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Libri sul tema "Ventilation"

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Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 29 luglio 2024

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1

Arnal, Jean-Michel. Monitoring Mechanical Ventilation Using Ventilator Waveforms. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-58655-7.

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2

Clark, Nancy. Ventilation. New York: Lyons & Burford, 1987.

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3

Tukkaraja, Purushotham. Mine Ventilation. London: CRC Press, 2021. http://dx.doi.org/10.1201/9781003188476.

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4

Baker, David J. Artificial Ventilation. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32501-9.

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5

Baker, David J. Artificial Ventilation. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-55408-8.

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6

Aloy, Alexander, e Eva Schragl. Jet-Ventilation. Vienna: Springer Vienna, 1995. http://dx.doi.org/10.1007/978-3-7091-9355-6.

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7

Sierra, Carlos. Mine Ventilation. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-49803-0.

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8

Lemaire, François, a cura di. Mechanical Ventilation. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-87448-2.

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9

Slutsky, Arthur S., e Laurent Brochard, a cura di. Mechanical Ventilation. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/b138096.

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10

Fordham, Max. Natural ventilation. [U.K.]: Pergamon, 1999.

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11

Kreit, John W. Mechanical ventilation. Oxford: Oxford University Press, 2013.

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12

Jackman, P. J. Displacement ventilation. Bracknell: Building Services Research and Information Association, 1990.

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13

MacIntyre, Neil R., e Richard D. Branson, a cura di. Mechanical ventilation. Philadelphia, Pennsylvana: W.B. Saunders, 2001.

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14

Morganroth, Melvin L. Mechanical ventilation. Philadelphia: Saunders, 1988.

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15

International Symposium on Ventilation for Contaminant Control (1st 1985 Toronto). Ventilation '85. Amsterdam: Elsevier, 1986.

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16

Skistad, Hakon. Displacement ventilation. Taunton, Somerset: Research Studies Press, 1994.

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17

Germer, Jerry. Insulation & ventilation. Upper Saddle River, NJ: Creative Homeowner Press, 1995.

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18

John, Goldstone, e Moxham J, a cura di. Assisted ventilation. 2a ed. London: BMJ Pub. Group, 1994.

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19

Smith, L. J. Barn ventilation. [Winnipeg?: s.n.], 1996.

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20

United States. Mine Safety and Health Administration, a cura di. Mine ventilation. [Washington, D.C.?]: U.S. Dept. of Labor, Mine Safety and Health Administration, 1999.

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21

MacIntyre, Neil R. Mechanical ventilation. Philadelphia: Saunders Elsevier, 2001.

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22

Jackman, P. J. Displacement ventilation. Bracknell: Building Services Research and Information Association, 1990.

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23

Panigrahi, D. C. Mine ventilation. Enfield, N.H: Science Publishers, 2009.

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24

MacIntyre, Neil R., e Richard D. Branson. Mechanical Ventilation. Philadelphia: Saunders, 2000.

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25

Germer, Jerry. Insulation & ventilation. Upper Saddle River, NJ: Creative Homeowner Press, 1995.

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26

Tukkaraja, Purushotham. Underground Ventilation. London: CRC Press, 2023. http://dx.doi.org/10.1201/9781003429241.

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27

R, MacIntyre Neil, e Branson Richard D, a cura di. Mechanical ventilation. 2a ed. St. Louis, MO: Saunders Elsevier, 2009.

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28

François, Lemaire, a cura di. Mechanical ventilation. Berlin: Springer-Verlag, 1991.

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29

Nielsen, Peter V., Elisabeth Mundt, Hans Martin Mathisen e Alfred Moser. Ventilation effectiveness. Brussels, Belgium: Rehva, Federation of European Heating and Air-conditioning Associations, 2004.

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30

Energy and Environmental Building Association., a cura di. Ventilation guide. Westford, MA: Building Science Press, 2006.

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31

R, Kirby Robert, Smith, Robert A., R.R.T. e Desautels David A, a cura di. Mechanical ventilation. New York: Churchill Livingstone, 1985.

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32

Kreit, John W., e John A. Kellum. Mechanical Ventilation. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190670085.001.0001.

