一种具有相对低流量的高流量鼻导管系统，能在由3D打印机制作的精密呼吸模型中有效地从解剖无效腔中洗出二氧化碳。

A high-flow nasal cannula system with relatively low flow effectively washes out CO from the anatomical dead space in a sophisticated respiratory model made by a 3D printer.

作者信息

Onodera Yu, Akimoto Ryo, Suzuki Hiroto, Okada Masayuki, Nakane Masaki, Kawamae Kaneyuki

机构信息

Department of Anesthesiology, Faculty of Medicine, Yamagata University, 2-2-2 Iidanishi, Yamagata City, Yamagata Prefecture, 990-9585, Japan.

出版信息

Intensive Care Med Exp. 2018 Mar 15;6(1):7. doi: 10.1186/s40635-018-0172-7.

DOI:10.1186/s40635-018-0172-7

PMID:29546563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5854566/

Abstract

BACKGROUND

Although clinical studies of the high-flow nasal cannula (HFNC) and its effect on positive end-expiratory pressure (PEEP) have been done, the washout effect has not been well evaluated. Therefore, we made an experimental respiratory model to evaluate the respiratory physiological effect of HFNC.

METHODS

An airway model was made by a 3D printer using the craniocervical 3D-CT data of a healthy 32-year-old male. CO was infused into four respiratory lung models (normal-lung, open- and closed-mouth models; restrictive- and obstructive-lung, open-mouth models) to maintain the partial pressure of end-tidal CO (PCO) at 40 mmHg. HFNC flow was changed from 10 to 60 L/min. Capnograms were recorded at the upper pharynx, oral cavity, subglottic, and inlet sites of each lung model.

RESULTS

With the normal-lung, open-mouth model, 10 L/min of HFNC flow decreased the subglottic PCO to 30 mmHg. Increasing the HFNC flow did not further decrease the subglottic PCO. With the normal-lung, closed-mouth model, HFNC flow of 40 L/min was required to decrease the PCO at all sites. Subglottic PCO reached 30 mmHg with an HFNC flow of 60 L/min. In the obstructive-lung, open-mouth model, PCO at all sites had the same trend as in the normal-lung, open-mouth model. In the restrictive-lung, open-mouth model, 20 L/min of HFNC flow decreased the subglottic PCO to 25 mmHg, and it did not decrease further. As HFNC flow was increased, PEEP up to 7 cmHO was gradually generated in the open-mouth models and up to 17 cmHO in the normal-lung, closed-mouth model.

CONCLUSIONS

The washout effect of the HFNC was effective with relatively low flow in the open-mouth models. The closed-mouth model needed more flow to generate a washout effect. Therefore, HFNC flow should be considered based on the need for the washout effect or PEEP.

摘要

背景

尽管已经对高流量鼻导管（HFNC）及其对呼气末正压（PEEP）的影响进行了临床研究，但冲洗效果尚未得到充分评估。因此，我们制作了一个实验性呼吸模型来评估HFNC的呼吸生理效应。

方法

使用一名32岁健康男性的颅颈3D-CT数据通过3D打印机制作气道模型。将一氧化碳注入四个呼吸肺模型（正常肺、张口和闭口模型；限制性肺和阻塞性肺、张口模型），以将呼气末二氧化碳分压（PCO）维持在40 mmHg。HFNC流量从10 L/min变化到60 L/min。在每个肺模型的上咽部、口腔、声门下和入口部位记录二氧化碳波形图。

结果

在正常肺、张口模型中，10 L/min的HFNC流量可将声门下PCO降至30 mmHg。增加HFNC流量并未进一步降低声门下PCO。在正常肺、闭口模型中，需要40 L/min的HFNC流量才能降低所有部位的PCO。HFNC流量为60 L/min时，声门下PCO达到30 mmHg。在阻塞性肺、张口模型中，所有部位的PCO趋势与正常肺、张口模型相同。在限制性肺、张口模型中，20 L/min的HFNC流量可将声门下PCO降至25 mmHg，且不再进一步降低。随着HFNC流量增加，张口模型中逐渐产生高达7 cmH₂O的PEEP，正常肺、闭口模型中高达17 cmH₂O。

结论

HFNC的冲洗效果在张口模型中以相对较低的流量有效。闭口模型需要更多流量来产生冲洗效果。因此，应根据冲洗效果或PEEP的需求考虑HFNC流量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b505/5854566/1a21fc1dd030/40635_2018_172_Fig1_HTML.jpg

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一种具有相对低流量的高流量鼻导管系统，能在由3D打印机制作的精密呼吸模型中有效地从解剖无效腔中洗出二氧化碳。

A high-flow nasal cannula system with relatively low flow effectively washes out CO from the anatomical dead space in a sophisticated respiratory model made by a 3D printer.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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