镇静、体位改变及持续气道正压通气对健康马驹通气分布的影响

Impact of sedation, body position change and continuous positive airway pressure on distribution of ventilation in healthy foals.

作者信息

Sacks Muriel, Raidal Sharanne, Catanchin Chee Sum Melanie, Hosgood Giselle, Mosing Martina

机构信息

School of Veterinary Medicine, College of Science, Health, Engineering and Education, Murdoch University, Perth, WA, Australia.

School of Animal, Environmental and Veterinary Sciences, Charles Sturt University, Wagga Wagga, NSW, Australia.

出版信息

Front Vet Sci. 2023 Jan 13;9:1075791. doi: 10.3389/fvets.2022.1075791. eCollection 2022.

DOI:10.3389/fvets.2022.1075791

PMID:36713868

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9880457/

Abstract

BACKGROUND

This study aimed to compare the distribution of ventilation measured by electrical impedance tomography (EIT), in foals under varying clinical conditions of sedation, postural changes, and continuous positive airway pressure (CPAP). To support the interpretation of EIT variables, specific spirometry data and F-shunt calculation were also assessed.

MATERIALS AND METHODS

Six healthy Thoroughbred foals were recruited for this sequential experimental study. EIT and spirometry data was recorded: (1) before and after diazepam-sedation, (2) after moving from standing to right lateral recumbency, (3) in dorsal recumbency during no CPAP (CPAP) and increasing levels of CPAP of 4, 7, and 10 cmHO (CPAP, , , respectively). Ventral to dorsal (COV) and right to left (COV) center of ventilation, silent spaces, tidal impedance variation, regional ventilation distribution variables and right to left lung ventilation ratio (R:L) were extracted. Minute ventilation was calculated from tidal volume (V) and respiratory rate. F-Shunt was calculated from results of arterial blood gas analysis. Statistical analysis was performed using linear mixed effects models (significance determined at < 0.05).

RESULTS

(1) Respiratory rate was lower after sedation ( = 0.0004). (2) In right lateral recumbency (compared to standing), the COV ( = 0.0012), COV ( = 0.0057), left centro-dorsal ( = 0.0071) and dorsal ( < 0.0001) regional ventilation were higher, while the right ventral ( = 0.0016) and dorsal ( = 0.0145) regional ventilation, and R:L ( = 0.0017) were lower. (3) Data of two foals for CPAP was excluded from statistical analysis due to prolonged apnea. Stepwise increase of CPAP led to increases of COV ( = 0.0028) and V ( = 0.0011). A reduction of respiratory rate was detected with increasing CPAP levels ( < 0.0001).

CONCLUSIONS

(1) In healthy foals, diazepam administration did not alter distribution of ventilation or minute ventilation, (2) lateral recumbency results in collapse of dependent areas of the lung, and (3) the use of CPAP in dorsal recumbency at increasing pressures improves ventilation in dependent regions, suggesting improvement of ventilation-perfusion mismatch.

摘要

背景

本研究旨在比较在不同临床条件下（镇静、体位改变和持续气道正压通气（CPAP）），通过电阻抗断层扫描（EIT）测量的新生马驹通气分布情况。为辅助解读EIT变量，还评估了特定的肺量计数据和分流率（F - 分流）计算结果。

材料与方法

招募6匹健康的纯种新生马驹进行这项序贯实验研究。记录EIT和肺量计数据：（1）地西泮镇静前后；（2）从站立位转为右侧卧位后；（3）仰卧位时，在无CPAP（CPAP0）以及CPAP水平分别为4、7和10 cmH₂O（CPAP4、CPAP7、CPAP10）时。提取腹背（COVVD）和左右（COVLH）通气中心、无声区、潮气量阻抗变化、区域通气分布变量以及左右肺通气比（R:L）。根据潮气量（V）和呼吸频率计算分钟通气量。根据动脉血气分析结果计算F - 分流。使用线性混合效应模型进行统计分析（显著性水平设定为P < 0.05）。

结果

（1）镇静后呼吸频率降低（P = 0.0004）。（）右侧卧位时（与站立位相比），腹背通气中心（P = 0.0012）、左右通气中心（P = 0.0057）、左中背部（P = 0.0071）和背部（P < 0.0001）区域通气增加，而右侧腹侧（P = 0.0016）和背部（P = 0.0145）区域通气以及R:L（P = 0.0017）降低。（3）由于长时间呼吸暂停，2匹新生马驹的CPAP数据被排除在统计分析之外。CPAP逐步增加导致腹背通气中心（P = 0.0028）和潮气量（P = 0.0011）增加。随着CPAP水平升高，呼吸频率降低（P < 0.0001）。

结论

（1）在健康新生马驹中，使用地西泮不会改变通气分布或分钟通气量；（2）侧卧会导致肺依赖区域萎陷；（3）仰卧位时使用CPAP并增加压力可改善依赖区域的通气，提示通气 - 灌注不匹配得到改善。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/57cd/9880457/08f97aed7885/fvets-09-1075791-g0001.jpg

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镇静、体位改变及持续气道正压通气对健康马驹通气分布的影响

Impact of sedation, body position change and continuous positive airway pressure on distribution of ventilation in healthy foals.

作者信息

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景

材料与方法

结果

结论

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