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Abstract (sommario):
Mechanical Ventilation—Physiology and Practice provides a comprehensive review of the physiological principles underlying mechanical ventilation, as well as practical approaches to the management of patients with respiratory failure. The book explains instrumentation and terminology, ventilator modes and breath types, ventilator alarms, how to write ventilator orders, and how to diagnose and correct patient–ventilator asynchrony. It also discusses the physiological assessment of the mechanically ventilated patient and the diagnosis and management of dynamic hyperinflation, and describes how to manage patients with the acute respiratory distress syndrome (ARDS), severe obstructive lung disease, and right ventricular failure; how to “wean” patients from the ventilator; and how and when to use noninvasive ventilation.
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33

Arnal, Jean-Michel. Monitoring Mechanical Ventilation Using Ventilator Waveforms. Springer, 2018.

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34

Buchan, William Paton. Ventilation. Creative Media Partners, LLC, 2018.

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35

Ventilation. Creative Media Partners, LLC, 2022.

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36

Cutter, Thomas, Jean-Ann McGrane e Nancy Clark. Ventilation. Lyons Press, 1987.

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37

Ventilation. Stationery Office Books, 1985.

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38

Ventilation. Year Book Medical Pub, 1986.

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39

Ventilation. Franklin Classics, 2018.

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40

Ventilation. Franklin Classics, 2018.

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41

Masip, Josep, Kenneth Planas e Arantxa Mas. Non-invasive ventilation. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0025.

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Abstract (sommario):
During the last 25 years, the use of non-invasive ventilation has grown substantially. Non-invasive ventilation refers to the delivery of positive pressure to the lungs without endotracheal intubation and plays a significant role in the treatment of patients with acute respiratory failure and in the domiciliary management of some chronic respiratory and sleep disorders. In the intensive and acute care setting, the primary aim of non-invasive ventilation is to avoid intubation, and it is mainly used in patients with chronic obstructive pulmonary disease exacerbations, acute cardiogenic pulmonary oedema, or in the context of weaning, situations in which a reduction in mortality has been demonstrated. The principal techniques are continuous positive airway pressure and bilevel pressure support ventilation. Whereas non-invasive pressure support ventilation requires a ventilator, continuous positive airway pressure is a simpler technique that can be easily used in non-equipped areas such as the pre-hospital setting. The success of non-invasive ventilation is related to the adequate timing and selection of patients, as well as the appropriate use of interfaces, the synchrony of patient-ventilator, and the fine-tuning of the ventilator.
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42

Masip, Josep, Kenneth Planas e Arantxa Mas. Non-invasive ventilation. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0025_update_001.

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Abstract (sommario):
During the last 25 years, the use of non-invasive ventilation has grown substantially. Non-invasive ventilation refers to the delivery of positive pressure to the lungs without endotracheal intubation and plays a significant role in the treatment of patients with acute respiratory failure and in the domiciliary management of some chronic respiratory and sleep disorders. In the intensive and acute care setting, the primary aim of non-invasive ventilation is to avoid intubation, and it is mainly used in patients with chronic obstructive pulmonary disease exacerbations, acute cardiogenic pulmonary oedema, or in the context of weaning, situations in which a reduction in mortality has been demonstrated. The principal techniques are continuous positive airway pressure and bilevel pressure support ventilation. Whereas non-invasive pressure support ventilation requires a ventilator, continuous positive airway pressure is a simpler technique that can be easily used in non-equipped areas such as the pre-hospital setting. The success of non-invasive ventilation is related to the adequate timing and selection of patients, as well as the appropriate use of interfaces, the synchrony of patient-ventilator, and the fine-tuning of the ventilator.
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43

Masip, Josep, Kenneth Planas e Arantxa Mas. Non-invasive ventilation. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199687039.003.0025_update_002.

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Abstract (sommario):
During the last 25 years, the use of non-invasive ventilation has grown substantially. Non-invasive ventilation refers to the delivery of positive pressure to the lungs without endotracheal intubation and plays a significant role in the treatment of patients with acute respiratory failure and in the domiciliary management of some chronic respiratory and sleep disorders. In the intensive and acute care setting, the primary aim of non-invasive ventilation is to avoid intubation, and it is mainly used in patients with chronic obstructive pulmonary disease exacerbations, acute cardiogenic pulmonary oedema, or in the context of weaning, situations in which a reduction in mortality has been demonstrated. The principal techniques are continuous positive airway pressure and bilevel pressure support ventilation. Whereas non-invasive pressure support ventilation requires a ventilator, continuous positive airway pressure is a simpler technique that can be easily used in non-equipped areas such as the pre-hospital setting. The success of non-invasive ventilation is related to the adequate timing and selection of patients, as well as the appropriate use of interfaces, the synchrony of patient-ventilator, and the fine-tuning of the ventilator.
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44

Bauman, Kristy A., e Robert C. Hyzy. Volume-controlled mechanical ventilation. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0095.

