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This textbook discusses the new relationship between artificial, synthetic material and living matter, and presents defined examples of approaches aiming for the creation of artificial cells.
Nanomedicine biotechnology is applied to and used to study drug development, working mechanisms, diagnosis, and therapies. This textbook particularly written for biomedical applications of nanomedicine covers the whole range of disease treatments related to nanomedicine. This book serves the purpose of highlighting the current advancements of nanomedicines-based regimens which may be employed in disease treatment while it also contains the fundamental knowledge for biomedical researchers from all levels. Each chapter starts with an introduction/theory into the specified approaches for various disease states followed by detailed discussions for a comprehensive understanding. This book best suits advanced level students, but also provides an excellent updated material for researchers and healthcare workers related to nanomedicine and diseases treatment.
This textbook shall introduce the students to 3D cell culture approaches and applications. An overview on existing techniques and equipment is provided and insight into various aspects and challenges that researchers need to consider and face during culture of 3D cells is given.The reader will learn the importance of physiological cell, tissue and organ models and gains important knowledge on 3D analytics.This textbook deepens selected aspects of the textbook ¿Cell Culture Technology¿, which also is published in this series, while offering extended insight into 3D cell culture. The concept of the textbook encompasses various lectures ranging from basics in cell cultivation, tissue engineering, biomaterials and biocompatibility, in vitro test systems and regenerative medicine. The textbook addresses Master- and PhD students interested and/or working in the field of modern cell culture applications and will support the understanding of theessential strategies in 3D cell culture and waken awareness for the potentials and challenges of this application.
This textbook describes the basic principles and mechanism of action of biosensor systems, and introduces readers to the various types of biosensors;
This open access textbook aims at providing detailed explanations on how to design and construct image analysis workflows to successfully conduct bioimage analysis.
This textbook introduces readers in an accessible and engaging way to the nuts and bolts of protein expression and engineering.
This textbook provides step-by-step protocols and detailed explanations for RNA Sequencing, ChIP-Sequencing and Epigenetic Sequencing applications.
Pharmacological biotechnology is applied to and used to study drug development, working mechanisms, diagnosis, and therapies. It also contains basic laboratory safety guidelines along with the basic calculations and formulas used in a laboratory.
This well-structured textbook offers essential knowledge on the vascular system. The reader will learn the properties, basic cellular mechanisms and development of the different parts of the vascular system (including the heart), gain knowledge on vascular and related diseases, and will be made familiar with common and most current methods and techniques applied to analyze the vascular system in patients, in animal models, and ex vivo. This book is based on a PhD Course for students from various bioscientific backgrounds given at the Medical University of Vienna, and it will be a valuable resource for Master¿s Students in vascular biology and biomedicine in general and a helpful tool for young researchers world-wide wishing to gain or refresh their knowledge in this field.
This textbook takes you on a journey to the basic concepts of cancer biology. It combines developmental, evolutionary and cell biology perspectives, to then wrap-up with an integrated clinical approach. The book starts with an introductory chapter, looking at cancer in a nut shell.
The textbook is based on the lectures of the course "Synthetic Biology" for Master's students in biology and biotechnology at the Harbin Institute of Technology. The goal of the textbook is to explain how to make mathematical models of synthetic gene circuits that will, later on, drive the circuit implementation in the lab.
This book covers the fundamentals of tissue engineering for the heart, starting with the basics of organ generation, sensors in tissue and organ fabrication, and the current state-of-the-art in stem cell engineering for the heart.
The book covers a diverse aspects of this interdisciplinary field, including immunology, molecular biology and regenerative medicine, as well as tissue engineering and strategies that combine biomaterials, cells and growth-stimulating factors to trigger tissue development and regeneration.
This textbook provides a structured, easy to understand and thorough insight into the mode of function of plant secondary metabolites in plants and humans. This textbook is written for master students and scientist in biochemistry and biology as well as for pharmaceutical and medical students.
Given its scope, the book is an invaluable aid for laboratory researchers studying environmental biotechnology, and a rich source of information and advice for advanced undergraduates and graduates in the fields of environmental science and biotechnology.
Tissue engineering and regenerative medicine is a new, interdisciplinary branch of science that combines knowledge from numerous scientific fields including biology, biochemistry, physics, chemistry, applied engineering, and medicine.
This textbook presents solid tools for in silico engineering biology, offering students a step-by-step guide to mastering the smart design of metabolic pathways.
This textbook introduces readers to the scientific basics of cardiovascular medicine and biology. It covers not only developmental but also cellular and molecular aspects of normally functioning vasculature and the heart; importantly, it also addresses the mechanisms leading to and involved in specific cardiovascular diseases. Though the main emphasis is on novel therapies and potential therapeutic targets, specific controversial topics like cardiac remodeling and regenerative capacities are also addressed.All chapters were written by lecturers from the Imperial College London, in collaboration with their students from the CollegeΓÇÖs BSc Programme in Medical Sciences with Cardiovascular Science. Bridging the gap between clinics and basic biology, the book offers a valuable guide for medical students, and for Master and PhD students in Cardiovascular Biomedicine.
This textbook teaches the principles and applications of fermentation technology, bioreactors, bioprocess variables and their measurement, key product separation and purification techniques as well as bioprocess economics in an easy to understand way.
1. Hematopoietic stem cells2. Mesenchymal stem cells 3. Cord blood stem cells 4. Induced pluripotent stem cells 5. Epigenetic regulation in somatic cell reprogramming 6. MET in reprogramming 7. Extracellular vesicles 8. Neural stem cells 9. Neural stem cell niche10. Human pluripotent stem cells and neural regeneration 11. Organoids 12. Ethical aspects of human stem cell research
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