الصفحة 171
الصفحة 171
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Cells and Robots : Modeling and Control of Large-Size Agent Populations

Cells and Robots is an outcome of the multidisciplinary research extending over Biology, Robotics and Hybrid Systems Theory. It is inspired by modeling reactive behavior of the immune system cell population, where each cell is considered as an independent agent. In our modeling approach, there is no difference if the cells are naturally or artificially created agents, such as robots. This appears even more evident when we introduce a case study concerning a large-size robotic population scenario. Under this scenario, we also formulate the optimal control of maximizing the probability of robotic presence in a given region and discuss the application of the Minimum Principle for partial differential equations to this problem. Simultaneous consideration of cell and robotic populations is of mutual benefit for Biology and Robotics, as well as for the general understanding of multi-agent system dynamics.The text of this monograph is based on the PhD thesis of the first author. The work was a runner-up for the fifth edition of the Georges Giralt Award for the best European PhD thesis in Robotics, annually awarded by the European Robotics Research Network (EURON).

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Cell-Cell Channels

The biological sciences are dominated by the idea that cells are the functionally autonomous, physically separated, discrete units of life. This concept was propounded in the 19th century by discoveries of the cellular structuring of both plants and animals. Moreover, the ap­ parent autonomy of unicellular eukaryotes, as well as the cellular basis of the mammalian brain (an organ whose anatomy for a long while defied attempts to validate the idea of the cellular nature of its neurons), seemed to provide the final conclusive evidence for the completeness of *cell theory', a theory which has persisted in an almost dogmatic form up to the present day. However, it is very obvious that there are numerous observations which indicate that it is not the cells which serve as the basic units of biological life but that this property falls to some other, subcellular assemblage. To deal with this intricate problem concerning the fundamental unit of living matter, we proposed the so-called Cell Body concept which, in fact, devel­ ops an exceedingly original idea proposed by Julius Sachs at the end of the 19th century. In the case of eukaryotic cells, DNA-enriched nuclei are intimately associated with a microtubular cytoskeleton. In this configuration—as a Cell Body—these two items comprise the fundamental functional and struc­ tural unit of eukaryotic living matter. The Cell Body seems to be inherent to all cells in all organisms.

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Cell Therapy, Stem Cells and Brain Repair

As our world continues to evolve, the field of regenerative medicine f- lows suit. Although many modern day therapies focus on synthetic and na- ral medicinal treatments for brain repair, many of these treatments and prescriptions lack adequate results or only have the ability to slow the p- gression of neurological disease or injury. Cell therapy, however, remains the most compelling treatment for neurodegenerative diseases, disorders, and injuries, including Parkinson’s disease, Huntington’s disease, traumatic brain injury, and stroke, which is expanded upon in more detail in Chapter 1 by Snyder and colleagues. Cell therapy is also unique in that it is the only therapeutic strategy that strives to replace lost, damaged, or dysfunctional cells with healthy ones.

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Cell therapy stem cells and regenerative medicine

Provides an overview of cell-based therapy for human diseases including the definition, history, and clinical applications of human stem cells and their use in regenerative medicine. It covers human pluripotent stem cells (human embryonic stem cells and human induced pluripotent stem cells), mesenchymal stem/stromal cells, and hematopoietic stem cells, bone marrow mononuclear cells. In terms of clinical applications, this book also provides an update on recent human trials using these cells to treat various diseases, including neurological disorders, pulmonary dysfunctions, metabolic/endocrine-related diseases, frailty, and cancer treatment. In addition, it discusses the authors’ clinical trial experiences related to these conditions in a clinical setting to provide additional insight into regenerative medicine, especially cell-based therapy.

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Cell Technology for Cell Products ; Proceedings of the 19th ESACT Meeting, Harrogate, UK, June 5-8, 2005

The 19th ESACT meeting was to highlight the novel capabilities of the industry to move the products towards the clinic and was attended by a wide range of workers in the industry and for many it was their first ESACT meeting. The meeting was started with a session on Transcription to Secretion with a notable set of presentations on the emerging issues. The other sessions that followed Therapeutic Cell Engineering, Gene Medicine, Cells to Tissue, Protein products and Process Technology guided the delegates through the advances made for the progression of the biotechnology towards the industrial application of the products from cells. The meeting was supported by some exceptional invited speakers from around the world whose contributions complemented the emerging technologies and the changes being made at the industrial end of the ESACT spectrum.

