Software and Programming Tools in Pharmaceutical Research is a detailed primer on the use for computer programs in the design and development of new drugs. Chapters offer information about different programs and computational techniques in pharmacology. The book will help readers to harness computer technologies in pharmaceutical investigations. Readers will also appreciate the pivotal role that software applications and programming tools play in revolutionizing the pharmaceutical industry. The book includes nine structured chapters, each addressing a critical aspect of pharmaceutical research and software utilization. From an introduction to pharmaceutical informatics and computational chemistry to advanced topics like molecular modeling, data mining, and high-throughput screening, this book covers a wide range of topics. Key Features: - Practical Insights: Presents practical knowledge on how to effectively utilize software tools in pharmaceutical research. - Interdisciplinary Approach: Bridges the gap between pharmaceutical science and computer science - Cutting-Edge Topics: Covers the latest advancements in computational drug development, including data analysis and visualization techniques, drug repurposing, pharmacokinetic modelling and screening. - Recommendations for Tools: Includes informative tables for software tools - Referenced content: Includes scientific references for advanced readers The book is an ideal primer for students and educators in pharmaceutical science and computational biology, providing a comprehensive foundation for this rapidly evolving field. It is also an essential resource for pharmaceutical researchers, scientists, and professionals looking to enhance their understanding of software tools and programming in drug development.

Unlock success in pharmaceutical exams with Objective Pharmaceutics: A Comprehensive Compilation of Questions and Answers for Pharmaceutics Exam Prep. This guide is meticulously crafted to tackle the challenges of pharmaceutics exams through a diverse range of questions. It covers multiple choice questions, concise one-liners, and true/false statements, mirroring the formats commonly found in drug inspector, pharmacist, GPAT, nursing exams, and more. Key Features: Exam-Ready Questions: Prepare for a variety of medical exams with more than 2000 carefully curated questions. Diverse Testing Formats: Master multiple choice, one-liner, and true/false questions for a well-rounded exam readiness. Broad Assessment: Tailored for drug inspectors, pharmacists, GPAT aspirants, and other medical professionals. Build Thinking Capabilities: Progress from simple to challenging questions, enhancing critical thinking skills. This thorough guide empowers you to learn the key topics in pharmaceutics and navigate the most challenging questions in your exam prep journey.

The primary objective of this 4-volume book series is to educate PharmD students on the subject of medicinal chemistry. The book set serves as a reference guide to pharmacists on aspects of the chemical basis of drug action. Medicinal Chemistry of Drugs Affecting Cardiovascular and Endocrine Systems is the third volume of the series. This volume features 8 chapters focusing on a comprehensive account of drugs affecting both the cardiovascular system and the endocrine functions. The volume informs readers about the medicinal chemistry of relevant drugs, which includes the mechanism of drug action, detailed structure-activity relationships and metabolism. Topics covered include drugs that affect the renin-angiotensin system, calcium channel blockers, diuretics, hematological agents (anticoagulants, thrombolytic and antiplatelet agents), antidiabetics, antihistamines, proton pump inhibitors and therapeutic hormones. Each chapter also offers case studies and self-assessments to facilitate discussion and learning. The book equips students with a scientific foundation to competently evaluate, recommend and counsel patients and health care professionals regarding the safe, appropriate, and cost-effective use of medications. Students and teachers will also be able to integrate the knowledge presented in the book and apply medicinal chemistry concepts to understand the pharmacodynamics and pharmacokinetics of therapeutic agents in the body. The information offered by the book chapters will give readers a strong neuropharmacology knowledge base required for a practicing pharmacist.

