Skip to main content
Elsevier
View Cart

Books in Life sciences

  • Advances in Parasitology

    • 1st Edition
    • Volume 134
    • English

  • AI and Precision Oncology

    Innovations in Diagnosis and Drug Development
    • 1st Edition
    • Arun Kumar Singh + 2 more
    • English
    AI and Precision Oncology: Innovations in Diagnosis and Drug Development examines the transformative role of artificial intelligence and machine learning in oncology. This book addresses the urgent need for early cancer diagnosis and effective therapeutic treatments, highlighting how technological advancements enable rapid analysis of large datasets to enhance patient outcomes. The content explores clinical applications of next-generation sequencing (NGS) integrated with AI technologies, covering risk prediction, disease detection, biomarker identification, and therapeutic target discovery. It emphasizes the importance of bioinformatics tools in analyzing NGS data and showcases AI-powered applications that improve cancer diagnosis and prognostication. For the academic audience, this book provides valuable insights into the latest advancements in AI and precision oncology. It equips researchers and clinicians with knowledge on personalized treatment strategies and recent clinical studies, ultimately enhancing understanding of how AI can revolutionize cancer care and improve patient management.

  • Advanced Ultrasound with Imaging Correlations of Diffuse Liver Diseases

    • 1st Edition
    • Riccardo De Robertis
    • English
    Advanced Ultrasound with Imaging Correlations of Diffuse Liver Diseases is an essential guide addressing the critical need for detailed comparisons between advanced ultrasound (US) techniques and CT/MRI findings in the evaluation of liver diseases. While many books on liver US exist, few provide the in-depth analysis and practical guidelines necessary for accurate diagnosis and effective treatment planning. This book fills that gap, offering a multiparametric approach to the assessment of fibrotic and steatotic liver diseases, ensuring clinicians and researchers have the most current and thorough information at their disposal. Inside, readers will find essential topics such as the indications for liver US in diffuse liver diseases, advanced US techniques for assessing liver fibrosis and steatosis, and the correlation between US, CT, and MRI findings. Key chapters cover the basics of liver ultrasound, conventional Doppler and microvascular flow imaging, ultrasound elastography, and the quantification of liver steatosis. Additionally, the book explores cutting-edge topics like artificial intelligence in liver ultrasound and the application of US in pediatric patients. Contributions from leading experts in the field ensure that each chapter provides valuable insights and practical advice. Advanced Ultrasound with Imaging Correlations of Diffuse Liver Diseases is an indispensable resource for scientists, researchers, and clinicians alike. It offers clear guidelines on performing liver ultrasounds, understanding and interpreting results, and making informed comparisons with CT and MRI findings. By integrating advanced imaging techniques and providing comprehensive correlations, this book enhances diagnostic accuracy and supports the development of effective treatment strategies for diffuse liver diseases, making it a vital addition to your medical library.

  • The Kidney

    • 1st Edition
    • Ahmed El-Hashash + 2 more
    • English
    The Kidney, Volume 7 in the Stem Cell Innovation in Health and Disease series explores the emerging potential of stem cell therapies in treating kidney diseases. With their natural regenerative and anti-inflammatory properties, stem cells offer a promising approach to restoring essential kidney functions and mitigating damage. This volume highlights how stem cell therapies may modulate immune responses, promote tissue repair, and replace damaged kidney cells, offering hope for chronic and acute renal conditions. Key developments include the injection of mesenchymal stem cells (MSCs) into damaged kidneys, where they can differentiate into kidney cell types and aid in healing. Urine-derived stem cells have also shown significant potential in improving kidney function in preclinical studies. Additionally, innovative techniques like incorporating MSCs into compact dialysis machines are being explored, enabling delivery of pro-repair factors directly to the kidneys during blood filtration. While there are currently no FDA-approved stem cell treatments for kidney diseases, ongoing clinical trials aim to evaluate their safety and efficacy. This volume compiles cutting-edge research, discussing various cell sources, underlying mechanisms, observed therapeutic outcomes, and the practical challenges of clinical translation. By presenting a clear picture of current advances and future directions, The Kidney serves as a vital resource for scientists, clinicians, and health innovators seeking to harness stem cell technology in nephrology.

