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Livres sur le sujet « High Frequency Percussive Ventilation »

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Auteur : Grafiati
Publié le 11 mars 2023

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1

1949-, Chiaranda M., et Giron G. P. 1934-, dir. High-frequency jet ventilation : Experimental and clinical studies. Padua : Piccin, 1985.

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2

C, Carlon Graziano, et Howland William S. 1919-, dir. High-frequency ventilation in intensive care and during surgery. New York : Dekker, 1985.

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3

François, Lemaire, dir. Mechanical ventilation. Berlin : Springer-Verlag, 1991.

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4

Kenton, Charlotte. High frequency jet ventilation (HFJV) : January 1983 through April 1985, 94 citations. [Bethesda, Md.] : U.S. Dept. of Health and Human Services, Public Health Service, National Institutes of Health, 1985.

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5

Hamilton, Lyle, Josef Neu et Jerry Calkins. High Frequency Ventilation. Sous la direction de Lyle H. Hamilton, M. D. Josef Neu et Jerry M. Calkins. CRC Press, 2019. http://dx.doi.org/10.1201/9780429270536.

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6

1924-, Hamilton Lyle H., Neu Josef et Calkins Jerry M, dir. High frequency ventilation. Boca Raton, Fla : CRC Press, 1986.

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7

Neu, Josef, Lyle H. Hamilton et Jerry M. Calkins. High Frequency Ventilation. Taylor & Francis Group, 2019.

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8

Neu, Josef, Lyle H. Hamilton et Jerry M. Calkins. High Frequency Ventilation. Taylor & Francis Group, 2019.

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9

Neu, Josef, Lyle H. Hamilton et Jerry M. Calkins. High Frequency Ventilation. Taylor & Francis Group, 2019.

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10

Neu, Josef, Lyle H. Hamilton et Jerry M. Calkins. High Frequency Ventilation. Taylor & Francis Group, 2019.

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11

Neu, Josef, Lyle H. Hamilton et Jerry M. Calkins. High Frequency Ventilation. Taylor & Francis Group, 2019.

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12

Cuartero, Mireia, et Niall D. Ferguson. High-frequency ventilation and oscillation. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0098.

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High-frequency oscillatory ventilation (HFOV) is a key member of the family of modes called high-frequency ventilation and achieves adequate alveolar ventilation despite using very low tidal volumes, often below the dead space volume, at frequencies significantly above normal physiological values. It has been proposed as a potential protective ventilatory strategy, delivering minimal alveolar tidal stretch, while also providing continuous lung recruitment. HFOV has been successfully used in neonatal and paediatric intensive care units over the last 25 years. Since the late 1990s adults with acute respiratory distress syndrome have been treated using HFOV. In adults, several observational studies have shown improved oxygenation in patients with refractory hypoxaemia when HFOV was used as rescue therapy. Several small older trials had also suggested a mortality benefit with HFOV, but two recent randomized control trials in adults with ARDS have shed new light on this area. These trials not show benefit, and in one of them a suggestion of harm was seen with increased mortality for HFOV compared with protective conventional mechanical ventilation strategies (tidal volume target 6 mL/kg with higher positive end-expiratory pressure). While these findings do not necessarily apply to patients with severe hypoxaemia failing conventional ventilation, they increase uncertainty about the role of HFOV even in these patients.
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13

High-frequency jet ventilation : Experimental and clinical studies. Padua : Piccin/Ishiyaki, 1985.

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14

Sjöstrand, Ulf H., R. Brian Smith et P. A. Scheck. Perspectives in High Frequency Ventilation : Proceedings of the International Symposium Held at Erasmus University, Rotterdam, 17-18 September 1982. Springer London, Limited, 2012.

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15

Durante, William. The effects of positive pressure ventilation with high frequency ventilation and positive end-respiratory pressure on cardiovascular indices and on circulating levels of prostacyclin and thromboxane A r. 1985.

