单次持续充气后通气可导致窒息近足月羔羊快速心肺复苏，但会引起脑血管渗漏。

Single Sustained Inflation followed by Ventilation Leads to Rapid Cardiorespiratory Recovery but Causes Cerebral Vascular Leakage in Asphyxiated Near-Term Lambs.

作者信息

Sobotka Kristina S, Hooper Stuart B, Crossley Kelly J, Ong Tracey, Schmölzer Georg M, Barton Samantha K, McDougall Annie R A, Miller Suzie L, Tolcos Mary, Klingenberg Claus, Polglase Graeme R

机构信息

The Ritchie Centre, Monash University, Melbourne, Australia.

Institute of Neuroscience and Physiology, The Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden.

出版信息

PLoS One. 2016 Jan 14;11(1):e0146574. doi: 10.1371/journal.pone.0146574. eCollection 2016.

DOI:10.1371/journal.pone.0146574

PMID:26765258

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4713062/

Abstract

BACKGROUND

A sustained inflation (SI) rapidly restores cardiac function in asphyxic, bradycardic newborns but its effects on cerebral haemodynamics and brain injury are unknown. We determined the effect of different SI strategies on carotid blood flow (CaBF) and cerebral vascular integrity in asphyxiated near-term lambs.

METHODS

Lambs were instrumented and delivered at 139 ± 2 d gestation and asphyxia was induced by delaying ventilation onset. Lambs were randomised to receive 5 consecutive 3 s SI (multiple SI; n = 6), a single 30 s SI (single SI; n = 6) or conventional ventilation (no SI; n = 6). Ventilation continued for 30 min in all lambs while CaBF and respiratory function parameters were recorded. Brains were assessed for gross histopathology and vascular leakage.

RESULTS

CaBF increased more rapidly and to a greater extent during a single SI (p = 0.01), which then decreased below both other groups by 10 min, due to a higher cerebral oxygen delivery (p = 0.01). Blood brain barrier disruption was increased in single SI lambs as indicated by increased numbers of blood vessel profiles with plasma protein extravasation (p = 0.001) in the cerebral cortex. There were no differences in CaBF or cerebral oxygen delivery between the multiple SI and no SI lambs.

CONCLUSIONS

Ventilation with an initial single 30 s SI improves circulatory recovery, but is associated with greater disruption of blood brain barrier function, which may exacerbate brain injury suffered by asphyxiated newborns. This injury may occur as a direct result of the initial SI or to the higher tidal volumes delivered during subsequent ventilation.

摘要

背景

持续充气（SI）可迅速恢复窒息、心动过缓新生儿的心脏功能，但其对脑血流动力学和脑损伤的影响尚不清楚。我们确定了不同SI策略对窒息近足月羔羊颈动脉血流（CaBF）和脑血管完整性的影响。

方法

羔羊在妊娠139±2天时进行仪器植入并分娩，通过延迟通气开始诱导窒息。羔羊被随机分为接受连续5次3秒的SI（多次SI；n = 6）、单次30秒的SI（单次SI；n = 6）或传统通气（无SI；n = 6）。所有羔羊通气持续30分钟，同时记录CaBF和呼吸功能参数。对大脑进行大体组织病理学和血管渗漏评估。

结果

单次SI期间CaBF增加更快且幅度更大（p = 0.01），然后在10分钟时降至其他两组以下，这是由于脑氧输送更高（p = 0.01）。单次SI羔羊的血脑屏障破坏增加，表现为大脑皮质中血浆蛋白外渗的血管轮廓数量增加（p = 0.001）。多次SI和无SI羔羊之间的CaBF或脑氧输送没有差异。

结论

初始单次30秒的SI通气可改善循环恢复，但与血脑屏障功能的更大破坏有关，这可能会加重窒息新生儿的脑损伤。这种损伤可能是初始SI的直接结果，也可能是随后通气期间输送的潮气量更高所致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b026/4713062/74d7e5ea9104/pone.0146574.g001.jpg

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单次持续充气后通气可导致窒息近足月羔羊快速心肺复苏，但会引起脑血管渗漏。

Single Sustained Inflation followed by Ventilation Leads to Rapid Cardiorespiratory Recovery but Causes Cerebral Vascular Leakage in Asphyxiated Near-Term Lambs.

作者信息

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