呼吸性消瘦的定义与最大呼气流量率。

Definition of Respiratory Sarcopenia With Peak Expiratory Flow Rate.

机构信息

Department of Physical Therapy, Takasaki University of Health and Welfare, Gunma, Japan; Research Team for Human Care, Tokyo Metropolitan Institute of Gerontology, Tokyo, Japan.

Research Team for Human Care, Tokyo Metropolitan Institute of Gerontology, Tokyo, Japan.

出版信息

J Am Med Dir Assoc. 2019 Aug;20(8):1021-1025. doi: 10.1016/j.jamda.2018.12.013. Epub 2019 Feb 6.

DOI:10.1016/j.jamda.2018.12.013

PMID:30737167

Abstract

OBJECTIVES

Respiratory muscle strength decreases with advancing age, and respiratory muscle dysfunction may indicate respiratory sarcopenia. However, there is no consensus regarding the definition of respiratory sarcopenia. We aimed to create a definition of respiratory sarcopenia based on the peak expiratory flow rate (PEFR).

DESIGN

Cross-sectional study.

SETTING AND PARTICIPANTS

Community-based study including 681 community-dwelling older people.

METHODS

Body composition, spirometry, grip strength, and walking speed were measured. Participants reported comorbidities and long-term insurance certification. Conventional sarcopenia was defined using skeletal muscle mass, grip strength, and walking speed adjusted for the Japanese population. Receiver operating characteristic (ROC) curve analysis of the cut-off values of PEFR for conventional sarcopenia and long-term care insurance certification were performed for both sexes without airway obstruction. In the ROC curve analysis, potential cut-off values were lowest quartile, lowest quintiles, and the standard deviation of PEFR. Multiple logistic regression analysis was performed with respiratory sarcopenia as a dependent variable defined by each cut-off value and other variants as independent variables.

RESULTS

The ROC curve analysis for conventional sarcopenia and long-term care insurance certification showed significance for both sexes, and we determined cut-off values from those results. The multiple logistic regression model using PEFR values 1 standard deviation below the mean had the highest accuracy; thus, we accepted these cut-off values (4.40 L/s for men, 3.21 L/s for women) for the definition of respiratory sarcopenia.

CONCLUSIONS/IMPLICATIONS: The definition of respiratory sarcopenia based on PEFR was useful and correlated with conventional sarcopenia and long-term care insurance certification among community-dwelling older people. In this study, respiratory sarcopenia was determined by PEFR alone. Other parameters may need to be considered.

摘要

目的

呼吸肌力量随年龄增长而下降，呼吸肌功能障碍可能表明存在呼吸性肌肉减少症。然而，目前对于呼吸性肌肉减少症的定义尚未达成共识。本研究旨在基于呼气峰流速（PEFR）制定呼吸性肌肉减少症的定义。

设计

横断面研究。

地点和参与者

本社区为基础的研究纳入了 681 名社区居住的老年人。

方法

测量了身体成分、肺活量、握力和步行速度。参与者报告了合并症和长期保险认证情况。采用日本人群校正的骨骼肌质量、握力和步行速度来定义传统的肌肉减少症。对无气道阻塞的男女患者，进行了 PEFR 对传统肌肉减少症和长期护理保险认证的截断值的受试者工作特征（ROC）曲线分析。在 ROC 曲线分析中，潜在的截断值为 PEFR 的最低四分位数、最低五分位数和标准差。以每个截断值和其他变量为自变量，以呼吸性肌肉减少症为因变量进行多因素逻辑回归分析。

结果

PEFR 对传统肌肉减少症和长期护理保险认证的 ROC 曲线分析在男女两性中均具有统计学意义，我们根据这些结果确定了截断值。使用低于平均值 1 个标准差的 PEFR 值的多因素逻辑回归模型具有最高的准确性；因此，我们接受这些截断值（男性 4.40 L/s，女性 3.21 L/s）作为呼吸性肌肉减少症的定义。

结论/意义：基于 PEFR 的呼吸性肌肉减少症定义在社区居住的老年人中是有用的，与传统肌肉减少症和长期护理保险认证相关。在本研究中，呼吸性肌肉减少症仅通过 PEFR 确定。可能需要考虑其他参数。

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呼吸性消瘦的定义与最大呼气流量率。

Definition of Respiratory Sarcopenia With Peak Expiratory Flow Rate.

机构信息

出版信息

OBJECTIVES

DESIGN

SETTING AND PARTICIPANTS

METHODS

RESULTS

目的

设计

地点和参与者

方法

结果

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