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16

Scheck, P. A. Perspectives in High Frequency Ventilation : Proceedings of the International Symposium held at Erasmus University, Rotterdam, 17-18 September 1982 ... Critical Care Medicine and Anaesthesiology). Springer, 2012.

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17

Lee, Jan Hau, et Ira M. Cheifetz. Respiratory Failure and Mechanical Ventilation. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199918027.003.0006.

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This chapter on respiratory failure and mechanical ventilation provides essential information about how to support children with severe respiratory disorders. The authors discuss multiple modes of respiratory support, including high-flow nasal cannula oxygen, noninvasive ventilation with continuous positive airway pressure and bilevel positive airway pressure, as well as conventional, high-frequency, and alternative modes of invasive ventilation. The section on invasive mechanical ventilation includes key information regarding gas exchange goals, modes of ventilation, patient–ventilator interactions, ventilator parameters (including tidal volume, end-expiratory pressure, and peak plateau pressure), extubation readiness testing, and troubleshooting. The authors also provide the new consensus definition of pediatric acute respiratory distress syndrome. Also included are multiple figures and indispensable information on adjunctive therapies (inhaled nitric oxide, surfactant, prone positioning, and corticosteroids) and respiratory monitoring (including capnography and airway graphics analysis).
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18

Garner, Justin, et David Treacher. Intensive care unit and ventilation. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199657742.003.0009.

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Acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) are characterized by rapidly developing hypoxaemic respiratory failure and bilateral pulmonary infiltrates on chest X-ray. ALI/ARDS are a relatively frequent diagnosis in protracted-stay patients in the intensive care unit. The pathology is a non-specific response to a wide variety of insults. Impaired gas exchange, ventilation-perfusion mismatch, and reduced compliance ensue. Mechanical ventilation is the mainstay of management, along with treatment of the underlying cause. Mortality remains very high at around 40%. The condition is challenging to treat. Injury to the lungs, indistinguishable from that of ARDS, has been attributed to the use of excessive tidal volumes, pressures, and repeated opening and collapsing of alveoli. Lung-protective strategies aim to minimize the effects of ventilator-induced lung injury. Use of low tidal volume ventilation has been shown to improve mortality. Emerging ventilatory therapies include high-frequency oscillatory ventilation and extracorporeal membrane oxygenation.
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19

Fox, Grenville, Nicholas Hoque et Timothy Watts. Respiratory support. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198703952.003.0008.

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This chapter includes sections on various modes of both invasive (i.e. via an endotracheal tube) and non-invasive respiratory support in neonates, including conventional ventilation, volume-targeted ventilation, high-frequency oscillatory ventilation (HFOV), extracorporeal membrane oxygenation (ECMO), nasal continuous positive airways pressure (nCPAP), nasal intermittent positive pressure ventilation (nIPPV), and high and low-flow nasal cannula oxygen. There is also a brief section on the care of babies with a tracheostomy as well as management of babies requiring home oxygen. Reference is made to the most recent European Consensus Guidelines. A separate chapter on neonatal respiratory problems (Chapter 7) gives further detail on common lung pathologies requiring respiratory support in neonates.
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20

Tobin, Martin J. Assessment and technique of weaning. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0102.

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Several studies suggest that most patients weaned successfully could have tolerated the weaning attempts had they been initiated a day or so earlier. Such data emphasize the need for the early use of screening tests. A screening test should have a high sensitivity. The ratio of respiratory frequency to tidal volume has been evaluated in more than 25 studies and its average sensitivity is 0.89. Weaning involves undertaking three diagnostic tests in sequence, measuring predictors, a weaning trial, and a trial of extubation. Of the techniques used for a weaning trial, intermittent mandatory ventilation has been repeatedly shown to be inferior to the use of T-tube trials or pressure support. Six randomized trials have evaluated the usefulness of protocols in the management of weaning. Three revealed no benefit—two had major methodological problems, leaving only one supporting the use of protocols.
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