Alok Kumar Srivastav, Priyanka Das
Artificial Intelligence in the Production of Biotherapeutics
Principles, Practices and Standards
Alok Kumar Srivastav, Priyanka Das
Artificial Intelligence in the Production of Biotherapeutics
Principles, Practices and Standards
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The transformative role of artificial intelligence (AI) in modern biomanufacturing, focusing on key areas such as Process Analytical Technology (PAT), Good Manufacturing Practice (GMP) compliance, predictive analytics, and AI-driven quality systems.
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The transformative role of artificial intelligence (AI) in modern biomanufacturing, focusing on key areas such as Process Analytical Technology (PAT), Good Manufacturing Practice (GMP) compliance, predictive analytics, and AI-driven quality systems.
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Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 304
- Erscheinungstermin: 28. Juli 2025
- Englisch
- Abmessung: 234mm x 156mm
- Gewicht: 453g
- ISBN-13: 9781041036357
- ISBN-10: 1041036353
- Artikelnr.: 73332070
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 304
- Erscheinungstermin: 28. Juli 2025
- Englisch
- Abmessung: 234mm x 156mm
- Gewicht: 453g
- ISBN-13: 9781041036357
- ISBN-10: 1041036353
- Artikelnr.: 73332070
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
Dr. Alok Kumar Srivastav is an accomplished Assistant Professor in the Department of Health Science at the University of the People, Pasadena, California, USA. His academic background includes a Ph.D., M.Tech, and M.Sc. in Bio-Technology, a Post-Doctoral Fellowship (Research) in Bio-Technology from Lincoln University College, Malaysia, and an MBA in Human Resource Management. He is a distinguished figure in Academia and Research, honored with the "International Pride of Educationist Award" at AIT, Thailand, in 2022 for pioneering contributions to advancing education in the digital era, and recipient of a prestigious "Innovative Academic Researcher Award" at HULT, France, UK, in 2024 for his exceptional creativity, innovation, and impact in academic research. Dr. Priyanka Das serves as an Assistant Professor in the Department of Health Science at the University of the People in Pasadena, California, USA. She holds a Ph.D., M.Tech, and M.Sc. in Biotechnology along with an MBA in Human Resource Management. Prior to her current position, she was a Post-Doctoral Fellowship (Research) in Biotechnology at Lincoln University College, Malaysia. Dr. Priyanka Das is a dedicated scholar, contributing significantly to the field of Biotechnology.
CHAPTER 1: INTRODUCTION TO BIOMANUFACTURING
1.1 Overview of Modern Biomanufacturing Principles
1.2 Overview of Biomanufacturing
1.3 The Quality by Design Approach
1.4 Technical Considerations in Biomanufacturing
1.5 Phases and Scale-Up in Biomanufacturing
1.6 Lifecycle of Manufacturing
1.7 Integration of Artificial Intelligence in Biomanufacturing
CHAPTER 2: RAW MATERIAL AND COMPLIANCE IN BIOMANUFACTURING
2.1 Raw Material Considerations in Biomanufacturing
2.2 Compliance and Quality in Biomanufacturing
2.3 Lean Biomanufacturing
2.4 Artificial Intelligence in Raw Material Management
2.5 Predictive Analytics for Raw Material Quality and Supply Chain
Optimization
2.6 Advanced Technologies and Future Directions in Biomanufacturing
CHAPTER 3: PROCESS ANALYTICAL TECHNOLOGY (PAT)
3.1 Background and Need for PAT
3.2 Tools for Data Acquisitions
3.3 Software in Fermenters, Flow Filtrations, Chromatography
3.4 Analysis and Design Process Analyzers
3.5 Process Control Tools
3.6 Continuous Improvement and Knowledge Management
3.7 Artificial Intelligence in Process Analytical Technology
3.8 Enhancing data acquisition and process control through machine learning
algorithms
CHAPTER 4: STANDARD OPERATING PROCEDURES IN BIOTECHNOLOGY
