Inhaltsangabe
Rubor (redness), tumor (swelling), calor (heat), and dolor (pain) are the classical signs of inflammation. These features are obvious in the skin, where injury or disease causes flare, wheal, and painful burning sensations. Vasodi- tation underlies the flare and heat, plasma exudation the swelling, and acti- tion of sensory nerves relays pain. In chronic conditions, skin biopsies show inflammatory cell infiltrate. Inflammation is not unique to the skin and contr- utes to disease and repair processes in other organ systems in the body. From the viewpoint of this volume, lung inflammation is now recognized as central to the pathophysiology of a number of severe respiratory conditions, the two most common being asthma and chronic obstructive pulmonary disease (COPD). In asthma, and to a lesser extent COPD, there is evidence of vasodilatation, with congestion of blood vessels accompanied by reddening of the airway mucosa, and of plasma exudation, leading to swelling of the airway wall. Similarly, although less pronounced than in the skin, there is evidence of pain, for example, the - pleasant chest sensations associated with asthma attacks. Understanding the pat- genesis of airway inflammation will enable rational design of drugs to effectively treat conditions such as asthma and COPD. However, whereas immediate access to the skin facilitates investigation of disease processes, the lung, although "open to atmosphere," is much less accessible. Consequently, the investigation of lung inflammation is usually indirect. Thus, a wide variety of research techniques are used.
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Airway inflammation is now recognized as central to the pathophysiology of several major respiratory conditions-the two most common being asthma and chronic obstructive pulmonary disease (COPD). In Human Airway Inflammation: Sampling Techniques and Analytical Protocols, experienced basic and clinical investigators describe a wide range of readily reproducible methods for sampling, isolating, and culturing all of the major inflammatory cells involved in the pathophysiology of asthma and COPD. The collection techniques detailed here involve biopsy and sampling of airway liquids such as sputum and exhaled gases such as nitric oxide. Also provided is a full range of methods for the isolation and characterization of cells and for the measurement of many of the major inflammatory markers, along with protocols for measuring the inflammatory mediators and enzymes released during lung inflammation. Each user-friendly method contains all the essential step-by-step elements the researcher must navigate from sample collection to analysis, and includes notes on how to avoid problems. Among the more advanced techniques are the measurement of exhaled hydrocarbons and F2 isoprostanes, granulocyte pharmacodynamics in whole blood measured by flow cytometry, and tracing mediator trafficking in eosinophils using confocal microscopy.
Comprehensive and highly practical, the methods presented in Human Airway Inflammation: Sampling Techniques and Analytical Protocols provide today's basic and clinical researchers with all the major techniques for investigating airway inflammation, and powerfully illuminate many novel targets for emerging drugs.
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