Drug repurposing and computational drug discovery strategies and advances
Defined as identifying new pharmacological indications from old, existing, failed, investigational, already marketed, or FDA-approved drugs and prodrugs, and applying these new uses in the treatment of diseases other than the drug’s original intended therapeutic use. The application of computational techniques in discovery research not only helps in the development of drugs from leads or existing drug molecules but can also be useful for the repurposing of existing drug candidates.
Drug discovery with privileged building Blocks : Tactics in medicinal chemistry
Drug Discovery with Privileged Building Blocks traces back PharmaBlock’s founding philosophy of designing privileged building blocks. High-quality building blocks are crucial not only to biological activities of different molecules but also to ADMET properties, which eventually will impact the success rate of drug discovery projects. A thorough study of how building blocks perform in drug molecules and a regular analysis of new building block structures in the latest researches have proven to be a fruitful strategy to generate novel building blocks. Using this strategy, PharmaBlock has supplied the drug industry with a great number of building blocks, which are increasingly being adopted by drug hunters, and these are identified in this book.
Drug discovery targeting drug-resistant bacteria
Drug Discovery Targeting Drug-Resistant Bacteria explores the status and possible future of developments in fighting drug-resistant bacteria. The book covers the majority of microbial diseases and the drugs targeting them. In addition, it discusses the potential targeting strategies and innovative approaches to address drug resistance. It brings together academic and industrial experts working on discovering and developing drugs targeting drug-resistant (DR) bacterial pathogens. New drugs active against drug-resistant pathogens are discussed, along with new strategies being used to discover molecules acting via new modes of action. In addition, alternative therapies such as peptides and phages are included.
Drug discovery and GBCR – Related CNS Disorders
Neurodegenerative diseases are a large group of neurological disorders with diverse etiological and pathological phenomena. However, current therapeutics rely mostly on symptomatic relief while failing to target the underlying disease pathobiology. G-protein-coupled receptors (GPCRs) are one of the most frequently targeted receptors for developing novel therapeutics for central nervous system (CNS) disorders. Many currently available antipsychotic therapeutics also act as either antagonists or agonists of different GPCRs. Therefore, GPCR-based drug development is spreading widely to regulate neurodegeneration and associated cognitive deficits through the modulation of canonical and noncanonical signals.
Drug Discovery and Evaluation : Safety and Pharmacokinetic Assays
This book is a landmark in the continuously changing world of drugs. It is essential reading for scientists and managers in the pharmaceutical industry who are involved in drug finding, drug development and decision making in the development process.
Drug Discovery and Evaluation
The 3rd edition of this successful reference book contains an updated selection of the most frequently used assays for reliably detecting the pharmacological effects of potential drugs. Effects covered include cardiovascular, analgesic, endocrine, psychotropic, respiratory, renal, and immunomodulatory activities. Each of the more than 1000 assays comprises a detailed protocol outlining the purpose and rationale of the method, a critical assessment of the results and their pharmacological and clinical relevance. In addition, animal models of rare diseases are described.
Drug discovery and development
Presents up-to-date scientific information for maximizing the ability of a multidisciplinary research team to discover and bring new drugs to the marketplace. It explores many scientific advances in new drug discovery and development for areas such as screening technologies, biotechnology approaches, and evaluation of efficacy and safety of drug candidates through preclinical testing. This book also greatly expands the focus on the clinical pharmacology, regulatory, and business aspects of bringing new drugs to the market and offers coverage of essential topics for companies involved in drug development. Historical perspectives and predicted trends are also provided.
Drug development and approval process
Drug discovery is the process of identifying and characterizing molecules with the potential to safely modulate disease, with a goal to bring medicines that can improve the lives of patients. It is a lengthy and resource intensive process, that requires close cooperation across multiple disciplines. Optimizing the process of drug discovery is of great interest to the pharmaceutical industry, as the efficient identification and selection of suitable drug candidates can have a dramatic impact on the cost and profitability of new medicines.
Drug design : A conceptual overview
The newer research areas in pharmaceutical sciences, particularly molecular modeling and simulations, prompted a more efficient drug discovery process. Informatics integrated with pharmaceutical sciences (cheminformatics and bioinformatics) became an essential component of drug research. Drug informatics such as genomics and proteomics assists in the Rational Drug Design (RDD). This emerging discipline is known as “Computer-Aided Drug Design" (CADD), which has profound application in RDD. The advanced and adequate practice in drug design informatics is essential for pharmacy graduates. Hence, a companion for acquiring knowledge on these concepts is vital. The students of B. Pharmacy, M. Pharmacy (Pharmaceutical Chemistry, Pharmacology, and Pharmaceutics), biotechnology, biomedical engineering and other interdisciplinary fields may find this book as a reference guide.
Drug delivery approaches and nanosystems ; Vol.1 : Novel drug carriers
Presents a full picture of the state-of-the-art research and development in drug delivery systems using nanotechnology and its applications. It addresses the ever-expanding application of nanotechnology or nano-sized materials in the medical field and the real-world challenges and complexities of current drug delivery methodologies and techniques.
