> <p>Case Study: Accumulation of Caprolactam Oligomers Leached from Nylon-6 Material 180</p> <p>Application of the Analytical Threshold 181</p> <p>The Preliminary Toxicological Assessment 184</p> <p>Case Study: Assessment of Cyclohexanone Limits for Containers 188</p> <p>Exiting the Prototype Stage 188</p> <p>References 189</p> <p><b>6. The Early Development Stage 191</b></p> <p>General Comments 191</p> <p>Target Leachables 192</p> <p>Method Development, Evaluation, and Validation 194</p> <p>Method Development (Optimization) 195</p> <p>Prerequisites to Method Optimization 195</p> <p>Overview of the Method Optimization Process 197</p> <p>Conduct of a Method Optimization Study 200</p> <p>Primary Performance Assessment 201</p> <p>Troubleshooting Guide 202</p> <p>Secondary Performance Assessment 204</p> <p>System Suitability 205</p> <p>Robustness 205</p> <p>Exiting Method Development–Optimization 206</p> <p>The Method Evaluation Process 206</p> <p>General 206</p> <p>Aspects of the Evaluation and Validation Processes 207</p> <p>Overview of the Method Evaluation Process 207</p> <p>Template for the Conduct of a Method Evaluation Study 209</p> <p>Validation 214</p> <p>Case Study: Validation of an LC/MS Method for the Quantitation of Leachables from a Packaging System 215</p> <p>General 215</p> <p>Experimental 216</p> <p>Validation Study 218</p> <p>Case Study: Validation of an HPLC Method for Quantitating Stopper Leachables in a Complex Surfactant Vehicle 225</p> <p>General 225</p> <p>Validation 225</p> <p>Exiting the Early Development Stage 228</p> <p>References 228</p> <p><b>Part D Construct Validation 229</b></p> <p><b>7. Late Stage Product Development 231</b></p> <p>General: The Migration Study 231</p> <p>Design of the Migration Study 233</p> <p>EMEA Guideline on Plastic Immediate Packaging Materials 233</p> <p>FDA Guidance 233</p> <p>Optimal Design of a Migration Study 234</p> <p>Interpretation of the Migration Study: Toxicological Assessment 238</p> <p>Disaster Management 238</p> <p>Class A Disaster: Unusual or Unexpected Change in the Concentration of a Target Leachable 239</p> <p>Class B Disaster: A Previously Unobserved Response is Obtained During Testing 241</p> <p>Documenting a Disaster Investigation 242</p> <p>Specificity Check in Drug Product Analysis Methods 242</p> <p>Product Stability Issues Associated with Leachables 244</p> <p>References 245</p> <p><b>8. Submission 249</b></p> <p>General Discussion 249</p> <p>Dossier Format: The Common Technical Document 250</p> <p>Contents of the CTD Sections Relevant to Container Closure Systems and Their Safety Assessment 252</p> <p>Section 3.2.P.7, Description 252</p> <p>Section 3.2.P.2.4, Suitability 254</p> <p>Closing Observations 262</p> <p>References 263</p> <p><b>9. Launch 265</b></p> <p><b>Part E Product Maintenance 271</b></p> <p><b>10. Product Maintenance 273</b></p> <p>General Discussion 273</p> <p>Ongoing Quality Control 275</p> <p>General 275</p> <p>Incoming Raw Materials 275</p> <p>Manufactured In-Process Goods 278</p> <p>Finished Goods (Final Product) 279</p> <p>Process of Developing–Implementing QC Extractables Specifications 281</p> <p>Change Control 282</p> <p>General 282</p> <p>Change Control Impact Assessment 285</p> <p>Evaluation Recommendation 295</p> <p>Factors to Consider When Contemplating Changes to Registered Products 296</p> <p>Case Study: Differential Approach 297</p> <p>Overview 297</p> <p>General Test Strategy 297</p> <p>Experimental 298</p> <p>Results and Discussion 299</p> <p>Principles for Judging Toxicological Equivalency 304</p> <p>Disaster Management During Product Maintenance 305</p> <p>Atypical Manufacturing During Product Maintenance 305</p> <p>Product Use Field Issues Encountered During Product Maintenance 309</p> <p>Changes in Product Registration Requirements During Product Maintenance 312</p> <p>Exiting the Product Maintenance Stage 313</p> <p>References 313</p> <p><b>11. Retirement 315</b></p> <p><b>12. Focus on Emerging Concepts 319</b></p> <p>Overview 319</p> <p>Plastic Materials used in Manufacturing Applications 320</p> <p>General 320</p> <p>Regulatory Requirements 321</p> <p>Industry Recommendations 322</p> <p>Case Study: Leachables Evaluation for Bulk Drug Substance 326</p> <p>Process for Performing Extractables and Leachables Assessments for Disposable Materials Used in Bioprocessing 327</p> <p>A Matter of Semantics 328</p> <p>Best Demonstrated Practices in Extractables Assessments 331</p> <p>The Broader Context of Suitability for Use 337</p> <p>An Important Practical Consideration 340</p> <p>Future Considerations 342</p> <p>References 344</p> <p><b>Appendix: Materials Used in Pharmaceutical Constructs and Their Associated Extractables 347</b></p> <p>References 370</p> <p>Index 371</p>