4.1 Upstream Processing of Proteins
4.2 Downstream Processing of Proteins
4.3 Quality Control of Protein Production
4.4 Final Fill and Finish of Product
4.5 Case Studies: Therapeutic Proteins, Monoclonal Antibodies, Human
Vaccines
4.6 Artificial Intelligence for Standard Operating Procedures Optimization
4.7 Automating and optimizing SOPs using AI technologies
CHAPTER 5: INTRODUCTION TO QUALITY SYSTEMS
5.1 Main Elements of a Quality System
5.2 Essentials of a Quality System
5.3 Practical Implementation of a Quality System
5.4 Structure of a Quality Manual
5.5 Correlation between GMP Requirements (WHO) and ISO 9001:2000
5.6 Artificial Intelligence in Quality Systems
5.7 Leveraging AI to ensure continuous compliance and improvement in
quality systems
CHAPTER 6: PRINCIPLES AND PRACTICE OF GMP: PERSONNEL AND PREMISES
6.1 Principles of Human Resource Management
6.2 Duties of Senior Management
6.3 Organizational Structures
6.4 Qualification and Profiles Requirement
6.5 Workplace and Job Descriptions
6.6 Health Monitoring and Occupational Health Safety
6.7 Training and Functions Owners Subject to Public Law
6.8 Official Requirements for Premises
6.9 Material & Personnel Flow and Layout
6.10 Air Cleanliness Classes and Grades
6.11 Construction Elements and Barrier Systems
6.12 Artificial Intelligence in Personnel Management and Premises
6.13 AI applications in optimizing HR functions and premises management
CHAPTER 7: FACILITIES, EQUIPMENT, AND PHARMACEUTICAL WATER
7.1 Facility Planning and Materials
7.2 Hygienic Design in Solids Handling
7.3 System Controllers and Process Control Systems
7.4 Technical Documentation, Calibration, and Maintenance
7.5 Cleaning of Facilities and Containment in Solids Handling
7.6 Pharmaceutical Water: Qualities, Generation, Distribution, and Storage
7.7 Qualification and Operation of Water Supplies
7.8 Pure Steam Systems
7.9 Artificial Intelligence in Facility Management
7.10 Using AI for predictive maintenance and efficient facility operations
CHAPTER 8: QUALIFICATION AND PROCESS VALIDATION
8.1 Official Requirements for Qualification
8.2 Preparation and Documentation of Qualification
8.3 Design Qualification (DQ), Installation Qualification (IQ), Operational
Qualification (OQ), Performance Qualification (PQ)
8.4 Special Cases of Qualification
8.5 Official Requirements for Validation
8.6 Validation Planning and Procedure
8.7 Process Validation and Product Lifecycle
8.8 Cleaning Validation: Master Plan, Scope, Acceptance Criteria, Sampling,
Analytical Procedures, Documentation
8.9 Artificial Intelligence in Validation Processes
8.10 Automating qualification and validation processes with AI tools
CHAPTER 9: PRODUCTION, SANITATION, AND STERILE PACKAGING
9.1 Sanitation and Personnel Hygiene
9.2 Production Hygiene and Environmental Monitoring
9.3 GMP in the Production Process
9.4 Weigh-In, Identification, and In-Process Control
9.5 Prevention of Cross-Contamination, Reworking, Warehouse, and Logistics
9.6 Sterile Production: Air Lock Concepts, Manufacture of Terminally
Sterilized Products, Sterilization Processes
9.7 Aseptic Processing and Freeze-Drying
9.8 Testing for Sterility, Endotoxins, Leakage, and Particles
9.9 Microbiological Monitoring
9.10 Packaging Materials and Processes
9.11 Qualification of a Servo-Controlled Blister Packaging Line
9.12 Blow-Fill-Seal (BFS) Technology
9.13 Artificial Intelligence in Production and Packaging: AI for real-time
monitoring and control in production and packaging environments
CHAPTER 10: GMP IN REGULATION
10.1 Information on National Bodies and Pharmaceutical Associations
10.2 Overview of Pharmacopeia
10.3 EU Directives and Guidelines
10.4 USA: CFR and FDA Guidelines
10.5 ICH-Guidelines
10.6 PIC/S Guidelines
10.7 GMP of Other Regions
10.8 WHO Guidelines
10.9 Artificial Intelligence in Regulatory Compliance: AI tools for
ensuring adherence to regulatory guidelines and proactive compliance
.