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Cell Stress Proteins

This comprehensive volume, written by experts in the field, provides a current understanding of the molecular properties of the heat shock proteins and their roles in health and disease. Cell Stress Proteins includes advances in several aspects of stress protein research, with chapters ranging from basic studies of the role of heat shock proteins in protein folding to reviews examining the breakdown of stress protein regulation during disease. It also provides analysis of the biochemical and molecular properties of heat shock proteins which can be utilized in evaluating their role in human physiology and pathology. Cell Stress Proteins is an ideal book for researchers, clinicians, physicians, and graduate students in the fields of biochemistry, cell biology, microbiology, immunology, and genetics.

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Cell Separation : Fundamentals, Analytical and Preparative Methods

This special volume on cell separations discusses fundamental and applied aspects of the analytical and preparative cell-separation technologies. The aim is to enlighten the reader with the new developments in cell-separation technologies and at the same time provide sufficient knowledge with other existing and more commonly used techniques. The volume is comprised of contributions from subject experts from both academia and industry, focuses on the research and commercial aspects of cell-separation technology, and provides readers with broader choice. Unlike protein separation, the major challenge in cell separation has been the recovery of the cells in viable form after they are bound to the separation matrix, as cells bind more strongly through multipoint attachment. This is an important focus of the present work and one we believe will provide new insight to researchers in this field

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Cell Motility in Cancer Invasion and Metastasis

Cancer Morbidity and mortality result from invasive and metastatic spread. Currently, no therapies are aimed at the underlying mechanisms that enable this progression due to only nascent recognition of the distinct biology which occurs only during tumor dissemination. Recent advances have highlighted the central role of cell motility during the dynamic and transient process of tumor invasion and metastasis. This book includes state-of-the-art updates by international leaders in these studies. Chapters first present the novel model systems that enable new investigations and insights. Chapters then describe in depth the key processes and molecules that may be therapeutically targeted. Finally, the role of cell motility and its signals is explored in a number of key tumor types. This compilation should be useful to researchers in basic and translational oncology as well as those developing novel agents to prevent tumor invasion and metastasis.

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Cell Division Control in Plants

The molecular mechanisms controlling cell cycle progression are highly conserved in eukaryotes. In addition to the basic protein machinery involved in cell cycle regulation, higher plants have also evolved unique molecular mechanisms that allow integration of environmental, physiological, and developmental signals into networks to control proper cell division and expansion. Rapid and exciting research progress in these fields has been achieved from experimental observations on plants over the past decade. The scope of this volume is focused on the molecular basis of all aspects of cell division and cytokinesis in plants. It is an essential reference book for instructors and scientists working in the areas of molecular, cell, and developmental biology of plants. The editors of this book are veterans in the field of plant molecular biology and highly respected worldwide.

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Cell cycle control : Methods and protocols

Collects techniques to study the highly regulated cell cycle process. Beginning with chapters investigating these processes and assessing how cells respond when these complicated pathways are simplified by using synthetic biology and in vitro reconstitutions, the book continues by exploring how cells sense and respond to environmental conditions, different model systems and cellular types used to visualize cellular architecture during cell division, as well as innovative single cell microscopy techniques to highlight the heterogeneity of the cell population with respect to cell cycle progression. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step and readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.

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Cell Culture Engineering

Many patients suffering with life-threatening diseases or chronic dysfunctions, which were medically untreatable not long ago, can attest to the wonder these drugs have achieved. Although the first generation of p- tein therapeutics was produced in recombinant Escherichia coli, most recent products use mammalian cells as production hosts. Not long after the first p- duction of recombinant proteins in E. coli, it was realized that the complex tasks of most post-translational modifications on proteins could only be efficiently carried out in mammalian cells.

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Cell and Molecular Biology of Plastids

The present book provides a comprehensive overview of our current knowledge on plastid biogenesis, plastid-nuclear communication, the regulation of plastid gene expression at all levels, and also assesses the state of the art in key technologies, such as proteomics and chloroplast transformation. Written by recognized experts in the field, it covers plastid differentiation and division, genome structure and function, plastid inheritance, recombination, DNA replication and repair, transcription, RNA processing and translation as well as crucial posttranslational processes in plastid biogenesis and function, including protein processing, the assembly of multiprotein complexes, protein stability and degradation, protein import and sorting.

