Non-invasive Ventilation and High-Flow Nasal Cannula in Head/Brain Injury with Risk of Pneumocephalus: Is There a Potential Application?

Güniz M Köksal, Çiğdem Akyol Beyoğlu, Mohamad El-Khatib, Manuel Á Gómez-Ríos, Peter Papadakos, Antonio M Esquinas
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Abstract

Non-invasive ventilation application in neurocritical care with risk of pneumocephalus is controversial. Non-invasive ventilation-related increased intrathoracic pressure increases intracranial pressure via direct transmission of intrathoracic pressure to the intracranial cavity. In addition, increased thoracic pressure decreases venous return to the heart and increases vena jugularis interna pressure, thereby increasing cerebral blood volume. Pneumocephalus is one of the major concerns after non-invasive ventilation application in head/brain trauma patients. Non-invasive mechanical ventilation may be performed in limited conditions in head trauma/brain surgery with appropriate and close monitoring. High-flow nasal cannula oxygen therapy can provide higher FiO2 as manifested by a larger increase in PaO2/FiO2 ratio and provide the theoretical basis in pneumocephalus because augmenting the PaO2 more effectively would accelerate nitrogen (N2) washout. As a result, non-invasive mechanical ventilation may be performed in limited manner in head trauma/ brain surgery with appropriate and close monitoring.

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无创通气和高流量鼻插管在颅脑损伤中是否有潜在的应用价值?
无创通气在有气颅风险的神经危重症护理中的应用存在争议。无创通气相关的胸内压力升高通过将胸内压力直接传递到颅内腔而增加颅内压。此外,胸压升高减少静脉回流心脏,增加颈静脉内压,从而增加脑血容量。颅脑外伤患者无创通气后的主要问题之一是脑气。在适当和密切的监测下,在有限的条件下,可以对头部创伤/脑部手术患者进行无创机械通气。高流量鼻插管氧疗可提供更高的FiO2,表现为PaO2/FiO2比值的较大增加,更有效地增加PaO2可加速氮(N2)冲洗,为气脑提供理论依据。因此,在适当和密切的监测下,在颅脑外伤/脑外科手术中可以有限地进行无创机械通气。
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