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Thorax. 1993 Apr;48(4):354-9. doi: 10.1136/thx.48.4.354.
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本文引用的文献

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Measuring ventilatory muscle endurance in humans as sustainable inspiratory pressure.将人体通气肌耐力测量为可持续吸气压力。
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Maximal static respiratory pressures in generalized neuromuscular disease.广义神经肌肉疾病中的最大静态呼吸压力
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Sustained maximum voluntary ventilation.持续最大自主通气量
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Effects of breathing pattern on inspiratory muscle endurance in humans.呼吸模式对人体吸气肌耐力的影响。
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Pressure-time product, flow, and oxygen cost of resistive breathing in humans.人体阻力呼吸的压力-时间乘积、流量及氧耗
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Measurement of inspiratory muscle performance with incremental threshold loading.
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Statistical methods for assessing agreement between two methods of clinical measurement.评估两种临床测量方法之间一致性的统计方法。
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Comparison of two-minute incremental threshold loading and maximal loading as measures of respiratory muscle endurance.
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Diaphragmatic fatigue in man.
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Fatigue of inspiratory muscles and their synergic behavior.吸气肌疲劳及其协同行为。
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采用递增阈值负荷法测量吸气肌功能:两种技术的比较

Measurement of inspiratory muscle performance with incremental threshold loading: a comparison of two techniques.

作者信息

Bardsley P A, Bentley S, Hall H S, Singh S J, Evans D H, Morgan M D

机构信息

Department of Respiratory Medicine, Glenfield General Hospital, Leicester.

出版信息

Thorax. 1993 Apr;48(4):354-9. doi: 10.1136/thx.48.4.354.

DOI:10.1136/thx.48.4.354
PMID:8511732
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC464432/
Abstract

BACKGROUND

Incremental threshold loading (ITL) is a test of inspiratory muscle performance which is usually performed by breathing through a weighted inspiratory plunger, the load on the inspiratory muscles being increased by externally adding weights to the intake valve. This is not a true threshold device and may be inaccurate. This method was compared with a true threshold device consisting of a solenoid valve which only opens to supply air at a predetermined negative mouth pressure.

METHODS

Six naive, normal subjects (three men and three women) aged 22-24 years underwent three tests using each system. The inspiratory loads were increased every minute by equivalent amounts, -10 cm H2O with the solenoid valve and by 50 g with the weighted plunger, until the subjects could not inspire or sustain inspiration for a full minute. Six experienced subjects (four men and two women) aged 23-41 years were subsequently randomised to perform ITL with the solenoid valve, twice with the breathing pattern fixed and twice free.

RESULTS

The solenoid valve generated a more accurate mouth pressure response and was less variable at higher loads than the weighted plunger. The work performed (expressed as the pressure-time product) was less with the solenoid valve but was more reproducible. ITL with the solenoid valve was not influenced by controlling the breathing pattern of the subjects.

CONCLUSIONS

The solenoid valve has several features that make it superior to the weighted plunger as a device for ITL. It generates a more accurate mouth pressure response which is less variable at higher loads. Increases in load are smoother and quicker to introduce. ITL with the solenoid valve is not influenced by varying breathing patterns and does not require any external regulation.

摘要

背景

递增阈值负荷(ITL)是一种吸气肌功能测试,通常通过一个加重的吸气活塞进行呼吸来完成,吸气肌上的负荷通过在进气阀上额外增加重量来增加。这不是一个真正的阈值装置,可能不准确。将该方法与一种由电磁阀组成的真正阈值装置进行比较,该电磁阀仅在预定的负口腔压力下打开以供应空气。

方法

6名年龄在22 - 24岁的未经训练的正常受试者(3名男性和3名女性)使用每个系统进行三项测试。吸气负荷每分钟等量增加,使用电磁阀时增加-10 cm H₂O,使用加重活塞时增加50 g,直到受试者无法吸气或维持吸气满一分钟。随后,6名年龄在23 - 41岁的有经验的受试者(4名男性和2名女性)被随机分配使用电磁阀进行ITL测试,两次呼吸模式固定,两次自由呼吸。

结果

与加重活塞相比,电磁阀产生的口腔压力反应更准确,在较高负荷下变化更小。使用电磁阀时所做的功(以压力-时间乘积表示)更少,但重复性更好。使用电磁阀进行ITL不受控制受试者呼吸模式的影响。

结论

作为一种用于ITL的装置,电磁阀具有几个使其优于加重活塞的特点。它产生更准确的口腔压力反应,在较高负荷下变化更小。负荷增加更平稳且引入更快。使用电磁阀进行ITL不受呼吸模式变化的影响,也不需要任何外部调节。