Bentham Science Publishers

Stem cell and regenerative medicine research is a hot area of research which promises to change the face of medicine as it will be practiced in the years to come. Challenges in the 21st century to combat diseases such as cancer, Alzheimer and related diseases may well be addressed employing stem cell therapies and tissue regeneration. Frontiers in Stem Cell and Regenerative Medicine Research is essential reading for researchers seeking updates in stem cell therapeutics and regenerative medicine.

The seventh volume of this series features reviews on roles of mesenchymal stem cells and biomaterials in cartilage regeneration in vivo, liver regeneration, cardiogenesis and magnetic nanoparticles for regenerative therapy.

Stem cell and regenerative medicine research is an important area of clinical research which promises to change the face of medicine as it will be practiced in the years to come. Challenges in the 21st century to combat diseases such as cancer, Alzheimer's disease and retinal disorders, among others, may well be addressed employing stem cell therapies and tissue regeneration techniques. Frontiers in Stem Cell and Regenerative Medicine Research is essential reading for researchers seeking updates in stem cell therapeutics and regenerative medicine.

This volume includes current literature on a variety of topics:

-the utility of exogenous and endogenous neural stem cells in spinal cord injury

-somatic cells for human induced pluripotent stem cells (iPSCs)

-reactive oxygen species (ROS) mediated cellular signaling for stem cell differentiation

-the therapeutic potential of microRNAs in cardiac diseases

-stem cell therapy for the treatment of malaria

Functional Bio-based Materials for Regenerative Medicine: From Bench to Bedside explores the use of bio-based materials for the regeneration of tissues and organs. The book presents an edited collection of 28 topics in 2 parts focused on the translation of these materials from laboratory research (the bench) to practical applications in clinical settings (the bedside). Chapter authors highlight the significance of bio-based materials, such as hydrogels, scaffolds, and nanoparticles, in promoting tissue regeneration and wound healing.

Topics included in the book include:

- the properties of bio-based materials, including biocompatibility, biodegradability, and the ability to mimic the native extracellular matrix.

- fabrication techniques and approaches for functional bio-based material design with desired characteristics like mechanical strength and porosity to promote cellular attachment, proliferation, and differentiation

- the incorporation of bioactive molecules, such as growth factors, into bio-based materials to enhance their regenerative potential.

- strategies for the controlled release of molecules to create a favorable microenvironment for tissue regeneration.

- the challenges and considerations involved in scaling up the production of bio-based materials, ensuring their safety and efficacy, and obtaining regulatory approval for clinical use

Part 2 covers advanced materials and techniques used in tissue engineering. Topics focus on advanced composite materials for 3D scaffolds and the repair of tissues in different organs such as the heart, cornea, bone and ligaments. Materials highlighted in this part include polyamide composites, electrospun nanofibers, and different bio-based hydrogels.

Functional Bio-based Materials for Regenerative Medicine: From Bench to Bedside is a valuable reference for researchers in biomedical engineering, cell biology, and regenerative medicine who want to update their knowledge on current developments in the synthesis and application of functional biomaterials.

The comprehensive information about the inverse relationship between the incidence of cancer and the consumption of natural food has impacted our understanding of the biochemical mechanisms behind cancer and its treatment. Functional Foods for Health Maintenance: Understanding their Role in Cancer Prevention is a review of pre-clinical studies unraveling the chemotherapeutic potential of phytochemicals and other food sources. The editors attempt to summarize the evidence, methods and techniques for identifying specific nutraceuticals and foods capable of interfering and reducing the risk of cancer.

The book compiles 19 edited chapters that cover the chemopreventive effects of different phytochemicals, animal and stem cell models for cancer prevention, and novel nanotechnology-based nutraceuticals. The contributors have also highlighted the techniques employed for the detection of cancer with a review on cancer biomarkers. The book is a resource for post-graduate students and researchers working in the field of nutrition, molecular biology, chemoprevention, biochemistry and pharmaceutical sciences.

The eBook discusses how the special physiology of the liver must be considered when applying functional molecular imaging in hepatology. The main topics of the eBook include the clinical and scientific use and possibilities of functional molecular imaging for investigations of hepatic blood perfusion, substrate metabolism, and biliary secretion as well as for cancer diagnostics (primary and secondary liver cancers). Functional imaging of changes in cerebral blood perfusion and metabolism in patients with liver diseases is also covered. The eBook is written by internationally renowned experts and is intended for everyone who is interested in hepatology or functional molecular imaging.

Catalysis is an area of chemical sciences which has fascinated a wide range of academicians, researchers, chemical technologists and industries throughout the world. Progress in this field has been made owing to the thrust provided by this research and commercial interest. The field of catalysis is interdisciplinary by its nature, as it requires knowledge of organic synthesis, coordination and organometallic chemistry, reaction kinetics and mechanisms, stereochemical concepts and materials science.