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Celiac disease

Celiac Disease is a chronic small intestinal immune-mediated enteropathy caused by the ingestion of dietary gluten proteins in genetically susceptible individuals. CD is one of the most common autoimmune diseases, affecting around 1.4% of the population globally . Celiac disease remains a challenging condition because of a steady increase in knowledge tackling its pathophysiology, diagnosis, management, and possible therapeutic options. Finding alternative diet and trying different lifestyle still under debates. However, complete exclusion of the gluten-containing food from the patient's diet is the only effective treatment to avoid the disease complications

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Celebrating applied sciences reaches 20,000 articles milestone: invited papers in "applied dentistry and oral sciences" section

Encompasses a wide range of disciplines, covering everything from dental materials and biomaterials to preventive and therapeutic strategies, from clinical applications to regenerative dentistry.We envision this milestone as a stepping stone toward even greater accomplishments. Through the collaboration and collective efforts of researchers worldwide, we strive to push the boundaries of dental science, explore new frontiers, and improve oral health outcomes for individuals across the globe.

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CDT 2023 : Current Dental Terminology

includes 22 new codes, 14 revisions, and 2 deleted codes across 8 categories. This edition also includes seven new codes adopted in March 2022 related to COVID-19 vaccine administration. Other highlights in CDT 2023 include new and revised codes for: Intraoral tomosynthesis and 3D surface scans; HPV vaccine administration; Guided tissue regeneration; Intraoral radiograph images; Gingival flap procedures; Full mouth debridement; Gingival irrigation.

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CDMA Radio with Repeaters

This book analyzes the interaction of the CDMA system within a mobile channel environment, emphasizing repeaters, diversities, and other performance-enhancing means. The authors provide a unique and clear description of repeater-embedded networks’ planning, design, and optimization in different scenarios. Simple physically-based expressions are developed and supported by extensive field experience, and provide insight into the network dynamics. CDMA Radio with Repeaters is intended for wireless RF engineers and system architects, and for researchers working on advanced wireless networks, including MIMO systems. The material also provides insight for helping cellular managers and business assess costs and risks. This book is also suitable as a reference book for graduate courses.

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CD4+CD25+ Regulatory T Cells : Origin, Function and Therapeutic Potential

CD4+CD25+ regulatory T cells (Treg) and interleukin-10 producing T regulatory 1 (Tr1) cells have been studied in most detail and are the subject of most articles in this issue. Treg, also called "natural" regulatory T cells, will be traced from their intra-thymic origin to the site of their action in peripheral lymphoid organs and tissues.

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CCD Image Sensors in Deep-Ultraviolet : Degradation Behavior and Damage Mechanisms

As the deep-ultraviolet (DUV) laser technology continues to mature, an increasing number of industrial and manufacturing applications are emerging. For example, the new generation of semiconductor inspection systems is being pushed to image at increasingly shorter DUV wavelengths to facilitate inspection of deep sub-micron features in integrated circuits. DUV-sensitive charge-coupled device (CCD) cameras are in demand for these applications. Although CCD cameras that are responsive at DUV wavelengths are now available, their long-term stability is still a major concern. This book describes the degradation mechanisms and long-term performance of CCDs in the DUV, along with new results of device performance at these wavelengths.

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CCD Astrophotography : High-Quality Imaging from the Suburbs

This is a reference book for amateur astronomers who have become interested in CCD imaging. Those glorious astronomical images found in astronomy magazines might seem out of reach to newcomers to CCD imaging, but this is not the case. Great pictures are attainable with modest equipment. Adam Stuart’s many beautiful images, reproduced in this book, attest to the quality of – initially – a beginner’s efforts. Chilled-chip astronomical CCD-cameras and software are also wonderful tools for cutting through seemingly impenetrable light-pollution. CCD Astrophotography from the Suburbs describes one man’s successful approach to the problem of getting high-quality astronomical images under some of the most light-polluted conditions.

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Cathodic Arcs : From Fractal Spots to Energetic Condensation

Cathodic Arcs: From Fractal Spots to Energetic Condensation is the first book in over a decade dedicated to the physics and technology of cathodic arcs. It includes a detailed account of arc history, a textbook-like introduction to cathode phenomena, and some basic physics of expanding plasmas; it deals with the infamous macroparticle issue and describes a host of practical plasma filter solutions. In contrast to previous books on cathodic arcs, the focus is on the relation of arc plasmas and their properties to surface modification and thin film deposition. The book contains sections on basic plasma physics and thin film materials science. It also deals with practical issues of coatings such as stress control and the often-underrated issue of the coating’s color. By stressing the fractal nature of cathode spots, the theme of fluctuations can be found throughout the book: fluctuations affect all plasma properties and thereby have consequences for plasma-based surface modifications and film growth.

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