1.1 Overview of Modern Biomanufacturing Principles
1.2 Overview of Biomanufacturing
1.3 The Quality by Design Approach
1.4 Technical Considerations in Biomanufacturing
1.5 Phases and Scale-Up in Biomanufacturing
1.6 Lifecycle of Manufacturing
1.7 Integration of Artificial Intelligence in Biomanufacturing
CHAPTER 2: RAW MATERIAL AND COMPLIANCE IN BIOMANUFACTURING
2.1 Raw Material Considerations in Biomanufacturing
2.2 Compliance and Quality in Biomanufacturing
2.3 Lean Biomanufacturing
2.4 Artificial Intelligence in Raw Material Management
2.5 Predictive Analytics for Raw Material Quality and Supply Chain
Optimization
2.6 Advanced Technologies and Future Directions in Biomanufacturing
CHAPTER 3: PROCESS ANALYTICAL TECHNOLOGY (PAT)
3.1 Background and Need for PAT
3.2 Tools for Data Acquisitions
3.3 Software in Fermenters, Flow Filtrations, Chromatography
3.4 Analysis and Design Process Analyzers
3.5 Process Control Tools
3.6 Continuous Improvement and Knowledge Management
3.7 Artificial Intelligence in Process Analytical Technology
3.8 Enhancing data acquisition and process control through machine learning
algorithms
CHAPTER 4: STANDARD OPERATING PROCEDURES IN BIOTECHNOLOGY
4.1 Upstream Processing of Proteins
4.2 Downstream Processing of Proteins
4.3 Quality Control of Protein Production
4.4 Final Fill and Finish of Product
4.5 Case Studies: Therapeutic Proteins, Monoclonal Antibodies, Human
Vaccines
4.6 Artificial Intelligence for Standard Operating Procedures Optimization
4.7 Automating and optimizing SOPs using AI technologies
CHAPTER 5: INTRODUCTION TO QUALITY SYSTEMS
5.1 Main Elements of a Quality System
5.2 Essentials of a Quality System
5.3 Practical Implementation of a Quality System
5.4 Structure of a Quality Manual
5.5 Correlation between GMP Requirements (WHO) and ISO 9001:2000
5.6 Artificial Intelligence in Quality Systems
5.7 Leveraging AI to ensure continuous compliance and improvement in
quality systems
CHAPTER 6: PRINCIPLES AND PRACTICE OF GMP: PERSONNEL AND PREMISES
6.1 Principles of Human Resource Management
6.2 Duties of Senior Management
6.3 Organizational Structures
6.4 Qualification and Profiles Requirement
6.5 Workplace and Job Descriptions
6.6 Health Monitoring and Occupational Health Safety
6.7 Training and Functions Owners Subject to Public Law
6.8 Official Requirements for Premises
6.9 Material & Personnel Flow and Layout
6.10 Air Cleanliness Classes and Grades
6.11 Construction Elements and Barrier Systems
6.12 Artificial Intelligence in Personnel Management and Premises
6.13 AI applications in optimizing HR functions and premises management
CHAPTER 7: FACILITIES, EQUIPMENT, AND PHARMACEUTICAL WATER
7.1 Facility Planning and Materials
7.2 Hygienic Design in Solids Handling
7.3 System Controllers and Process Control Systems
7.4 Technical Documentation, Calibration, and Maintenance
7.5 Cleaning of Facilities and Containment in Solids Handling
7.6 Pharmaceutical Water: Qualities, Generation, Distribution, and Storage
7.7 Qualification and Operation of Water Supplies
7.8 Pure Steam Systems
7.9 Artificial Intelligence in Facility Management
7.10 Using AI for predictive maintenance and efficient facility operations
CHAPTER 8: QUALIFICATION AND PROCESS VALIDATION
8.1 Official Requirements for Qualification
8.2 Preparation and Documentation of Qualification
8.3 Design Qualification (DQ), Installation Qualification (IQ), Operational
Qualification (OQ), Performance Qualification (PQ)
8.4 Special Cases of Qualification
8.5 Official Requirements for Validation
8.6 Validation Planning and Procedure
8.7 Process Validation and Product Lifecycle
8.8 Cleaning Validation: Master Plan, Scope, Acceptance Criteria, Sampling,
Analytical Procedures, Documentation
8.9 Artificial Intelligence in Validation Processes
8.10 Automating qualification and validation processes with AI tools
CHAPTER 9: PRODUCTION, SANITATION, AND STERILE PACKAGING
9.1 Sanitation and Personnel Hygiene
9.2 Production Hygiene and Environmental Monitoring
9.3 GMP in the Production Process
9.4 Weigh-In, Identification, and In-Process Control
9.5 Prevention of Cross-Contamination, Reworking, Warehouse, and Logistics
9.6 Sterile Production: Air Lock Concepts, Manufacture of Terminally
Sterilized Products, Sterilization Processes
9.7 Aseptic Processing and Freeze-Drying
9.8 Testing for Sterility, Endotoxins, Leakage, and Particles
9.9 Microbiological Monitoring
9.10 Packaging Materials and Processes
9.11 Qualification of a Servo-Controlled Blister Packaging Line
9.12 Blow-Fill-Seal (BFS) Technology
9.13 Artificial Intelligence in Production and Packaging: AI for real-time
monitoring and control in production and packaging environments
CHAPTER 10: GMP IN REGULATION
10.1 Information on National Bodies and Pharmaceutical Associations
10.2 Overview of Pharmacopeia
10.3 EU Directives and Guidelines
10.4 USA: CFR and FDA Guidelines
10.5 ICH-Guidelines
10.6 PIC/S Guidelines
10.7 GMP of Other Regions
10.8 WHO Guidelines
10.9 Artificial Intelligence in Regulatory Compliance: AI tools for
ensuring adherence to regulatory guidelines and proactive compliance
.
