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A modern quantitative study of lung mechanics, relating mathematical modeling and engineering principles to lung function, structure, mechanics, and disease.
This book is a step-by-step guide to procedures and analysis of infant lung function testing. Each test description is preceded by a brief resume of the theoretical background. A troubleshooting section compiles the problems most frequently encountered during measurement and analysis. This book will provide those training in pediatric pulmonary with a sound grasp of the fundamental principles and practical issues involved in measuring infant lung function.
Audience: Critical Care Physicians, Pulmonary Medicine Physicians; Respiratory Care Practitioners; Intensive Care Nurses Author is the most recognized name in Critical Care Medicine Technical and clinical developments in mechanical ventilation have soared, and this new edition reflects these advances Written for clinicians, unlike other books on the subject which have primarily an educational focus
A panel of recognized authorities comprehensively review the medical, surgical, and pathophysiologic issues relevant to lung volume reduction surgery for emphysema. Topics range from the open technique and video-assisted thoracoscopic approaches to LVRS, to anesthetic management, to perioperative and nursing care of the patient. The experts also detail the selection of candidates for LVRS, the clinical results and clinical trials in LVRS, and the effects of LVRS on survival rates.
This book covers the up-to-date advancement of respiratory monitoring in ventilation support as well as detecting the physiological responses to therapeutic interventions to avoid complications. Mechanical ventilation nowadays remains the cornerstone in life saving in critically ill patients with and without respiratory failure. However, conclusive evidences show that mechanical ventilation can also cause lung damage, specifically, in terms of ventilator-induced lung injury. Respiratory monitoring encloses a series of physiological and pathophysiological measurements, from basic gas exchange and ventilator wave forms to more sophisticated diaphragm function and lung volume assessments. The progress of respiratory monitoring has always been accompanied by advances in technology. However, how to properly conduct the procedures and correctly interpret the data requires clear definition. The book introduces respiratory monitoring techniques and data analysis, including gas exchange, respiratory mechanics, thoracic imaging, lung volume measurement, and extra-vascular lung water measurement in the initial part. How to interpret the acquired and derived parameters and to illustrate their clinical applications is presented thoroughly. In the following part, the applications of respiratory monitoring in specific diseases and conditions is introduced, including acute respiratory distress syndrome, obstructive pulmonary diseases, patient-ventilator asynchrony, non-invasive ventilation, brain injury with increased intracranial pressure, ventilator-induced diaphragm dysfunction, and weaning from mechanical ventilation. This book is intended primarily for ICU physicians and other practitioners including respiratory therapists, ICU nurses and trainees who come into contact with patients under mechanical ventilation. This book also provides guidance for clinical researchers who take part in respiratory and mechanical ventilation researches.
This book offers a state-of-the-art description of the complexity of the healthy and pathological respiratory system, with particular reference to the mechanics of the airways, lung and chest wall. Detailed information is provided on new insights into the mechanics of breathing that have been obtained through technological innovations in measurement systems, cutting-edge modeling techniques and novel approaches to functional imaging of the respiratory system. It is explained how these advances permit the assessment of emerging treatment approaches, including new drugs, innovative surgical techniques and modes of mechanical ventilation and new forms of rehabilitation. In order to ensure comprehensive coverage of the subject, the editor has assembled a multidisciplinary team of authors comprising basic scientists in respiratory medicine, chest and intensive care physicians and bioengineers involved in both modeling and instrumentation. The book is intended for intensive care physicians, respirologists, physiologists, rehabilitation specialists, basic scientists in respiration, research and clinical fellows, biomedical engineers involved with respiratory mechanics and respiratory therapists. They will update their knowledge and improve their clinical expertise.
This handbook covers the principles of mechanical ventilation, making them easy to understand and apply in clinical settings. Presented in an accessible style and supplemented by a wealth of illustrations and graphs, it includes chapters on the basic mathematics and physics of ventilation, respiratory anatomy, basic and advanced ventilation modes, and the fundamentals of acid-base balance. A closing chapter on troubleshooting for mechanical ventilation provides valuable tips on how to deal with various situations encountered in intensive care units. The book is primarily intended for respiratory therapy practitioners, clinicians in pulmonary units, and pulmonologists, as well as graduate students in respiratory medicine and students pursuing undergraduate courses in respiratory therapy – all of whose work involves mechanical ventilators.
This book is a practical and easily understandable guide for mechanical ventilation. With a focus on the basics, this text begins with a detailed account of the mechanisms of spontaneous breathing as a reference point to then describe how a ventilator actually works and how to effectively use it in practice. The text then details: the various modes of ventilation commonly used in clinical practice; patient-ventilator interactions and dyssynchrony; how to approach a patient on the ventilator with respiratory decompensation; the optimal ventilator management for common disease states like acute respiratory distress syndrome and obstructive lung disease; the process of ventilator weaning; and hemodynamic effects of mechanical ventilation. Written for medical students, residents, and practicing physicians in a variety of different specialties (including internal medicine, critical care, surgery and anesthesiology), this book will instruct readers on how to effectively manage a ventilator, as well as explain the underlying interactions between it and the critically ill patient.
Medical Ventilator System Basics: A clinical guide is a user-friendly guide to the basic principles and the technical aspects of mechanical ventilation and modern complex ventilator systems. Designed to be used at the bed side by busy clinicians, this book demystifies the internal workings of ventilators so they can be used with confidence for day-to-day needs, for advanced ventilation, as well as for patients who are difficult to wean off the ventilator. Using clear language, the author guides the reader from pneumatic principles to the anatomy and physiology of respiration. Split into 16 easy to read chapters, this guide discusses the system components such as the ventilator, breathing circuit, and humidifier, and considers the major ventilator functions, including the control parameters and alarms. Including over 200 full-colour illustrations and practical troubleshooting information you can rely on, regardless of ventilator models or brands, this guide is an invaluable quick-reference resource for both experienced and inexperienced users.