Medicinsk forskning

This volume explores the latest collection of cell models that are used in preclinical cancer research, and covers both two-dimensional and three-dimensional culturing techniques. The chapters in this book are divided into two parts. Part One discusses two-dimensional cancer cell culture, cell models at the Air-Liquid Interface, and the latest advancements in three-dimensional complex spheroid models and dedicated disease animal models. Part Two contains technical chapters that illustrate step-by-step methodologies for specific cancer cell culture methods. The methods discussed range from the generation of isogenic cancer cell lines, the use of serum-free growth conditions, and three-dimensional cell cultures and their specific assays for the efficacy assessment of new anticancer therapies. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Cutting-edge and comprehensive, Cancer Cell Culture: Methods and Protocols is a valuable tool to help researchers involved in this important field to further improve or advance their models for cancer research.

This textbook is an excellent guide to microscopy for students and scientists, who use microscopy as one of their primary research and analysis tool in the laboratory. The book covers key microscopy principles and explains the various techniques such as epifluorescence microscopy, confocal/live cell imaging, SIM/light sheet microscopy, and many more. Easy-to-understand protocols provide helpful guidance for practical implementation in various commercially available imaging systems. The reader is introduced to histology and further be guided through advanced image acquisition, classification and analysis.The book is written by experienced imaging specialists from the UK, other EU countries, the US and Asia, and is based on advanced training courses for master students and PhD students. Readers are not expected to be familiar with imaging and microscopy technologies, but are introduced to the subject step by step. This textbook is indented for biomedical and medical students, as well as scientists and postdocs who want to acquire a thorough knowledge of microscopy, or gain a comprehensive overview of modern microscopy techniques used in various research laboratories and imaging facilities.Chapter 4 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

This book is an attempt to unveil the hidden potential of the enormous amount of health information and technology. This book is written with the intent to uncover the stakes and possibilities involved in realizing personalized health-care services through efficient and effective deep learning algorithms.

This book covers all the technical aspects of flow cytometry needed to set-up the instrument, solve problems encountered in daily work, or necessary for exam preparation. It provides the reader with an in-depth look at the device and its applications.Each component and its function is described in an easy-to-understand manner, giving the reader a sound basic knowledge of this instrument. The practical examples given, simplify and enhance the learning process.This book is a unique resource of knowledge for biomedical engineers and biotechnologists, flow cytometry operators, laboratory technicians and biomedical researchers, both biologists as well as medical doctors, and can also be a helpful tool for companies and manufacturers.

This volume focuses on the computational modeling of cell signaling networks and the application of these models and model-based analysis to systems and personalized medicine. Chapters guide readers through various modeling approaches for signaling networks, new methods and techniques that facilitate model development and analysis, and new applications of signaling network modeling towards systems and personalized treatment of cancer. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and methods, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Computational Modeling of Signaling Networks aims to benefit a wide spectrum of readers including researchers from the biological as well as computational systems biology communities.

God astmakontrol giver bedre livskvalitetDenne bog er skrevet til alle, der lever med astma, og som ønsker at forstå denne hyppige, men alligevel underkendte folkesygdom, der påvirker så mange danskeres hverdag. Mere end én ud af 10 oplever i deres liv symptomer på astma, og 20-30 % af alle astmapatienter i Danmark har tegn til utilstrækkelig sygdomskontrol – det kan med patientuddannelse ændre sig til det bedre!HVAD ER ASTMA? behandler i 17 selvstændige kapitler bl.a.:– Sygdomsmekanismen i lungerne ved astma– Årsager, hyppighed og risikofaktorer– Samfundsmæssige konsekvenser– Symptomer, målinger og tests– Behandling af astma– Svær astma og akut astma– Astmasygdommens forløb– Hvordan man bliver sin egen astmaekspert– At være pårørende– Forskning og patientmiljøerBogen er opslagsvenlig og let formidlet, så man – uanset om man er ramt, påvirket eller fagperson – nemt kan finde svar på specifikke spørgsmål. Den kan ligeledes læses i sin helhed for en grundig indføring i sygdommen.

This book provides a broad overview of rare disease drug development. It offers unique insights from various perspectives, including third-party capital providers, caregivers, patient advocacy groups, drug development professionals, marketing and commercial experts, and patients. A unique reference, the book begins with narratives on the many challenges faced by rare disease patient and their caregivers. Subsequent chapters underscore the critical, multidimensional role of patient advocacy groups and the novel approaches to related clinical trials, investment decisions, and the optimization of rare disease registries. The book addresses various rare disease drug development processes by disciplines such as oncology, hematology, pediatrics, and gene therapy. Chapters then address the operational aspects of drug development, including approval processes, development accelerations, and market access strategies. The book concludes with reflections on the authors' case for real-world data and evidence generation in orphan medicinal drug development. Rare Disease Drug Development is an expertly written text optimized for biopharmaceutical R&D experts, commercial experts, third-party capital providers, patient advocacy groups, patients, and caregivers.