CHAPTER 1: INTRODUCTION TO BIOMANUFACTURING
1.1 Overview of Modern Biomanufacturing Principles
1.2 Overview of Biomanufacturing
1.3 The Quality by Design Approach
1.4 Technical Considerations in Biomanufacturing
1.5 Phases and Scale-Up in Biomanufacturing
1.6 Lifecycle of Manufacturing
1.7 Integration of Artificial Intelligence in Biomanufacturing
CHAPTER 2: RAW MATERIAL AND COMPLIANCE IN BIOMANUFACTURING
2.1 Raw Material Considerations in Biomanufacturing
2.2 Compliance and Quality in Biomanufacturing
2.3 Lean Biomanufacturing
2.4 Artificial Intelligence in Raw Material Management
2.5 Predictive Analytics for Raw Material Quality and Supply Chain
Optimization
2.6 Advanced Technologies and Future Directions in Biomanufacturing
CHAPTER 3: PROCESS ANALYTICAL TECHNOLOGY (PAT)
3.1 Background and Need for PAT
3.2 Tools for Data Acquisitions
3.3 Software in Fermenters, Flow Filtrations, Chromatography
3.4 Analysis and Design Process Analyzers
3.5 Process Control Tools
3.6 Continuous Improvement and Knowledge Management
3.7 Artificial Intelligence in Process Analytical Technology
3.8 Enhancing data acquisition and process control through machine learning
algorithms
CHAPTER 4: STANDARD OPERATING PROCEDURES IN BIOTECHNOLOGY
4.1 Upstream Processing of Proteins
4.2 Downstream Processing of Proteins
4.3 Quality Control of Protein Production
4.4 Final Fill and Finish of Product
4.5 Case Studies: Therapeutic Proteins, Monoclonal Antibodies, Human
Vaccines
4.6 Artificial Intelligence for Standard Operating Procedures Optimization
4.7 Automating and optimizing SOPs using AI technologies
CHAPTER 5: INTRODUCTION TO QUALITY SYSTEMS
5.1 Main Elements of a Quality System
5.2 Essentials of a Quality System
5.3 Practical Implementation of a Quality System
5.4 Structure of a Quality Manual
5.5 Correlation between GMP Requirements (WHO) and ISO 9001:2000
5.6 Artificial Intelligence in Quality Systems
5.7 Leveraging AI to ensure continuous compliance and improvement in
quality systems
CHAPTER 6: PRINCIPLES AND PRACTICE OF GMP: PERSONNEL AND PREMISES
6.1 Principles of Human Resource Management
6.2 Duties of Senior Management
6.3 Organizational Structures
6.4 Qualification and Profiles Requirement
6.5 Workplace and Job Descriptions
6.6 Health Monitoring and Occupational Health Safety
6.7 Training and Functions Owners Subject to Public Law
6.8 Official Requirements for Premises
6.9 Material & Personnel Flow and Layout
6.10 Air Cleanliness Classes and Grades
6.11 Construction Elements and Barrier Systems
6.12 Artificial Intelligence in Personnel Management and Premises
6.13 AI applications in optimizing HR functions and premises management
CHAPTER 7: FACILITIES, EQUIPMENT, AND PHARMACEUTICAL WATER
7.1 Facility Planning and Materials
7.2 Hygienic Design in Solids Handling
7.3 System Controllers and Process Control Systems
7.4 Technical Documentation, Calibration, and Maintenance
7.5 Cleaning of Facilities and Containment in Solids Handling
7.6 Pharmaceutical Water: Qualities, Generation, Distribution, and Storage
7.7 Qualification and Operation of Water Supplies
7.8 Pure Steam Systems
7.9 Artificial Intelligence in Facility Management
7.10 Using AI for predictive maintenance and efficient facility operations
CHAPTER 8: QUALIFICATION AND PROCESS VALIDATION
8.1 Official Requirements for Qualification
8.2 Preparation and Documentation of Qualification
8.3 Design Qualification (DQ), Installation Qualification (IQ), Operational
