The contribution of patients' lung function to the inspiratory airflow rate achievable through a DPIs' simulator reproducing different intrinsic resistance rates.

IF 2.3
Multidisciplinary Respiratory Medicine Pub Date : 2021-04-15 eCollection Date: 2021-01-15 DOI:10.4081/mrm.2021.752
Roberto W Dal Negro, Paola Turco, Massimiliano Povero
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引用次数: 3

Abstract

Background: The performance of DPIs depends on several physiological (patient-dependent) and technological (device-dependent) factors. The inspiratory airflow rate is the only active force generated and operating in the system for inducing the required pressure drop and eliciting the resistance-induced turbulence needed to disaggregate the powder through the device. The present study aimed to investigate in the most prevalent respiratory disorders whether and at what extent the inspiratory airflow rate achievable when inhaling through a DPIs' simulator reproducing different intrinsic resistance regimens (low, mid, and high resistance) is affected by peculiar changes in lung function and/or can be predicted by any specific lung function parameter.

Methods: The inspiratory airflow rate was assessed in randomized order by the In-Check DIAL G16 at low, mid, and high resistance regimens in a sample of consecutive subjects at recruitment. Independent predictors of the probability to achieve the expected inhalation airflow rate were investigated by means of a multivariate logistic regression model, specific to the disease.

Results: A total of 114 subjects were recruited (asthmatics n=30; COPD n=50, restrictive patients n=16, and normal subjects n=18). The mean values of the expected inspiratory airflow rate achieved proved significantly different within the groups (p<0.0001), independently of sex and age. In asthmatics and in COPD patients, the mid-resistance regimen proved highly associated with the highest mean values of airflow rates obtained. Low- and high-resistance regimens were significantly less likely to consent to achieve the expected level of inspiratory airflow rate (OR<1 in all comparisons). Restrictive patients performed the lowest airflow rates at the low-resistance regimen (p<0.01). Unlike FEV1, RV in asthmatics (OR=1.008); RV and IRaw in COPD (OR=0.587 and OR=0.901, respectively), and FIF and TLC in restrictive patients (OR=1.041, and OR=0.962, respectively) proved the only sensitive predictors of the inspiratory airflow rate achievable at the different resistive regimens.

Conclusions: The intrinsic resistive regimen of DPIs can play a critical role. The patients' lung function profile also affects the extent of their inhalation airflow rate. Some specific lung function parameters (such as: FIF; RV; IRaw; TLC, but not FEV1) may be regarded as specific predictors in real-life. In order to optimize the DPI choice, further to the device's technology, also the current patients' lung function should be properly investigated and carefully assessed.

Abstract Image

Abstract Image

患者肺功能对吸气气流率的贡献通过dpi模拟器再现不同的固有阻力率。
背景:dpi的性能取决于几个生理(患者依赖)和技术(设备依赖)因素。吸气气流速率是系统中产生和运行的唯一的动力,用于诱导所需的压降和引起通过装置分解粉末所需的阻力诱导湍流。本研究旨在探讨在最常见的呼吸系统疾病中,通过dpi模拟器模拟不同的内在阻力方案(低、中、高阻力)吸入时可达到的吸气气流速率是否以及在多大程度上受到肺功能特殊变化的影响和/或可以通过任何特定的肺功能参数来预测。方法:在招募时连续取样的受试者中,采用in - check DIAL G16在低、中、高阻力方案下按随机顺序评估吸气气流速率。通过针对该疾病的多变量logistic回归模型,研究了达到预期吸入气流速率的概率的独立预测因子。结果:共纳入114例受试者(哮喘患者30例;COPD患者50例,限制性患者16例,正常人18例)。预期吸入气流率的平均值在两组间差异有统计学意义(p < 0.01, p < 0.01);COPD患者的RV和IRaw (OR分别为0.587和0.901),限制性患者的FIF和TLC (OR分别为1.041和0.962)是不同阻力方案下吸气气流率的唯一敏感预测指标。结论:内阻治疗方案在DPIs中起关键作用。患者的肺功能也影响其吸入气流速率的大小。一些特定的肺功能参数(如:FIF;房车;IRaw;在现实生活中,TLC(而非FEV1)可能被认为是具体的预测指标。为了优化DPI的选择,除了设备的技术外,还应该对当前患者的肺功能进行适当的调查和仔细的评估。
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
Multidisciplinary Respiratory Medicine
Multidisciplinary Respiratory Medicine Medicine-Pulmonary and Respiratory Medicine
自引率
0.00%
发文量
23
期刊介绍: Multidisciplinary Respiratory Medicine is the official journal of the Italian Respiratory Society - Società Italiana di Pneumologia (IRS/SIP). The journal publishes on all aspects of respiratory medicine and related fields, with a particular focus on interdisciplinary and translational research. The interdisciplinary nature of the journal provides a unique opportunity for researchers, clinicians and healthcare professionals across specialties to collaborate and exchange information. The journal provides a high visibility platform for the publication and dissemination of top quality original scientific articles, reviews and important position papers documenting clinical and experimental advances.
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