"The book provides a very detailed review of approaches for generating and further investigating extractables and leachables results, with advice on the levels of investigation appropriate to each stage of product development." (<i>BTS Newsletter</i>, Summer 2010)<br /> <br />

<p><b>DENNIS JENKE</b> is Principal Scientist in the Technology Resources Division of the Baxter Healthcare Corporation. He works with a team of analytical chemistry professionals in areas including the assessment of material/product compatibility, specifically with respect to leachables/extractables and product ingredient binding. He has published extensively in the areas of analytical chemistry, environmental science, and material/solution compatibility; serves as an expert reviewer for numerous pharmaceutical and analytical journals; is a frequently invited speaker in the general areas of analytical chemistry and material/solution compatibility; and is currently an active participant in ongoing collaborative activities designed to establish harmonized best demonstrated practices for extractables/leachables assessment.

<p><b><i>Important safety aspects of compatibility for therapeutic products and their manufacturing systems, delivery devices, and containers</i></b> <p><i>Compatibility of Pharmaceutical Products and Contact Materials</i> helps pharmaceutical, toxicology, analytical, and regulatory affairs professionals assess the safety of leachable and extractable chemicals associated with drug product packaging, manufacturing systems, and devices. The most comprehensive resource available, its coverage includes the strategies, tactics, and regulatory requirements for performing safety assessments, along with the means for interpreting results. <p>Structured around a logical framework for an extractables and leachables safety assessment and closely linked to the pharmaceutical product development process, <i>Compatibility of Pharmaceutical Products and Contact Materials</i> directly addresses the fundamental questions of "what activities need to be performed to completely, efficiently, and effectively address the issue of product safety from an extractables and leachables perspective?" and "when do the various required activities need to be performed?" Specifically, the chapters describe: <ul> <li>Pertinent regulations and practical ways to meet guidelines</li> <li>Coordinating manufacturing, storage, and delivery systems development and qualification with therapeutic product development</li> <li>Materials characterization and the materials screening process</li> <li>Component and/or system qualification (illustrated by several case studies)</li> <li>Performing validation/migration studies and interpreting and reporting the results</li> <li>Creating a product registration dossier and putting it through regulatory review</li> <li>Product maintenance (Change Control) from an extractables and leachables perspective</li> <li>Likely future developments in extractables and leachables assessment</li> </ul> <p>Additionally, the book's appendix provides a database, including CAS registry numbers, chemical formulas and molecular weights of extractable/leachable substances that have been reported in the chemical literature. <p>Detailing the interconnected roles played by analytical chemistry, biological science, toxicology, and regulatory science, <i>Compatibility of Pharmaceutical Products and Contact Materials</i> supplies a much-needed, comprehensive resource to all those in pharmaceutical product or medical device development.

"The analogy of extractables and leachables to the bogeyman hiding in the closet is so true and telling, whether experienced with leachable studies or not the issues are well communicated. Nomenclature is established, in the author?s vernacular, which describes pharmaceutical contact materials and key terms enabling a clear understanding of the objectives of compatibility assessments. Excellent examples of extractables studies, correlations and risk assessments are given and the classification of extraction strategies puts into perspective the purpose for acquiring the data. The appendix listing materials and their associated extractables is a valuable reference tool for chemists, toxicologists and regulators involved with qualifying contact materials used with pharmaceutical products. This is a comprehensive and practical guide for both the novice and the knowledgeable. A great read!" <i>--Diane M. Paskiet, Associate Director of Scientific Affairs, West Pharmaceutical Services</i>

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