Qualification (OQ), Performance Qualification (PQ)
8.4 Special Cases of Qualification
8.5 Official Requirements for Validation
8.6 Validation Planning and Procedure
8.7 Process Validation and Product Lifecycle
8.8 Cleaning Validation: Master Plan, Scope, Acceptance Criteria, Sampling,
Analytical Procedures, Documentation
8.9 Artificial Intelligence in Validation Processes
8.10 Automating qualification and validation processes with AI tools
CHAPTER 9: PRODUCTION, SANITATION, AND STERILE PACKAGING
9.1 Sanitation and Personnel Hygiene
9.2 Production Hygiene and Environmental Monitoring
9.3 GMP in the Production Process
9.4 Weigh-In, Identification, and In-Process Control
9.5 Prevention of Cross-Contamination, Reworking, Warehouse, and Logistics
9.6 Sterile Production: Air Lock Concepts, Manufacture of Terminally
Sterilized Products, Sterilization Processes
9.7 Aseptic Processing and Freeze-Drying
9.8 Testing for Sterility, Endotoxins, Leakage, and Particles
9.9 Microbiological Monitoring
9.10 Packaging Materials and Processes
9.11 Qualification of a Servo-Controlled Blister Packaging Line
9.12 Blow-Fill-Seal (BFS) Technology
9.13 Artificial Intelligence in Production and Packaging: AI for real-time
monitoring and control in production and packaging environments
CHAPTER 10: GMP IN REGULATION
10.1 Information on National Bodies and Pharmaceutical Associations
10.2 Overview of Pharmacopeia
10.3 EU Directives and Guidelines
10.4 USA: CFR and FDA Guidelines
10.5 ICH-Guidelines
10.6 PIC/S Guidelines
10.7 GMP of Other Regions
10.8 WHO Guidelines
10.9 Artificial Intelligence in Regulatory Compliance: AI tools for
ensuring adherence to regulatory guidelines and proactive compliance
.
1.1 Overview of Modern Biomanufacturing Principles
1.2 Overview of Biomanufacturing
1.3 The Quality by Design Approach
1.4 Technical Considerations in Biomanufacturing
1.5 Phases and Scale-Up in Biomanufacturing
1.6 Lifecycle of Manufacturing
1.7 Integration of Artificial Intelligence in Biomanufacturing
CHAPTER 2: RAW MATERIAL AND COMPLIANCE IN BIOMANUFACTURING
2.1 Raw Material Considerations in Biomanufacturing
2.2 Compliance and Quality in Biomanufacturing
2.3 Lean Biomanufacturing
2.4 Artificial Intelligence in Raw Material Management
2.5 Predictive Analytics for Raw Material Quality and Supply Chain
Optimization
2.6 Advanced Technologies and Future Directions in Biomanufacturing
CHAPTER 3: PROCESS ANALYTICAL TECHNOLOGY (PAT)
3.1 Background and Need for PAT
3.2 Tools for Data Acquisitions
3.3 Software in Fermenters, Flow Filtrations, Chromatography
3.4 Analysis and Design Process Analyzers
3.5 Process Control Tools
3.6 Continuous Improvement and Knowledge Management
3.7 Artificial Intelligence in Process Analytical Technology
3.8 Enhancing data acquisition and process control through machine learning
algorithms
CHAPTER 4: STANDARD OPERATING PROCEDURES IN BIOTECHNOLOGY
4.1 Upstream Processing of Proteins
4.2 Downstream Processing of Proteins
4.3 Quality Control of Protein Production
4.4 Final Fill and Finish of Product
4.5 Case Studies: Therapeutic Proteins, Monoclonal Antibodies, Human
Vaccines
4.6 Artificial Intelligence for Standard Operating Procedures Optimization
4.7 Automating and optimizing SOPs using AI technologies
CHAPTER 5: INTRODUCTION TO QUALITY SYSTEMS
5.1 Main Elements of a Quality System
5.2 Essentials of a Quality System
