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J Clin Sleep Med. 2015 Apr 15;11(5):559-66. doi: 10.5664/jcsm.4704.
3
Driving pressure and survival in the acute respiratory distress syndrome.驱动压与急性呼吸窘迫综合征患者的生存。
N Engl J Med. 2015 Feb 19;372(8):747-55. doi: 10.1056/NEJMsa1410639.
4
Noninvasive monitoring of lung recruitment maneuvers in morbidly obese patients: the role of pulse oximetry and volumetric capnography.无创监测病态肥胖患者肺复张手法:脉搏血氧饱和度和容积描记二氧化碳图的作用。
Anesth Analg. 2014 Jan;118(1):137-44. doi: 10.1213/01.ane.0000438350.29240.08.
5
The impacts of super obesity versus morbid obesity on respiratory mechanics and simple hemodynamic parameters during bariatric surgery.超级肥胖与病态肥胖对减重手术期间呼吸力学和简单血液动力学参数的影响。
Obes Surg. 2013 Mar;23(3):379-83. doi: 10.1007/s11695-012-0783-0.
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Volume targeted versus pressure support non-invasive ventilation in patients with super obesity and chronic respiratory failure: a randomised controlled trial.容量目标型与压力支持型无创通气在超肥胖并慢性呼吸衰竭患者中的应用:一项随机对照试验。
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Impact of volume targeting on efficacy of bi-level non-invasive ventilation and sleep in obesity-hypoventilation.容量目标对肥胖低通气患者双水平无创通气疗效及睡眠的影响。
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Randomised trial of CPAP vs bilevel support in the treatment of obesity hypoventilation syndrome without severe nocturnal desaturation.持续气道正压通气(CPAP)与双水平支持治疗无严重夜间血氧饱和度降低的肥胖低通气综合征的随机试验
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呼气正压通气对无创通气时潮气量的影响。

Effect of expiratory positive airway pressure on tidal volume during non-invasive ventilation.

机构信息

Gateway B, Nottingham NHS Treatment Centre, Queens Medical Centre, Nottingham, UK.

出版信息

Chron Respir Dis. 2017 May;14(2):105-109. doi: 10.1177/1479972316674392. Epub 2016 Dec 6.

DOI:10.1177/1479972316674392
PMID:27923982
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5720219/
Abstract

During non-invasive ventilation (NIV), tidal volume ( V) will depend upon the difference between inspiratory and expiratory positive airway pressure (IPAP and EPAP, respectively), provided the respiratory muscles are relaxed and the lungs and chest wall therefore move along their passive pressure-volume curves. To test this hypothesis, we studied the effect of increasing EPAP during pressure-controlled modes of NIV in 30 long-term ventilator users (10 each with scoliosis, obesity hypoventilation or neuromuscular disorders). While maintaining the same IPAP, addition of 5 cmHO of EPAP reduced mean V by 167 ml; 10 cmHO reduced V by 367 ml. This pattern was seen in all three patient groups. EPAP has several potential advantages, for example maintaining upper airway patency, preventing basal atelectasis and facilitating triggering. EPAP does, however, appear to reduce V. Decreasing EPAP is an alternative to increasing IPAP if measurements of gas exchange during NIV indicate that ventilation is inadequate.

摘要

在无创通气(NIV)期间,潮气量(V)将取决于吸气和呼气正压气道压力(分别为 IPAP 和 EPAP)之间的差异,前提是呼吸肌放松,肺和胸壁因此沿着其被动压力-容量曲线移动。为了验证这一假设,我们研究了在 30 名长期呼吸机使用者(每组 10 名分别患有脊柱侧凸、肥胖性通气不足或神经肌肉疾病)的压力控制模式下增加 EPAP 对 NIV 的影响。在保持相同的 IPAP 的情况下,增加 5 cmHO 的 EPAP 可使平均 V 减少 167 ml;增加 10 cmHO 的 EPAP 可使 V 减少 367 ml。这种模式在所有三组患者中都有出现。EPAP 有几个潜在的优点,例如保持上呼吸道通畅,防止基底肺不张和促进触发。然而,EPAP 似乎确实会降低 V。如果在 NIV 期间进行气体交换的测量表明通气不足,则降低 EPAP 是增加 IPAP 的替代方法。