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Mediterranean Land-surface Processes Assessed from Space

1. 1 Space View and Ground Observations 1 1. 2 Mediterranean Climatic Environment 2 1. 3 Processes at Surfaces 10 1. 3. 1 Deforestation and Land-use Changes 10 1. 3. 2 Water Related Problems 16 1. 3. 3 Fire, Grazing, and Land Degradation 19 1. 3. 4 Drought, Floods, Frost, and Desertification 21 1. 3. 5 Coupling Between Surface and Atmosphere: The Role of the Atmospheric Boundary Layer 25 1. 4 Role and Capabilities of Measurements Made From Space 30 1. 4. 1 Research Programmes 30 1. 4. 2 Expected Information 32 1. 4. 3 Research Strategy 33 1. 4. 4 Observation of Changes in Heterogeneous Landscapes: Spatial and Temporal Scales 35 1. 4. 5 Land-surface Change Indicators Observable from Space 36 Spectral Characteristics of Vegetation and Soils (36); Responses of Remote Sensing Signals to Changes of Land-surface Properties (40) 1. 5 About this Book 48 Chapter 2 Processing and Archiving of Satellite and Ancillary Data 51 2. 1 Introduction 51 2. 2 The Remote Sensing Data Base 55 2. 2. 1 Satellite Instruments 55 The NOAA Observing System (55); Meteosat (57); Nimbus-7 (59); Landsat (59); SPOT (61); DMSP (62); ERS-1 and ERS-2 (62); TRMM (63); Terra (64); Envisat (65); Aqua (66) 2. 2. 2 Aircraft Instruments 66 The Use of Aircraft for Land-surface Process Studies (66); AVIRIS (67); TMS (68); AIRSAR (68); DIAL (69) 2. 3 Reception, Acquisition and Availability of Satellite Data 70 2. 3.

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Medicinal roots and tubers for pharmaceutical and commercial applications

The root and tuber are vital parts of medicinal plants providing mechanical support, producing critical growth regulators, and storing food. Bioactive compounds obtained from plant roots and tubers demonstrate health benefits presenting antioxidative, antimicrobial, hypoglycaemic, hypocholesterolaemic, and immunomodulatory properties. Roots of many medicinal plants have been used for the treatment of disease and formulation of drugs, and they are also known for their commercial value, being used as an ingredient in the pharmaceutical and cosmetic industries.

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Medicinal plants for cosmetics : Health and diseases

Describes diseases and ailments occurring in individuals worldwide including acne, ageing, various cancers, eczema and other conditions. This book explains each disease and ailment, allowing the reader to gain a better perspective on misunderstood and underestimated assumptions accompanying the ailment or condition. Not only does this book present information on different diseases and ailments, it presents a variety of plants and plant-based compounds demonstrating potential health benefits.

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Medicinal foods as potential therapies for type-2 diabetes and associated diseases : The chemical and pharmacological basis of their action

Focuses on active pharmacological principles that modulate diabetes, associated risk factors, complications and the mechanism of action of widely used anti-diabetic herbal plants—rather than just the nutritional composition of certain foods. Provides up-to-date information on acclaimed antidiabetic super fruits, spices and other food ingredients. Sections cover diabetes and obesity at the global level, the physiological control of carbohydrate and lipid metabolism, the pathophysiology of type-2 diabetes, the chemistry and pharmacology of a variety of spices, and much more. This book will be invaluable for research scientists and students in the medical and pharmaceutical sciences, medicinal chemistry, herbal medicine, drug discovery/development, nutrition science, and for herbal practitioners and those from the nutraceutical and pharm industries.

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Medicinal compounds in modern healthcare : From tradition to innovation

Reviews the evolution, development, and application of medicinal compounds, beginning with their historical context and advancing to modern innovations. The book describes the therapeutic potential of bioactive compounds from microorganisms, the role of antioxidants and anti-inflammatory agents in managing chronic diseases, and the use of small molecules in pain management and mental healthcare. It further explores immunomodulatory compounds, epigenetic modifiers, and the latest advancements in drug development, including integrative medicine approaches and the applications of nanotechnology in traditional medicine. Additionally, the book addresses the use of immunomodulatory agents like methotrexate and paclitaxel in cancer treatment, regulatory considerations for ensuring safety and efficacy in medicinal compounds, and the growing field of nutraceuticals. Towards the end, the book covers the extraction, profiling, and ADMET evaluation of medicinal compounds, intellectual property challenges, and the significance of traditional medicine in modern healthcare.

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Medical Reprints: 3D ed.

3D printing or additive manufacturing is a novel method of manufacturing parts directly from a digital model by using layer by layer material build-up approaches. This discovery is predicted to have the greatest impact on the future industries. Additive manufacturing has numerous applications in different areas including healthcare. Applications encompass many medical fields such as dentistry, surgery, and medical devices as well as the pharmaceutical field. Due to transplant donor deficiencies, ‘bioprinting’ has been invented to print biocompatible organs. Adding ‘time’ as a 4th dimension, 4D printing uses ‘smart materials’ to initiate the ‘smart drugs’ era.