5.3 Practical Implementation of a Quality System
5.4 Structure of a Quality Manual
5.5 Correlation between GMP Requirements (WHO) and ISO 9001:2000
5.6 Artificial Intelligence in Quality Systems
5.7 Leveraging AI to ensure continuous compliance and improvement in
quality systems
CHAPTER 6: PRINCIPLES AND PRACTICE OF GMP: PERSONNEL AND PREMISES
6.1 Principles of Human Resource Management
6.2 Duties of Senior Management
6.3 Organizational Structures
6.4 Qualification and Profiles Requirement
6.5 Workplace and Job Descriptions
6.6 Health Monitoring and Occupational Health Safety
6.7 Training and Functions Owners Subject to Public Law
6.8 Official Requirements for Premises
6.9 Material & Personnel Flow and Layout
6.10 Air Cleanliness Classes and Grades
6.11 Construction Elements and Barrier Systems
6.12 Artificial Intelligence in Personnel Management and Premises
6.13 AI applications in optimizing HR functions and premises management
CHAPTER 7: FACILITIES, EQUIPMENT, AND PHARMACEUTICAL WATER
7.1 Facility Planning and Materials
7.2 Hygienic Design in Solids Handling
7.3 System Controllers and Process Control Systems
7.4 Technical Documentation, Calibration, and Maintenance
7.5 Cleaning of Facilities and Containment in Solids Handling
7.6 Pharmaceutical Water: Qualities, Generation, Distribution, and Storage
7.7 Qualification and Operation of Water Supplies
7.8 Pure Steam Systems
7.9 Artificial Intelligence in Facility Management
7.10 Using AI for predictive maintenance and efficient facility operations
CHAPTER 8: QUALIFICATION AND PROCESS VALIDATION
8.1 Official Requirements for Qualification
8.2 Preparation and Documentation of Qualification
8.3 Design Qualification (DQ), Installation Qualification (IQ), Operational
Qualification (OQ), Performance Qualification (PQ)
8.4 Special Cases of Qualification
8.5 Official Requirements for Validation
8.6 Validation Planning and Procedure
8.7 Process Validation and Product Lifecycle
8.8 Cleaning Validation: Master Plan, Scope, Acceptance Criteria, Sampling,
Analytical Procedures, Documentation
8.9 Artificial Intelligence in Validation Processes
8.10 Automating qualification and validation processes with AI tools
CHAPTER 9: PRODUCTION, SANITATION, AND STERILE PACKAGING
9.1 Sanitation and Personnel Hygiene
9.2 Production Hygiene and Environmental Monitoring
9.3 GMP in the Production Process
9.4 Weigh-In, Identification, and In-Process Control
9.5 Prevention of Cross-Contamination, Reworking, Warehouse, and Logistics
9.6 Sterile Production: Air Lock Concepts, Manufacture of Terminally
Sterilized Products, Sterilization Processes
9.7 Aseptic Processing and Freeze-Drying
9.8 Testing for Sterility, Endotoxins, Leakage, and Particles
9.9 Microbiological Monitoring
9.10 Packaging Materials and Processes
9.11 Qualification of a Servo-Controlled Blister Packaging Line
9.12 Blow-Fill-Seal (BFS) Technology
9.13 Artificial Intelligence in Production and Packaging: AI for real-time
monitoring and control in production and packaging environments
CHAPTER 10: GMP IN REGULATION
10.1 Information on National Bodies and Pharmaceutical Associations
10.2 Overview of Pharmacopeia
10.3 EU Directives and Guidelines
10.4 USA: CFR and FDA Guidelines
10.5 ICH-Guidelines
10.6 PIC/S Guidelines
10.7 GMP of Other Regions
10.8 WHO Guidelines
10.9 Artificial Intelligence in Regulatory Compliance: AI tools for
ensuring adherence to regulatory guidelines and proactive compliance
.