Poisonous plants are used in traditional medicine systems in various healing therapies. They are a rich resource of ingredients used in herbal drug formulations that are also used in the development of synthetic drugs. They are recognized for their antioxidant, anti-inflammation, anti-cancer, and anti-diabetic activities and for many other health benefits. Exploring Poisonous Plants: Medicinal Values, Toxicity Responses, and Therapeutic Uses provides an analysis of the most important poisonous herbs, shrubs, and trees, detailing poisonous plants while demonstrating endorsements for their potential therapeutic values.Features:Presents therapeutic potentials on various poisonous herbs, shrubs, and trees.Provides descriptions of notable toxic compounds and discusses their adverse effects when consumed by animals or people.Gives practical guidance for botanical description, distribution, phytochemical constituents, pharmacological studies, and traditional and other potential uses of selected poisonous plants.This volume in the Exploring Medicinal Plants series is appropriate for scientists, researchers, and students working with poisonous plants, as well as in areas of economic botany, plant biochemistry, biotechnology, pharmacognosy, pharmaceuticals, industrial chemistry, and nanomedicine.

An in-depth look at the pharmacological applications of 11 antidiabetic plants, examining antihyperglycemic, hypoglycemic, anti-lipidemic properties, and current genome editing research perspectives. Each chapter reviews a particular plant, explaining the therapeutic aspects and genome editing technology.

This book provides a meticulous view on methodological drug discovery and development insights from bench to bedside. The current book threads almost each step encompassing drug the discovery and development of a molecule. The chapters focus on computational modus operandi, pharmacological optimization approaches, modern high-throughput screening methods and in-vitro procedures, role of structural biologists in drug discovery and development, medicinal chemistry approaches for drug design, formulation and drug delivery, in-vivo evaluations of candidate molecules, clinical trial procedures and others. The book also covers specific case studies, regulatory approval proceedings, and industrial view point alongside the aforementioned conceptual layout. And at the same time, the volume integrates medical, biological, medicinal, pharmacological and computational streams, and it is suggested as an ideal guideline to a wide audience including molecular biologists, biochemist, pharmacologists, medicinal chemist, toxicologists, drug discovery and development researchers, and all other students interested in these disciplines.

This book brings together the voices of leading experts in the frontiers of biostatistics, biomedicine, and the health sciences to discuss the statistical procedures, useful methods, and novel applications in biostatistics research. It also includes discussions of potential future directions of biomedicine and new statistical developments for health research, with the intent of stimulating research and fostering the interactions of scholars across health research related disciplines. Topics covered include: Health data analysis and applications to EHR data Clinical trials, FDR, and applications in health science Big network analytics and its applications in GWAS Survival analysis and functional data analysis Graphical modelling in genomic studiesThe book will be valuable to data scientists and statisticians who are working in biomedicine and health, other practitioners in the health sciences, and graduate students and researchers in biostatistics and health.

The book Heat Shock Proteins in Inflammatory Diseases provides the most comprehensive highlight and insight of the expression, function and therapeutic activity of Heat Shock Proteins in inflammatory diseases including sepsis, psoriasis, neurodegenerative diseases, cancers, viral infection and autoimmune rheumatic diseases. Using an integrative approach, the contributors provide a synopsis of the most current updates on the state of HSP in inflammatory diseases.Key basic and clinical research laboratories from major universities, academic medical hospitals, biotechnology and pharmaceutical laboratories around the world have contributed chapters that review present research activity and importantly project the field into the future. The book is a must read for graduate students. medical students, basic science researchers and postdoctoral scholars in the fields of Cancer Biology, Oncology, Translational Medicine, Clinical Research, Biotechnology, Cell & Molecular Medicine, Pharmaceutical Scientists and Researchers involved in Drug Discovery.

This book is intended to serve as an authoritative reference source for a broad audience involved in the research, teaching, learning, and practice of nanotechnology in immunotherapy. The combination of nanotechnology and immunotherapy is recognized as a promising treatment modality. In particular, the use of nanoparticles in immunotherapy has attracted increased attention for their unique efficacy and specificity in cancer treatment. A wide variety of nanoparticles, such as polymeric and liposomal nanosystems, carbon nanotubes, and gold nanoparticles have provided important nanoplatforms for immunotherapeutic approaches. They have been shown to improve delivery and efficacy of immunotherapeutic agents such as vaccines or adjuvants.Nanoparticle-mediated thermal therapy has demonstrated the effectiveness for precise tumor cell ablation, radio-sensitization of hypoxic regions, enhancement of drug delivery, activation of thermosensitive agents, and enhancement of the immune system. Plasmonic nanoparticles are a special type of metallic nanoparticles that has received great interest due to their enhanced optical and electromagnetic properties and their superior capacity to convert photon energy into heat for selective photothermal therapy at the nanoscale level. Nanoparticle sizes can also be controlled such that they accumulate preferentially in tumors due to the enhanced permeability and retention effect of tumor vasculature. Various nanosystems such as gold nanoparticles have also been shown to stimulate the immune system.Immunotherapies could thus synergistically benefit from the combination with targeted nanoparticle-mediated photothermal therapies, especially when hyperthermia around immune-checkpoint inhibitors in the tumor bed is combined with precise thermal ablation of cancer cells. Of great importance is the possibility that such an approach can induce long-term immunological memory that can provide protection against tumor recurrence long after treatment of the initial tumors, like an 'anticancer vaccine'. Nanoparticle-mediated immunotherapy could lead to an entirely new treatment paradigm that challenges traditional surgical resection approaches for many cancers and metastases.