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Medical Pharmacology and Therapeutics

Provides all the information medical and healthcare students need throughout their degree programme and beyond, including for professional qualifications such as the PSA. This all-round textbook covers basic pharmacology through to drug prescribing in clinical contexts, covering the pathogenic mechanisms of disease; drug actions, side effects, and the therapeutic principles of drug use. It takes a helpful systems-based approach that orders information according to body systems and disease areas, rather than by drug class. Now in its sixth edition, the book has been fully updated to include latest scientific understanding of drug action and administration and current best practice in prescribing medications, informed by the latest national guidelines.

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Medical laboratory technology procedure : manual for routine diagnostic tests ; Vol.3

Salient features Predominantly tailored to the requirements of laboratories with limited facilities in developing countries, this manual: Introduces methods and procedures for producing reliable laboratory findings Describes all tests in a step-by-step manner with guidelines to avoid errors and hazards Explains care and use of laboratory equipment and preparation of reagents Details Zika and Chikungunya virus infections Highlights the clinical significance of laboratory findings Provides illustrations for easy comprehension The fourth edition features a number of important additions containing the latest topics relevant to the subject

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Medical Imaging and Augmented Reality ; 4th International Workshop Tokyo, Japan, August 1-2, 2008 Proceedings

Constitutes the refereed proceedings of the 4th International Workshop on Medical Imaging and Augmented Reality, MIAR 2008, held in Tokyo, Japan, in August 2008.The 44 revised full papers presented together with 3 invited papers were carefully reviewed and selected from 90 submissions. The papers are organized in topical sections on surgical planning and simulation, medical image computing, image analysis, shape modeling and morphometry, image-guided robotics, image-guided intervention, interventional imaging, image registration, augmented reality, and image segmentation.

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Medical image synthesis : Methods and clinical applications

Image synthesis across and within medical imaging modalities is an active area of research with broad applications in radiology and radiation oncology. This book covers the principles and methods of medical image synthesis, along with state-of-the-art research. First, various traditional non-learning-based, traditional machine-learning-based, and recent deep-learning-based medical image synthesis methods are reviewed. Second, specific applications of different inter- and intra-modality image synthesis tasks and of synthetic image-aided segmentation and registration are introduced and summarized, listing and highlighting the proposed methods, study designs, and reported performances with the related clinical applications of representative studies. Third, the clinical usages of medical image synthesis, such as treatment planning and image-guided adaptive radiotherapy, are discussed. Last, the limitations and current challenges of various medical synthesis applications are explored, along with future trends and potential solutions to solve these difficulties.

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Medical Image Computing and Computer-Assisted Intervention - MICCAI 2008 ; 11th International Conference, New York, NY, USA, September 6-10, 2008, Proceedings, Part II

The program committee carefully selected 258 revised papers from numerous submissions for presentation in two volumes, based on rigorous peer reviews. The first volume includes 127 papers related to medical image computing, segmentation, shape and statistics analysis, modeling, motion tracking and compensation, as well as registration. The second volume contains 131 contributions related to robotics and interventions, statistical analysis, segmentation, intervention, modeling, and registration.

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Medical Image Computing and Computer-Assisted Intervention - MICCAI 2008 ; 11th International Conference, New York, NY, USA, September 6-10, 2008, Proceedings, Part I

The program committee carefully selected 258 revised papers from numerous submissions for presentation in two volumes, based on rigorous peer reviews. The first volume includes 127 papers related to medical image computing, segmentation, shape and statistics analysis, modeling, motion tracking and compensation, as well as registration. The second volume contains 131 contributions related to robotics and interventions, statistical analysis, segmentation, intervention, modeling, and registration.

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Medical Image Computing and Computer-Assisted Intervention – MICCAI 2005 ; 8th International Conference, Palm Springs, CA, USA, October 26-29, 2005, Proceedings, Part I

This paper presents a method for classification of medical images, using machine learning and deformation-based morphometry. A morphological representation of the anatomy of interest is first obtained using highdimensional template warping, from which regions that display strong correlations between morphological measurements and the classification (clinical) variable are extracted using a watershed segmentation, taking into account the regional smoothness of the correlation map which is estimated by a crossvalidation strategy in order to achieve robustness to outliers. A Support Vector Machine-Recursive Feature Elimination (SVM-RFE) technique is then used to rank computed features from the extracted regions, according to their effect on the leave-one-out error bound. Finally, SVM classification is applied using the best set of features, and it is tested using leave-one-out. The results from a group of 61 brain images of female normal controls and schizophrenia patients demonstrate not only high classification accuracy (91.8%) and steep ROC curves, but also exceptional stability with respect to the number of selected features and the SVM kernel size