Nanoscale Field Effect Transistors: Emerging Applications is a comprehensive guide to understanding, simulating, and applying nanotechnology for design and development of specialized transistors. This book provides in-depth information on the modeling, simulation, characterization, and fabrication of semiconductor FET transistors. The book contents are structured into chapters that explain concepts with simple language and scientific references. The core of the book revolves around the fundamental physics that underlie the design of solid-state nanostructures and the optimization of these nanoscale devices for real-time applications. Readers will learn how to achieve superior performance in terms of reduced size and weight, enhanced subthreshold characteristics, improved switching efficiency, and minimal power consumption. Key Features: Quick summaries: Each chapter provides an introduction and summary to explain concepts in a concise manner. In-Depth Analysis: This book provides an extensive exploration of the theory and practice of nanoscale materials and devices, offering a detailed understanding of the technical aspects of Nano electronic FET transistors. Multidisciplinary Approach: It discusses various aspects of nanoscale materials and devices for applications such as quantum computation, biomedical applications, energy generation and storage, environmental protection, and more. It showcases how nanoscale FET devices are reshaping multiple industries. References: Chapters include references that encourage advanced readers to further explore key topics. Designed for a diverse audience, this book caters to students, academics and advanced readers interested in learning about Nano FET devices.

Nanoelectronics Devices: Design, Materials, and Applications provides information about the progress of nanomaterial and nanoelectronic devices and their applications in diverse fields (including semiconductor electronics, biomedical engineering, energy production and agriculture). The book is divided into two parts. The editors have included a blend of basic and advanced information with references to current research. The book is intended as an update for researchers and industry professionals in the field of electronics and nanotechnology. It can also serve as a reference book for students taking advanced courses in electronics and technology. The editors have included MCQs for evaluating the readers’ understanding of the topics covered in the book. Topics Covered in Part 2 include applications of nanoelectronics for different devices and materials. - Photonic crystal waveguide geometry - 8kW to 80kW power grids with simple energy storage systems - Two-dimensional material and based heterojunctions like MoS2 /graphene, MoS2 /CNT, and MoS2 /WS2, - 5G communication material - Wearable devices like electronic skin, intelligent wound bandages, tattoo-based electrochemical sensors - PEDOT: PSS-based EEG - New materials for medicine

Nanoelectronics Devices: Design, Materials, and Applications provides information about the progress of nanomaterial and nanoelectronic devices and their applications in diverse fields (including semiconductor electronics, biomedical engineering, energy production and agriculture). The book is divided into two parts. The editors have included a blend of basic and advanced information with references to current research. The book is intended as an update for researchers and industry professionals in the field of electronics and nanotechnology. It can also serve as a reference book for students taking advanced courses in electronics and technology. The editors have included MCQs for evaluating the readers’ understanding of the topics covered in the book. Topics covered in Part 1 include basic knowledge on nanoelectronics with examples of testing different device parameters. - The present, past, and future of nanoelectronics, - An introduction to Nanoelectronics and applicability of Moore's law - Transport of charge carrier, electrode, and measurement of device parameters - Fermi level adjustment in junction less transistor, - Non-polar devices and their simulation - The negative capacitance in MOSFET devices - Effect of electrode in the device operation - Second and Sixth group semiconductors, - FinFET principal and future, Electronics and optics integration for fast processing and data communication - Batteryless photo detectors - Solar cell fabrication and applications - Van der Waals assembled nanomaterials

