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Biopharmaceutical Informatics Learning to Discover Developable Biotherapeutics

Kumar Sandeep Nixon, Andrew
Innbundet / 2025 / Engelsk

Produktdetaljer

ISBN
9781032291673
Publisert
2025-01-22
Utgiver
Vendor
CRC Press
Vekt
453 gr
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
370

Redaktør
Kumar Sandeep
Nixon, Andrew

Om bidragsyterne

Dr. Sandeep Kumar is currently a Distinguished Fellow (Executive Director) at the department of Computational Science in Moderna Therapeutics, Cambridge, MA where he leads Molecular Design and Modeling team. Sandeep Kumar holds a Ph.D. in Computational Biophysics and has over 25 years of experience researching protein structure – Function relationships. Sandeep Kumar has so far contributed towards more than 100 research articles, reviews, book chapters, and has previously edited a book entitled “Developability of Biotherapeutics: Computational Approaches”. Sandeep has been contributing towards discovery and development of numerous monoclonal antibodies, antibody drug conjugates, bispecific and multi-specific modalities, as well as vaccines. Based on the insights gained from these experiences, Sandeep has been advocating for Biopharmaceutical Informatics, a strategic vision dedicated to synergistic use of computation and experimentation towards a cost effective and more efficient discovery and development of Biotherapeutics. More recently, he is promoting the concept of DAbI (Discovery of Antibodies in silico) where he sees an opportunity for generative AI to not only accelerate biopharmaceutical drug design but also to expand the antigen space druggable by antibody-based biotherapeutics.

Dr. Andrew Nixon is currently Vice President, Biotherapeutics Molecule Discovery at Boehringer Ingelheim Pharmaceuticals, Inc., Ridgefield, CT, USA. Andy earned his Ph.D. in Physical Biochemistry from the University of London for studies completed at the MRC’s National Institute for Medical Research. Andy has over 20 years of experience in biologic drug discovery and has contributed to over 100 antibody discovery programs resulting in numerous clinical candidates and approved biologics including TAKHZYRO, a fully human antibody inhibitor of plasma kallikrein.

Biopharmaceutical Informatics Learning to Discover Developable Biotherapeutics

Kumar Sandeep Nixon, Andrew
Innbundet / 2025 / Engelsk
Kumar Sandeep Nixon, Andrew
Innbundet / 2025 / Engelsk
Nettpris:
1.399,-
Kommer i salg {date}
Sjekk lagerstatus i butikk
Despite the phenomenal clinical success of antibody-based biopharmaceuticals in recent years, discovery and development of these novel biomedicines remains a costly, time-consuming, and risky endeavor with low probability of success. To bring better biomedicines to patients faster, we have come up with a strategic vision of Biopharmaceutical Informatics which calls for syncretic use of computation and experiment at all stages of biologic drug discovery and pre-clinical development cycles to improve probability of successful clinical outcomes. Biopharmaceutical Informatics also encourages industry and academic scientists supporting various aspects of biotherapeutic drug discovery and development cycles to learn from our collective experiences of successes and, more importantly, failures. The insights gained from such learnings shall help us improve the rate of successful translation of drug discoveries into drug products available to clinicians and patients, reduce costs, and increase the speed of biologic drug discovery and development. Hopefully, the efficiencies gained from implementing such insights shall make novel biomedicines more affordable for patients.This unique volume describes ways to invent and commercialize biomedicines more efficiently:Calls for digital transformation of biopharmaceutical industry by appropriately collecting, curating, and making available discovery and pre-clinical development project data using FAIR principles.Describes applications of artificial intelligence and machine learning (AIML) in discovery of antibodies in silico (DAbI) starting with antigen design, constructing inherently developable antibody libraries, finding hits, identifying lead candidates, and optimizing them. Details applications of AIML, physics-based computational design methods, and other bioinformatics tools in fields such as developability assessments, formulation and excipient design, analytical and bioprocess development, and pharmacology.Presents pharmacokinetics/pharmacodynamics (PK/PD) and Quantitative Systems Pharmacology (QSP) models for biopharmaceuticals.Describes uses of AIML in bispecific and multi-specific formats.Dr Sandeep Kumar has also edited a collection of articles dedicated to this topic which can be found in the Taylor and Francis journal mAbs.
Les mer
This book describes ways to invent and commercialize biomedicines in a more time and cost-efficient manner. Failure to translate a discovery into a marketed drug denies us an opportunity to improve the lives of patients who do not have access to effective therapies. Here, the authors provide a greater understanding of biopharmaceutical informatics.
Les mer
ForewordPrefaceAbout the editorsList of contributors1. Biopharmaceutical Informatics: An Introduction2. Digital transformation in the biopharmaceutical industry: rebuilding the way we discover complex therapeutics3. Computational protein design strategies for optimization of antigen generation to drive antibody discovery4. Bioinformatic Analyses of Antibody Repertoires and Their Roles in Modern Antibody Drug Discovery5. Applications of Artificial Intelligence and Machine Learning Towards Antibody Discovery and Development6. From Deep Generative Models to Structure-Based Simulations: Computational Approaches for Antibody Design7. Computational biophysical analyses of antibody structure-function relationships with emphasis on therapeutic antibody-based biologics8. Use of molecular simulations to understand structural dynamics of antibodies9. Considerations of developability during the early stages of antibody drug discovery and design10. In Silico Approaches to Deliver Better Antibodies by Design – The Past, the Present and the Future11. Use of systems biology approaches towards target discovery, validation, and drug development12. Recent advances in PK/PD and Quantitative Systems Pharmacology (QSP) models for biopharmaceuticals13. The Artificial Intelligence Revolution: Transforming the Design and Optimization of Multispecific AntibodiesIndex.
Les mer