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Medical Emergency Teams : Implementation and Outcome Measurement

Why Critical Care Evolved METs? In early 2004, when Dr. Michael DeVita informed me that he was cons- ering a textbook on the new concept of Medical Emergency Teams (METs), I was surprised. At Presbyterian-University Hospital in Pittsburgh we int- duced this idea some 15 years ago, but did not think it was revolutionary enough to publish. This, even though, our fellows in critical care medicine training were all involved and informed about the importance of “C- dition C (Crisis),” as it was called to distinguish it from “Condition A (Arrest). ”We thought it absurd to intervene only after cardiac arrest had occurred,because most cases showed prior deterioration and cardiac arrest could be prevented with rapid team work to correct precluding problems. The above thoughts were logical in Pittsburgh, where the legendary Dr. Peter Safar had been working since the late 1950s on improving current resuscitation techniques, ?rst ventilation victims of apneic from drowning, treatment of smoke inhalation, and so on. This was followed by external cardiac compression upon demonstration of its ef?ciency in cases of unexpected sudden cardiac arrest. Dr. Safar devoted his entire professional life to improvement of cardiopulmonary resuscitation. He and many others emphasized the importance of getting the CPR team to o- of-hospital victims of cardiac arrest as quickly as possible.

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Medical Emergencies in the Dental Office

Prepares dental professionals to promptly and proactively recognize and manage medical emergencies that may occur in the dental office. It details how to anticipate potential emergencies and what resources must be on hand to deal effectively with these situations. The book is arranged in eight sections concentrating on topics such as prevention of emergencies through patient evaluation (medical history) and specific types of more common emergencies that practitioners may encounter. "It successfully fulfils its aim of stimulating all members of the dental team to improve and maintain their skills in the effective prevention, recognition and management of medical emergencies.

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Medical data processing and analysis

Medical data can be defined as obtaining information from patients (such as signals, images, sounds, chemical components and their concentration, body temperature, respiratory rate, blood pressure, and different treatment measurements) to quantify the patient’s status and disease stage. Computer-aided diagnostic (CAD) systems use classical image processing, computer vision, machine learning, and deep learning methods for image analysis. Using image classification or segmentation algorithms, they find a region of interest (ROI) pointing to a specific location within the given image or an outcome of interest in the form of a label pointing to a diagnosis or prognosis. Computer science, with the evolution of artificial intelligence and machine learning techniques, facilitates the modeling and interpretation of results—from carrying out measurements to experiments and observations.

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Medical Biometrics ; 1st International Conference, ICMB 2008, Hong Kong, China, January 4-5, 2008, Proceedings

Medical biometrics primarily refers to the usage of beh- ioral and physiological characteristics of humans for medical diagnosis and body care. Thus the goal of medical biometrics is to explore solutions to the open problems in medicine using biometric measurements, technologies and systems.

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Medical and healthcare interactions

Presenting a series of empirical studies by scholars working with approaches from ethnomethodology and conversation analysis, Medical and Healthcare Interactions studies real-life work and training encounters among medical and healthcare professionals and trainees or between professionals and patients. Using video analysis and detailed description, it considers the methods and procedures through which professionals, trainees, and patients produce actions and interpret those of others, exploring questions of member competence and socialization within situated courses of interaction. Offers fruitful contributions for training and education in the field of healthcare and will appeal to scholars in the human and social sciences with interests in interaction, ethnomethodology, and conversation analysis.

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Medial Representations : Mathematics, Algorithms and Applications

The last half century has seen the development of many biological or physical theories that have explicitly or implicitly involved medial descriptions of objects and other spatial entities in our world. Simultaneously mathematicians have studied the properties of these skeletal descriptions of shape, and, stimulated by the many areas where medial models are useful, computer scientists and engineers have developed numerous algorithms for computing and using these models. We bring this knowledge and experience together into this book in order to make medial technology more widely understood and used.

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Mechanochemistry in Nanoscience and Minerals Engineering

Mechanochemistry as a branch of solid state chemistry enquires into processes which proceed in solids due to the application of mechanical energy. This provides a thorough, up to date overview of mechanochemistry of solids and minerals. Applications of mechanochemistry in nanoscience with special impact on nanogeoscience are described. Selected advanced identification methods, most frequently applied in nanoscience, are described as well as the advantage of mechanochemical approach in minerals engineering. Examples of industrial applications are given. Mechanochemical technology is being applied in many industrial fields: powder metallurgy (synthesis of nanometals, alloys and nanocompounds), building industry (activation of cements), chemical industry (solid waste treatment, catalyst synthesis, coal ashes utilization), minerals engineering (ore enrichment, enhancement of processes of extractive metallurgy), agriculture industry (solubility increase of fertilizers), and pharmaceutical industry (improvement of solubility and bioavailability of drugs).

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