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Modern practical medicine requires high tech in diagnostics and therapy and in consequence in education. All disciplines use computers to handle large data bases allowing individual therapy, to interpret large data bases in form of neuronal signals, help visualization of organs during surgery. This book contains chapters on personalised therapy, advanced diagnostics in neurology, modern techniques like robotic surgery (da Vinci robots), 3D-printing and 3D-bioprinting, augmented reality applied in medical diagnostics and therapy. It is impossible without fast large scale data mining in both: clinical data interpretation as well as in hospital organization including hybrid surgery rooms and personal data flow. The book is based on a course for medical students organized in the editor's department. Every year, around 300 international undergraduate medical students take the course.
3D-Druck. --- Chirurgische Robotik. --- Krankenmanagement. --- Personalisierte Therapie. --- Simulation. --- MEDICAL / Diagnosis. --- Simulations --- Distance Medicine --- Serious Games
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Protein folding is a process by which a protein structure assumes its functional shape of conformation, and has been the subject of research since the publication of the first software tool for protein structure prediction. Protein folding in silico approaches this issue by introducing an ab initio model that attempts to simulate as far as possible the folding process as it takes place in vivo, and attempts to construct a mechanistic model on the basis of the predictions made. The opening chapters discuss the early stage intermediate and late stage intermediate models, followed by a discussion
Computer simulation. --- Models, Theoretical. --- Protein folding -- Simulation methods. --- Protein folding. --- Protein folding --- Computing Methodologies --- Biochemical Processes --- Investigative Techniques --- Biophysical Processes --- Chemical Processes --- Biophysical Phenomena --- Physical Processes --- Biochemical Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Information Science --- Physical Phenomena --- Chemical Phenomena --- Phenomena and Processes --- Models, Theoretical --- Protein Folding --- Computer Simulation --- Human Anatomy & Physiology --- Health & Biological Sciences --- Animal Biochemistry --- Simulation methods --- Proteins --- Structure --- Folding of proteins --- Proteids --- Biomolecules --- Polypeptides --- Proteomics --- Folding --- Conformation
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This volume presents a review of the latest numerical techniques used to identify ligand binding and protein complexation sites. It should be noted that there are many other theoretical studies devoted to predicting the activity of specific proteins and that useful protein data can be found in numerous databases. The aim of advanced computational techniques is to identify the active sites in specific proteins and moreover to suggest a generalized mechanism by which such protein-ligand (or protein-protein) interactions can be effected. Developing such tools is not an easy task – it requires extensive expertise in the area of molecular biology as well as a firm grasp of numerical modeling methods. Thus, it is often viewed as a prime candidate for interdisciplinary research.
Ligand binding (Biochemistry) --- Protein binding. --- Binding, Protein --- Binding, Ligand (Biochemistry) --- Polyamines. --- Protein Structure, Tertiary --- Databases, Protein --- Binding Sites --- Protein Interaction Domains and Motifs --- Data Mining --- Medicine. --- Biomedicine. --- Biomedicine general. --- Biochemistry --- Allosteric proteins --- Radioligand assay --- Dye-ligand affinity chromatography --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Health Workforce --- Biomedicine, general.
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This volume presents a review of the latest numerical techniques used to identify ligand binding and protein complexation sites. It should be noted that there are many other theoretical studies devoted to predicting the activity of specific proteins and that useful protein data can be found in numerous databases. The aim of advanced computational techniques is to identify the active sites in specific proteins and moreover to suggest a generalized mechanism by which such protein-ligand (or protein-protein) interactions can be effected. Developing such tools is not an easy task – it requires extensive expertise in the area of molecular biology as well as a firm grasp of numerical modeling methods. Thus, it is often viewed as a prime candidate for interdisciplinary research.
Human biochemistry --- Pathological biochemistry --- Human medicine --- medische biochemie --- biochemie --- biomedische wetenschappen --- moleculaire biologie
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Protein folding is a process by which a protein structure assumes its functional shape of conformation, and has been the subject of research since the publication of the first software tool for protein structure prediction. Protein folding in silico approaches this issue by introducing an ab initio model that attempts to simulate as far as possible the folding process as it takes place in vivo, and attempts to construct a mechanistic model on the basis of the predictions made. The opening chapters discuss the early stage intermediate and late stage intermediate models, followed by a discussion of structural information that affects the interpretation of the folding process. The second half of the book covers a variety of topics including ligand binding site recognition, the "fuzzy oil drop" model and its use in simulation of the polypeptide chain, and misfolded proteins. The book ends with an overview of a number of other ab initio methods for protein structure predictions and some concluding remarks. Discusses a range of ab initio models for protein structure predictionIntroduces a unique model based on experimental observationsDescribes various methods for the quantitative assessment of the presented models from the viewpoint of information theory.
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This book describes application fields of high tech in diagnostics and therapy allowing individual therapy, interpretation of large data bases in form of neuronal signals, help visualization of organs during surgery, robotic surgery, 3D-printing and 3D-bioprinting, augmented reality. It also covers hospital organization including hybrid surgery rooms and personal data flow.
Medicine: general issues --- Pre-clinical medicine: basic sciences --- Clinical & internal medicine --- Simulations --- Serious Games --- Distance Medicine
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This book describes application fields of high tech in diagnostics and therapy allowing individual therapy, interpretation of large data bases in form of neuronal signals, help visualization of organs during surgery, robotic surgery, 3D-printing and 3D-bioprinting, augmented reality. It also covers hospital organization including hybrid surgery rooms and personal data flow.
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The manual presents the guide-like introduction to statistical techniques particulary oriented on medicine. The exercises present in the book make possible the self-education based on the international program SAS. I strongly support the distribution of this book among all medical libraries as well as all libraries of the natural science institutions.
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