Advanced Pharmacy is a textbook dedicated to advanced applications in pharmacy. The book balances information by including chapters that give basic knowledge and inform readers on the latest insights in pharmaceutical science. Authored by pharmacology experts and academics, each chapter highlights current knowledge in the field, presenting research in a didactic and educational manner for academics, researchers, and students who need to understand pharmacy. Additional features of the book include chapter summaries and references for advanced readers. Topics: Physical Pharmacy: Covers foundations of physical pharmacy, providing a solid understanding of the subject. Preformulation Studies: examines active pharmaceutical ingredient-excipent compatibility studies, a crucial aspect of drug formulation. Medicinal Chemistry Applications: explores medicinal chemistry applications using QSAR/QSPR theory. Computer-assisted Study: explains computer-assisted studies with the example of garlic organosulfur as an antioxidant agent. Enzymes in Biocatalysis: sheds light on enzyme characteristics, kinetics, production, and applications in biocatalysis. Antifungal Agents: provides insights into antifungal agents and their significance. Polysaccharides in Drug Delivery: explores the use of naturally and chemically sulfated polysaccharides in drug delivery systems. Immunomodulatory Plant Extracts: covers the evaluation of safety and benefits of immunomodulatory plant extracts. Biofilms and Persistent Cells: examines the development, causes, and consequences of biofilms and persistent cells. Analytical Methods for Drug Analysis: focuses on the development of analytical methods for analyzing drugs of abuse using experimental design. Steric Exclusion Chromatography: discusses steric exclusion chromatography, including chromatography of polymers in aqueous solutions. Intrinsic Viscosity Methods: explores intrinsic viscosity methods in natural polymer pharmaceutical excipients. Extraction Techniques in Green Analytical Chemistry: highlight environment-firendly techniques in analytical chemistry. Advanced Pharmacy is a comprehensive resource that bridges the gap between pharmaceutical research and practice, offering invaluable insights into the latest developments in the field. This textbook serves as an essential reference for both learners and scholars in basic and advanced courses in pharmacy and pharmaceutical science.

Plant-derived Hepatoprotective Drugs is a comprehensive guide that explores the world of medicinal plants and their hepatoprotective properties, offering both basic and applied insights for scholars and hepatology residents. Structured chapters provide a deep dive into the subject, while referencing relevant research and future perspectives. Readers will learn the science behind hepatotoxicity and the role of plants in safeguarding liver health. The book also helps researchers to explore bioactive compounds extracted from plants, along with herbal formulations that contribute to hepatoprotection, and conveys an understanding of the effects of edible plants and spices on liver wellness. A chapter focusing on isolation and characterization of phytochemicals bridges theory and application for discovering and developing hepatoprotective biopharmaceuticals. Key Features: Gives a thorough understanding of hepatotoxicity and related bioactive compounds Comprehensive references to enhance understanding Well-structured chapters providing organized knowledge Basic and applied information for diverse readers Future perspectives offering a glimpse into ongoing research This is an ideal reference for pharmacology scholars and residents in hepatology, as well as readers interested in nature's potential in promoting liver health.

Role of Nanotechnology in Cancer Therapy gives an overview of the innovative nanocarrier-based approaches for managing various cancers such as gastric, skin, lung, and prostate cancers. The book also explores the evolving targeting approaches specific to cancer and the immunotherapy-based nanomedicinal approach. Several drug-delivery systems which reduce the overall toxicity of cytotoxic drugs and increase their effectiveness and selectivity are also discussed in this book. Key Features - Discusses the potential benefits and therapeutic applications of nanoparticles in cancer management - Provides information about therapy in a range of cancers - Discusses recent developments in cancer nanomedicine including targeted therapy, immonotherapy nanoparticles and dual drug delivery - Includes safety and toxicity considerations - Provides references for advanced readers This book will inform a broad range of readers including undergraduate and postgraduate students, oncologists, pharmacists, and researchers involved in nanomedicine and nano-drug delivery about current advancement in cancer nanomedicine.

Synthesis and Applications of Semiconductor Nanostructures consists of 15 chapters that focus on synthesis, characterization and multifaceted potential applications of semiconductor nanostructures, metal organic frameworks (MOFs) and nanostructure impregnated metal-organic frameworks (MOFs). Special materials included in the volume include doped glasses, functionalized carbon nanotubes, doped graphene and graphene nanoribbons. The contributions highlight numerous bottom-up and top-down techniques for the synthesis of semiconductor nanostructures. Several industrial processes such as hydrogen production, wastewater treatment, carbon dioxide reduction, pollution control and oxidation of alcohols have been demonstrated in the context of semiconductor nanomaterial applications. The volume also has chapters dedicated to updates on the biomedical applications of these nanomaterials. This volume is a timely resource for postgraduate students, academicians, researchers and technocrats, who are involved in R&D activities with semiconductor nanomaterials and metal organic frameworks.