Evaluation of a new hyperbaric oxygen ventilator during pressure-controlled ventilation.

IF 0.8 4区医学 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Diving and hyperbaric medicine Pub Date : 2024-09-30 DOI:10.28920/dhm54.3.212-216

Cong Wang, Qiuhong Yu, Yaling Liu, Ziqi Ren, Ying Liu, Lianbi Xue

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Abstract

Introduction: The stability of a new hyperbaric ventilator (Shangrila590, Beijing Aeonmed Company, Beijing, China) at different clinically relevant pressures in a hyperbaric chamber during pressure-controlled ventilation (PCV) was investigated.

Methods: The ventilator was connected to a test lung in the multiplace hyperbaric chamber. The inspiratory pressure (PI) of the ventilator was set to 1.0, 1.5, 2.0, 2.5 and 3.0 kPa (approximately 10, 15, 20, 25 and 30 cmH₂O). The compliance and resistance of the test lung were set to 200 mL·kPa⁻¹ and 2 kPa·L⁻¹·s⁻¹, respectively. Experiments were conducted at 101, 203 and 284 kPa ambient pressure (1.0, 2.0 and 2.8 atmospheres absolute respectively). At each of the 5 PI values, the tidal volume (VT), peak inspiratory pressure (Ppeak) and peak inspiratory flow (Fpeak) displayed by the ventilator and the test lung were recorded for 20 cycles. Test lung data were considered the actual ventilation values. The ventilation data were compared among the three groups to evaluate the stability of the ventilator.

Results: At every PI, the Ppeak detected by the ventilator decreased slightly with increasing ambient pressure. The Fpeak values measured by the test lung decreased substantially as the ambient pressure increased. Nevertheless, the reduction in VT at 284 kPa and PI 30 cmH₂O (compared to performance at 101 kPa) was comparatively small (approximately 60 ml).

Conclusions: In PCV mode this ventilator provided relatively stable VT across clinically relevant PI values to ambient pressures as high as 284 kPa. However, because Fpeak decreases at higher ambient pressure, some user adjustment might be necessary for precise VT maintenance during clinical use at higher PIs and ambient pressures.

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在压力控制通气过程中对新型高压氧呼吸机进行评估。

简介研究了一种新型高压氧呼吸机（Shangrila590，北京 Aeonmed 公司，中国北京）在高压氧舱中进行压控通气（PCV）时在不同临床相关压力下的稳定性：方法：将呼吸机与多置位高压氧舱中的测试肺相连。呼吸机的吸气压力（PI）设定为 1.0、1.5、2.0、2.5 和 3.0 kPa（约 10、15、20、25 和 30 cmH₂O）。测试肺的顺应性和阻力分别设定为 200 mL-kPa-¹ 和 2 kPa-L-¹-s-¹。实验在 101、203 和 284 kPa 的环境压力下进行（绝对压力分别为 1.0、2.0 和 2.8 个大气压）。在 5 个 PI 值中的每个值下，呼吸机和测试肺显示的潮气量（VT）、吸气峰压（Ppeak）和吸气峰流（Fpeak）均被记录了 20 个周期。测试肺的数据被视为实际通气值。对三组通气数据进行比较，以评估呼吸机的稳定性：在每个 PI，呼吸机检测到的 Ppeak 值随着环境压力的增加而略有下降。测试肺测出的 Fpeak 值随着环境压力的增加而大幅下降。然而，在 284 kPa 和 PI 为 30 cmH₂O（与 101 kPa 时的性能相比）时，VT 的下降幅度相对较小（约 60 毫升）：在 PCV 模式下，该呼吸机可在临床相关的 PI 值范围内提供相对稳定的 VT，环境压力高达 284 kPa。然而，由于 Fpeak 在较高的环境压力下会降低，因此在较高的 PI 和环境压力下临床使用时，用户可能需要进行一些调整，以保持精确的 VT。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Diving and hyperbaric medicine 医学-公共卫生、环境卫生与职业卫生

CiteScore

1.70

自引率

22.20%

发文量

审稿时长

>12 weeks

期刊介绍： Diving and Hyperbaric Medicine (DHM) is the combined journal of the South Pacific Underwater Medicine Society (SPUMS) and the European Underwater and Baromedical Society (EUBS). It seeks to publish papers of high quality on all aspects of diving and hyperbaric medicine of interest to diving medical professionals, physicians of all specialties, scientists, members of the diving and hyperbaric industries, and divers. Manuscripts must be offered exclusively to Diving and Hyperbaric Medicine, unless clearly authenticated copyright exemption accompaniesthe manuscript. All manuscripts will be subject to peer review. Accepted contributions will also be subject to editing.