Drug delivery : An integrated clinical and engineering approach
Offers a much needed comprehensive overview and patient-oriented approach for enhanced drug delivery optimization and advancement. Starting with an introduction to the subject and pharmacokinetics, it explores advances for such topics as oral, gastroretentive, intravitreal, and intrathecal drug delivery, as well as insulin delivery, gene delivery, and biomaterials-based delivery systems. It also describes drug delivery in cancer, cardiac, infectious diseases, airway diseases, and obstetrics and gynecology applications.
Drug Addiction : From Basic Research to Therapy
Drug Addiction: From Basic Research to Therapy provides a comprehensive overview of physiological, biochemical, genetic and behavioral pathways underlying drug addiction. Focusing on fundamental neurophysiological processes that overlap between drug addiction and other CNS disorders, this volume covers the translation of basic research into novel therapies, not only of drug addiction but a spectrum of related CNS disorders, including pain. Chapters are written by leading scientists with widely ranging expertise in synthetic and computational chemistry, molecular biology, genetics, neurosciences, drug discovery and development, drug targeting, and quantitative therapeutics, providing an unprecedented overview of a complex field of high societal signficance.
Digitization of healthcare data using blockchain
Gives a detailed description of the integration of blockchain technology for Electronic Health Records and provides the research challenges to consider in various disciplines such as supply chain, drug discovery, and data management. he aim of the book is to investigate the concepts of blockchain technology and its association with the recent development and advancements in the medical field. Moreover, it focuses on the integration of workflow strategies like NLP, and AI which could be adopted for boosting the clinical documentation and electronic healthcare records (EHR) usage by bringing down the physician EHR data entry. Also, the book covers the usage of smart contracts for securing patient records. Digitization of Healthcare Data Using Blockchain presents the practical implementations that deal with developing a web framework for building highly usable healthcare applications, a simple blockchain-powered EHR system.
Deoxynucleoside Analogs in Cancer Therapy
Emerging as an important new volume in the renowned Cancer Drug Discovery and Development™ series, Deoxynucleoside Analogs in Cancer Therapy expertly summarizes the current status of development and application of deoxynucleoside analogs. Authoritative up-to-date reviews are presented by scientists well known in their specific areas and all contributions include valuable sound advice on structure and topics. Organized into several sections, the first part covers general aspects of drug uptake and metabolism and explains how novel technology has enabled a rapid expansion of this field. The second part is concerned with a number of specific drugs including cytarabine, gemcitabine, troxacitabine, clofarabine and Ara-G. The final section covers pharmacokinetics, prodrugs, and specific applications such as radiosensitization, gene therapy, and the use of deoxynucleoside analogs as tracers
Current Drug Synthesis
Delivers an authoritative and comprehensive discussion of the medicinal chemistry of current drugs, as well as the cutting-edge science involved in their synthesis. The book demystifies the process of modern drug discovery for both industry practitioners and students, while capturing the state-of-the-art techniques used to discover some of the most impactful medicines on the market today. Covering six different disease areas – including infectious disease, cancer, cardiovascular and metabolic disease, the central nervous system, anti-inflammatory disease, and a miscellaneous section – the book explores 18 different drugs before concluding with chapters on computational drug discovery and peptide drugs.
Contemporary Accounts in Drug Discovery and Development
Drug discovery is a lengthy and complex process that typically involves identifying an unmet medical need, determining a biological target, chemical library screening to identify a lead, chemical optimization, preclinical studies and clinical trials. This process often takes many years to complete, and relies on practitioners’ knowledge of chemistry and biology, but also—and perhaps more importantly—on experience. Improving the success rate in discovery and development through a thorough knowledge of drug discovery principles and advances in technology is critical for advancement in the field.
Concepts in pharmaceutical biotechnology and drug development
Provides comprehensive coverage of the development of new pharmaceuticals and the enhancement of existing ones. It offers a comprehensive understanding of pharmaceutical biotechnology, including its underlying principles and practical applications from an industrial standpoint. While introducing the roles and applications of biotechnology in drug design and development, the book describes how developments in other fields, like genomics, proteomics, and high-throughput screening, have facilitated the discovery of novel therapeutic targets and drug development methods. It included concepts that are essential to biotechnology and apply to protein therapies. And provides a thorough overview of the ways in which biotechnology influences drug development, production, and regulation, and is a valuable resource for those seeking to enhance their understanding in this area.
Computational drug discovery and design
Provides new and updated methods and techniques for identification of drug target, binding sites prediction, high- throughput virtual screening, lead discovery and optimization, conformational sampling, prediction of pharmacokinetic properties using computer-based methodologies. Chapters also focus on the application of the latest artificial intelligence technologies for computer aided drug discovery.
Computational drug discovery : methods and application
Covers a wide range of cutting-edge computational technologies and computational chemistry methods that are transforming drug discovery. The book delves into recent advances, particularly focusing on artificial intelligence (AI) and its application for protein structure prediction, AI-enabled virtual screening, and generative modeling for compound design. Additionally, it covers key technological advancements in computing such as quantum and cloud computing that are driving innovations in drug discovery.
Clinical Pharmacology ; 12th ed.
Balancing science and practice for improved evidence-based drug therapy and good prescribing in therapeutic settings increasingly complicated by intercurrent disease and polypharmacy.



















