急诊科哮喘患者治疗前后二氧化碳波形特征

Tjokorda Gde, Tirta Nindhia, M. B. Malarvili, Thalitakum Hutajulu, Nabiel Rafa Angel, Bhaswara, Ni Made Ary, E. D. Wirastuti
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引用次数: 0

摘要

二氧化碳造影是一种测量人体呼吸过程中呼出的二氧化碳的技术,它在医学的各个领域都显示出很好的应用前景,包括监测气道通畅、心肺复苏术的质量以及作为异常气体交换的指标。二氧化碳(co2)波形的定量表征已被潜在地证明可以指示呼吸气流的变化,这可能在临床上用于区分哮喘的严重程度。必须通过识别急性哮喘发作期间显著变化的co2波形指标来评估其潜在的临床应用。因此,我们的目标是评估CO 2波形指数(面积和斜率),从三个不同的区域,向上呼气(4-10毫米汞柱和11-15毫米汞柱)和肺泡期计算提取预处理和后处理期间使用新开发的人体呼吸,二氧化碳(CO 2)测量装置。采用方便抽样的方法,我们招募了23例哮喘患者。采用信号处理算法进行自动分割和特征计算,并采用配对样本t检验和盒须图来了解干预前后特征的显著性差异。我们发现两个参数(面积和斜率)在呼气期下部(4-10 mmHg, p 0.05)最显著,斜率(p < 0.05)显著。因此,将上述特征纳入最新开发的设备中,可能有可能作为一种独立于患者的方法,在临床环境内外评估呼吸窘迫状况,如哮喘。
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Carbon Dioxide Waveform Features During Pre and Post Treatment Asthmatic Patient in Emergency Department
: Capnography, measured respired carbon dioxide in human respiration, is showing promising use in various areas of medicine, including monitoring of airway patency, quality of CPR efforts, and as indicators of abnormal gas exchange. The quantitative characterization of the carbon dioxide (CO 2 ) waveforms has potentially been shown to indicate changes in respiratory airflow, which may be clinical use in discriminating asthmatic severity. The potential clinical application must be evaluated by identifying CO 2 waveform indices which change significantly during an acute asthmatic attack . Hence, we aim to assess the CO 2 waveform indices (Area and Slope), extracted computationally from three different regions, upward expiratory (4-10 mmHg and 11-15 mmHg) and alveolar phase during pre-and post-treatment using newly developed human respiration, carbon dioxide (CO 2 ) measurement device. We recruited 23 asthmatic patients via convenience sampling method. A signal processing algorithm was applied for automatic segmentation and feature computations, and a paired sample t-test, and Box-whisker plot was performed to know the significant difference of features during the pre-and -post intervention. We found that both the parameters (Area and Slope) were most notable for lower part of expiratory phase (4-10 mmHg, p<0.05), followed by the alveolar period (p<0.05), while upper part of upward expiratory phase (11-15 mmHg) was insignificant for Area (p > 0.05) and significant for slope (p < 0.05). Thus, the inclusion of the features above into the lately developed device may have the potential for the assessment of respiratory distress conditions like asthma in and out of clinical settings as a patient-independent method.
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来源期刊
Journal of Computational Technologies
Journal of Computational Technologies Mathematics-Applied Mathematics
CiteScore
0.60
自引率
0.00%
发文量
37
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