Relaterte produkter

Despite the phenomenal clinical success of antibody-based biopharmaceuticals in recent years, discovery and development of these novel biomedicines remains a costly, time-consuming, and risky endeavor with low probability of success. To bring better biomedicines to patients faster, we have come up with a strategic vision of Biopharmaceutical Informatics which calls for syncretic use of computation and experiment at all stages of biologic drug discovery and pre-clinical development cycles to improve probability of successful clinical outcomes. Biopharmaceutical Informatics also encourages industry and academic scientists supporting various aspects of biotherapeutic drug discovery and development cycles to learn from our collective experiences of successes and, more importantly, failures. The insights gained from such learnings shall help us improve the rate of successful translation of drug discoveries into drug products available to clinicians and patients, reduce costs, and increase the speed of biologic drug discovery and development. Hopefully, the efficiencies gained from implementing such insights shall make novel biomedicines more affordable for patients.This unique volume describes ways to invent and commercialize biomedicines more efficiently:Calls for digital transformation of biopharmaceutical industry by appropriately collecting, curating, and making available discovery and pre-clinical development project data using FAIR principles.Describes applications of artificial intelligence and machine learning (AIML) in discovery of antibodies in silico (DAbI) starting with antigen design, constructing inherently developable antibody libraries, finding hits, identifying lead candidates, and optimizing them. Details applications of AIML, physics-based computational design methods, and other bioinformatics tools in fields such as developability assessments, formulation and excipient design, analytical and bioprocess development, and pharmacology.Presents pharmacokinetics/pharmacodynamics (PK/PD) and Quantitative Systems Pharmacology (QSP) models for biopharmaceuticals.Describes uses of AIML in bispecific and multi-specific formats.Dr Sandeep Kumar has also edited a collection of articles dedicated to this topic which can be found in the Taylor and Francis journal mAbs.
Les mer
This book describes ways to invent and commercialize biomedicines in a more time and cost-efficient manner. Failure to translate a discovery into a marketed drug denies us an opportunity to improve the lives of patients who do not have access to effective therapies. Here, the authors provide a greater understanding of biopharmaceutical informatics.
Les mer
ForewordPrefaceAbout the editorsList of contributors1. Biopharmaceutical Informatics: An Introduction2. Digital transformation in the biopharmaceutical industry: rebuilding the way we discover complex therapeutics3. Computational protein design strategies for optimization of antigen generation to drive antibody discovery4. Bioinformatic Analyses of Antibody Repertoires and Their Roles in Modern Antibody Drug Discovery5. Applications of Artificial Intelligence and Machine Learning Towards Antibody Discovery and Development6. From Deep Generative Models to Structure-Based Simulations: Computational Approaches for Antibody Design7. Computational biophysical analyses of antibody structure-function relationships with emphasis on therapeutic antibody-based biologics8. Use of molecular simulations to understand structural dynamics of antibodies9. Considerations of developability during the early stages of antibody drug discovery and design10. In Silico Approaches to Deliver Better Antibodies by Design – The Past, the Present and the Future11. Use of systems biology approaches towards target discovery, validation, and drug development12. Recent advances in PK/PD and Quantitative Systems Pharmacology (QSP) models for biopharmaceuticals13. The Artificial Intelligence Revolution: Transforming the Design and Optimization of Multispecific AntibodiesIndex.
Les mer

Produktdetaljer

ISBN
9781032291673
Publisert
2025-01-22
Utgiver
Vendor
CRC Press
Vekt
453 gr
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
370

Redaktør
Kumar Sandeep
Nixon, Andrew

Om bidragsyterne

Dr. Sandeep Kumar is currently a Distinguished Fellow (Executive Director) at the department of Computational Science in Moderna Therapeutics, Cambridge, MA where he leads Molecular Design and Modeling team. Sandeep Kumar holds a Ph.D. in Computational Biophysics and has over 25 years of experience researching protein structure – Function relationships. Sandeep Kumar has so far contributed towards more than 100 research articles, reviews, book chapters, and has previously edited a book entitled “Developability of Biotherapeutics: Computational Approaches”. Sandeep has been contributing towards discovery and development of numerous monoclonal antibodies, antibody drug conjugates, bispecific and multi-specific modalities, as well as vaccines. Based on the insights gained from these experiences, Sandeep has been advocating for Biopharmaceutical Informatics, a strategic vision dedicated to synergistic use of computation and experimentation towards a cost effective and more efficient discovery and development of Biotherapeutics. More recently, he is promoting the concept of DAbI (Discovery of Antibodies in silico) where he sees an opportunity for generative AI to not only accelerate biopharmaceutical drug design but also to expand the antigen space druggable by antibody-based biotherapeutics.

Dr. Andrew Nixon is currently Vice President, Biotherapeutics Molecule Discovery at Boehringer Ingelheim Pharmaceuticals, Inc., Ridgefield, CT, USA. Andy earned his Ph.D. in Physical Biochemistry from the University of London for studies completed at the MRC’s National Institute for Medical Research. Andy has over 20 years of experience in biologic drug discovery and has contributed to over 100 antibody discovery programs resulting in numerous clinical candidates and approved biologics including TAKHZYRO, a fully human antibody inhibitor of plasma kallikrein.

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