Fundamentals and Prospects of Catalysis highlights many important topics and sub-disciplines in catalysis by presenting 7 chapters on different but varied catalytic processes. This volume presents the following topics:

Organocatalytic Asymmetric Synthesis of Spiroacetals and Bridged Acetals

Design and Development of Bimetallic Enantioselective Salen Co Catalysts for The Hydrolytic Kinetic Resolution of Terminal Epoxides

Recent Trend in Asymmetric Heterogeneous Flow Catalysis

Ball Milling: A Green Tool in Synthetic Organic Chemistry

Recent Advances in the Developments of Enantioselective Electrophilic Fluorination Reactions via Organocatalysis

Green and Sustainable Biocatalytic Routes to Prepare Biobased Polyols as Precursors for Polyurethanes with Comparison of Existing Biobased Polyol Technology

Polymers Used as Catalysts

Catalysis: Current and Future Developments is a book series that covers theoretical, experimental and applied research on catalysis and their role in enhancing the rate of chemical reactions. The scope of topics covered by volumes in the series include heterogeneous catalysis, homogeneous catalysis, bio-catalysis, aspects of catalyst preparation, activation, aging, deactivation, rejuvenation, adsorption, synthesis and catalytic functions of new catalysts (which include novel inorganic solids and metal complexes). The series also presents reviews on surface chemistry, and commercially important model catalysts and catalytic processes.

Fundamentals of Cellular and Molecular Biology is a comprehensive textbook designed to explain the molecular mechanisms that underpin the functions and structures within living organisms. This resource focuses on improving the reader's understanding and exploration of the cellular and molecular basis of life, emphasizing the latest research findings and technological advancements. The book is structured into 18 chapters that systematically cover topics ranging from the basic structural components of cells to the complex processes of gene expression, protein synthesis, and cell signaling. It offers a detailed examination of DNA replication, repair mechanisms, and the molecular basis of genetic diseases. Additionally, the book explains the application of molecular biology in biotechnology, medicine, and environmental science, as well as advanced topics like cloning, gene therapy, and molecular diagnostics.

Key features:

- Clear explanations of complex concepts, bridging basic biology concepts with applied scientific fields

- Uses real-world examples to illustrate scientific principles

- Includes information on the latest research and technological breakthroughs.

- Glossaries and references for each chapter

- Facilitates learning with diagrams, flowcharts, and tables that summarize critical information, making complex subjects accessible.

Fundamentals of Cellular and Molecular Biology is an essential resource for students in life science courses such as biology, biochemistry, biotechnology, and medicine.

Educational technology refers to the preparation and use of electronic resources, computer applications, and audio-visual aids which are used in the teaching and learning process. For administrators, the term also includes the planning, organization validation, evaluation, and implementation of all kinds of educational programs. Educational technology is now important for the selection of appropriate teaching media as well as the development, and application of curricula. Fundamentals of Educational Technology work explains the basic facts about educational technology to inform teachers and students. The book includes 6 chapters which cover the subject in a simple manner suitable for learners in education programs. Key Features: - 6 organized chapters on the basics of educational technology and media - Simple reader-friendly organization of contents with relevant diagrams - Gives a historical perspective of the field - Gives an overview of digital and electronic tools for educators - Includes information about relevant teaching methods - Gives an overview of the role of electronic and digital media in education - Includes a section on the ethical use of educational technology Fundamentals of Educational Technology serves as a basic guide for educational instructors and administrators on educational technology and its role in teaching and designing educational programs at all levels.

Fundamentals of Mathematics in Medical Research: Theory and Cases is a comprehensive guide to the mathematical principles and methods used in medical research. This book is structured to facilitate learning and application and gives a solid foundation to readers. The book is divided into multiple parts that explain basic concepts in a progressive way.

- Part I covers real-valued functions of one or more variables with geometric representations to establish a core understanding of advanced mathematics

- Part II covers inferential methods of probability and statistics from basic probability to parametric and nonparametric tests

- Part III covers correlation theory and advanced analysis of real-valued functions

- Part IV covers multivariable analysis for solving complex problems with an explanation of Markov Chain models

- An Appendix provides solutions for all exercises and along with Fortran 90 programs, Python scripts and Linux scripts to explore the mathematical concepts explained in the book.

Key Features:

Introduction and Conclusion in Every Chapter

Exercises and Solutions

Program codes and scripts

Comprehensive Coverage of Mathematics for Academics and Research

Real-World Cases

This book is an essential resource for researchers, students, and professionals in medicine and allied fields who seek to understand and apply mathematical methods in their work.