  • Modern Bioinformatics

    From Molecular Insights to Biomedical Innovation
    • 1st Edition
    • Kolla Bhanu Prakash + 2 more
    • English
    Modern Bioinformatics from Molecular Insights to Biomedical Innovation explores the rapidly advancing field of bioinformatics, addressing a critical gap in current literature by integrating quantum biology and quantum biosensors with computational bioinformatics. As quantum computing and nanotechnology revolutionize biomedical research, this book emerges as an essential resource for researchers navigating these interdisciplinary domains. It caters to the growing need for comprehensive material that bridges molecular biology, computational methods, and cutting-edge innovations, empowering scientists to harness the full potential of bioinformatics in understanding complex biological systems and developing novel diagnostic and therapeutic strategies. Organized into eight thematic sections, the book offers a thorough exploration of bioinformatics from foundational concepts to translational applications. It begins with molecular structures of proteins, DNA, and RNA, advancing through nano-molecular visualization and structural domain analysis. Readers gain insights into deep learning techniques like AlphaFold for protein structure prediction, AI applications in genomics, and molecular interactions critical to function. The text further covers computational methods in drug discovery, forensic bioinformatics, and molecular evolution. A unique emphasis is placed on the convergence of nanotechnology and quantum innovations in molecular diagnostics and biosensing, including quantum biosensors and quantum computing applications. The final sections focus on computational strategies for drug target identification, biomarker discovery, and clinical trial analysis, providing a holistic view of modern bioinformatics workflows. This book is an indispensable reference for advanced researchers, graduate students, and professionals in bioinformatics, molecular biology, and biomedical engineering seeking to integrate quantum computing and nanotechnology into their work.

  • International Review of Neurobiology

    • 1st Edition
    • Volume 190
    • English

  • The Matrix Metalloproteinases

    • 1st Edition
    • Volume 60
    • English

  • Ion Channels in Cellular Pathophysiology Part B

    • 1st Edition
    • Volume 98
    • English
    This volume reviews the role of ion channel dysfunction as a primary mechanism in disease processes.

  • Biopolymers for 3D Tissue Engineering

    Processing and Applications
    • 1st Edition
    • Narendra Reddy + 1 more
    • English
    Biopolymers for 3D Tissue Engineering: Processing and Applications explores the critical role of biopolymers in advancing tissue engineering and 3D cell culture—key technologies in drug discovery, personalized medicine, and disease treatment. Scaffolds form the foundation of these applications, yet current options—primarily synthetic polymers like polypropylene, polyethylene, or polystyrene, and some natural materials such as collagen and silk fibroin—are often expensive and lack optimal properties such as biocompatibility, biodegradability, and mechanical stability. This book addresses the global effort to develop next-generation scaffolds that overcome these limitations. Biopolymers offer a compelling solution, with inherent biodegradability, biocompatibility, and sustainability. They are abundant, cost-effective, and derived from renewable sources, making them ideal for medical applications. However, their processing poses significant challenges, as many biopolymers resist dissolution in common solvents and lack thermoplastic behavior. This book provides a comprehensive overview of the structure, properties, and processability of biopolymers, with a focus on innovative techniques for converting them into functional scaffolds suitable for 3D cell culture. Unlike existing literature that emphasizes biomaterial properties or applications, this is the first book to focus exclusively on biopolymers for tissue engineering. It covers carbohydrates, proteins, and synthetic biopolymers in a single, authoritative source, making it invaluable for students, researchers, professionals, and industry stakeholders. By bridging the gap between material science and biomedical application, Biopolymers for 3D Tissue Engineering offers both a scientific foundation and practical insights to accelerate the development of sustainable, high-performance scaffolds for next-generation healthcare solutions.

  • Emergent Nanotherapeutics in Diabetic Complications

    • 1st Edition
    • Awanish Kumar + 1 more
    • English
    Emergent Nanotherapeutics in Diabetic Complications explores how cutting-edge nanotechnology is transforming the treatment of diabetes-related disorders beyond glycemic control. This comprehensive volume examines targeted, multifunctional nanoplatforms designed to address the wide range of comorbidities linked to diabetes, including vascular complications, metabolic dysfunctions, and impaired wound healing. Structured in five parts, the book spans from current nanoformulation strategies to emerging innovations such as CRISPR-Cas9 delivery, AI-guided nanoparticles, and 3D/4D printed nanostructures. Bridging the gap between preclinical research and clinical application, it offers valuable guidance on stimuli-responsive systems, biocompatible materials, and regulatory pathways. Emergent Nanotherapeutics in Diabetic Complications is essential for medical professionals, biomedical engineers, and pharmaceutical scientists seeking scalable, next-generation solutions for managing diabetic complications through nanomedicine.

Related subjects