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Dieses praxisnahe Handbuch spricht Aspekte sowohl der Wirksamkeit als auch der Sicherheit von Wirkstoffen an und erleichtert Ihnen damit die Entscheidung im Zuge einer Risiko/Nutzen-Bewertung im frühen Stadium des Entwicklungsprozesses. Herangezogen werden sowohl in-vitro-Verfahren als auch geeignete Computerprogramme.
List of contents
PART 1: Introduction: The one Airplane that Flies - Selection of the Right one Molecule for Clinical use.
1 Process logistics, testing strategies and automation aspects
2 Prediction of drug-likeness and its integration
3 Integrative risk assessment
PART 2: ADME Profiling: What is Drug Likeness?
4 Solubility and Aggregation
5 In silico tools and in vitro HTS approaches to determine lipophilicity during the drug discovery process
6 Membrane permeability - measurement and prediction in drug discovery
7 Drug Metabolism and Reactive Metabolites
8 Drug-Drug Interactions: Screening for liability and assessment of risk
9 Plasma Protein Binding and Volume of Distribution: Determination, Prediction and Use in Early Drug Discovery
10 Putting it all together
PART 3: Safety Profiling: What is Considered Safe in the Clinic?
11 Genetic Toxicity: in vitro Approaches for Hit and Lead Profiling
12 In vitro Safety Pharmacology Profiling: An important tool to decrease attrition
13 Knowledge-based and Computational Approaches to in vitro Safety Pharmacology
PART 4: Organ Specific Toxicity
14 Discovery Toxicology Screening: Predictive, In Vitro Cytotoxicity
15 Predicting Drug-Induced Hepatotoxicity: In Vitro, In Silico, and In Vivo Approaches
16 Should cardiosafety be ruled by hERG inhibition? Early testing scenarios and integrated risk assessment
17 Haematotoxicity: in vitro and ex vivo compound profiling
18 Profiling Adverse Immune Effects
19 In Vitro Phototoxicity Testing: A Procedure Involving Multiple Endpoints
About the author
Hugo Kubinyi gehört seit 1985 der BASF AG an, wo Kombinatorische Chemie, Molecular Modelling und Wirkstoffdesign zu seinen Tätigkeitsfeldern zählten. Sein Spezialgebiet sind Struktur-Wirkungs-Beziehungen und QSAR-Methoden.
Gerd Folkers is professor of pharmaceutical chemistry at the ETH Zürich since 1991. He studied pharmacy at the University of Bonn and earned his Ph.D. on structure-activity relationships of desapurines. He then moved to the University of Tübingen, where he completed his habilitation in pharmaceutical chemistry. During a stay with H.-D. Hoeltje in Bern, he studied new research methods in computer-aided molecular design and expanded this knowledge during other stays with T. Blundell at the Birkbeck College and E. Meyer at Texas A&M University.The focus of his research is the molecular interaction between drugs and their binding sites. Besides his work on the molecular mechanism of "conventional" nucleoside therapeutics against virus infections and cancer, his special interest has shifted to immuno-therapeutics.
Summary
Dieses praxisnahe Handbuch spricht Aspekte sowohl der Wirksamkeit als auch der Sicherheit von Wirkstoffen an und erleichtert Ihnen damit die Entscheidung im Zuge einer Risiko/Nutzen-Bewertung im frühen Stadium des Entwicklungsprozesses. Herangezogen werden sowohl in-vitro-Verfahren als auch geeignete Computerprogramme.
Report
"This book, which is not only for experienced scientists in the pharmaceutical industry, but is suited for newer researchers as well, clearly highlights all the relevant aspects required to facilitate the definition of a compound profile. This is a must-read for those who wish to be introduced to the multifarious aspects of compound profiling with regard to safety and efficacy, which are, in addition to affinity and selectivity, issues that make up the driving force behind a successful drug discovery project." ( ChemMedChem , 2010)