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Abstract (sommario):
The goal of mechanical ventilation is to achieve adequate gas exchange while minimizing haemodynamic compromise and ventilator-associated lung injury. Volume-controlled ventilation can be delivered via several modes, including controlled mechanical ventilation, assist control (AC) and synchronized intermittent mandatory ventilation (SIMV). .In volume-controlled modes, the clinician sets the flow pattern, flow rate, trigger sensitivity, tidal volume, respiratory rate, positive end-expiratory pressure, and fraction of inspired oxygen. Patient ventilator synchrony can be enhanced by setting appropriate trigger sensitivity and inspiratory flow rate. I:E ratio can be adjusted to improve oxygenation, avoid air trapping and enhance patient comfort. There is little data regarding the benefits of one volume-controlled mode over another. In acute respiratory distress syndrome, low tidal volume ventilation in conjunction with plateau pressure limitation should be employed as there is a reduction in mortality with this strategy. This chapter addresses respiratory mechanics, modes and settings, clinical applications, and limitations of volume-controlled ventilation.
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45

Abuella, Gihan, e Andrew Rhodes. Mechanical ventilation. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0024.

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Abstract (sommario):
Mechanical ventilation is used to assist or replace spontaneous respiration. Gas flow can be generated by negative pressure techniques, but it is positive pressure ventilation that is the most efficacious in intensive care. There are numerous pulmonary and extrapulmonary indications for mechanical ventilation, and it is the underlying pathology that will determine the duration of ventilation required. Ventilation modes can broadly be classified as volume- or pressure-controlled, but modern ventilators combine the characteristics of both in order to complement the diverse requirements of individual patients. To avoid confusion, it is important to appreciate that there is no international consensus on the classification of ventilation modes. Ventilator manufacturers can use terms that are similar to those used by others that describe very different modes or have completely different names for similar modes. It is well established that ventilation in itself can cause or exacerbate lung injury, so the evidence-based lung-protective strategies should be adhered to. The term acute lung injury has been abolished, whilst a new definition and classification for the acute respiratory distress syndrome has been defined.
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46

Grounds, Robert O., e Andrew Rhodes. Mechanical ventilation. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0024_update_001.

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Abstract (sommario):
Mechanical ventilation is used to assist or replace spontaneous respiration. Gas flow can be generated by negative pressure techniques, but it is positive pressure ventilation that is the most efficacious in intensive care. There are numerous pulmonary and extrapulmonary indications for mechanical ventilation, and it is the underlying pathology that will determine the duration of ventilation required. Ventilation modes can broadly be classified as volume- or pressure-controlled, but modern ventilators combine the characteristics of both in order to complement the diverse requirements of individual patients. To avoid confusion, it is important to appreciate that there is no international consensus on the classification of ventilation modes. Ventilator manufacturers can use terms that are similar to those used by others that describe very different modes or have completely different names for similar modes. It is well established that ventilation in itself can cause or exacerbate lung injury, so the evidence-based lung-protective strategies should be adhered to. The term acute lung injury has been abolished, whilst a new definition and classification for the acute respiratory distress syndrome has been defined.
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47

Bandopadhyay, S., e R. Ganguli, a cura di. Mine Ventilation. CRC Press, 2004. http://dx.doi.org/10.1201/9781482283891.

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48

Muir, J.-F., N. Ambrosino e A. K. Simonds, a cura di. Noninvasive Ventilation. European Respiratory Society Journals Ltd, 2008. http://dx.doi.org/10.1183/1025448x.erm4108.

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49

Kennedy, Veronica. Ventilation tubes. A cura di John Phillips e Sally Erskine. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198834281.003.0071.

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50

Mechanical Ventilation. Jaypee Brothers Medical Publishers (P) Ltd., 2015. http://dx.doi.org/10.5005/jp/books/12476.

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