Abstract
BACKGROUND: Respiratory muscle strength is an important part of lung function. Assessment of
the respiratory muscles’ ability to generate force is important for recognizing respiratory muscle
weakness in both sick and healthy people. OBJECTIVE: To assess the test/retest reliability of the
MicroRPM portable manometer’s measurements of maximum inspiratory pressure (MIP) and
maximum expiratory pressure (MEP) in the sitting and standing positions; the number of expiratory
maneuvers needed with the MicroRPM for reliability in MIP and MEP measurement; and the
MicroRPM’s test/retest reliability in other respiratory function indices, such as the maximum rate
of pressure development (MRPD), the time constant of relaxation (tau), and the maximum relaxation
rate (MRR). METHODS: We recruited 15 healthy volunteers (mean age 21.6 1.1 years). We
assessed respiratory muscle strength on 3 separate occasions, each a week apart. We calculated
reliability with the intraclass correlation coefficient (ICC), the standard error of measurement
(SEM) and the smallest detectable difference (SDD). RESULTS: MicroRPM reliably measured
MIP and MEP in both the sitting position (ICC 0.86 – 0.90, SEM 9 –10, SDD 18 –22) and standing
position (ICC 0.78 – 0.83, SEM 12–14, SDD 23–26). After a 5-breath practice, 2 expiratory/inspiratory
maneuvers on each testing occasion gave adequate MIP and MEP reliability (ICC > 0.90).
MRR reliability was moderate to excellent (ICC 0.58 – 0.87), MRPD reliability was moderate
(ICC 0.59 – 0.64), and tau reliability was insufficient (ICC 0.27– 0.67). CONCLUSIONS: The MicroRPM
reliably measures MIP and MEP, but its MRPD, MRR, and tau measurements should be
considered with caution.
Original language | English |
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Pages (from-to) | 776-782 |
Number of pages | 6 |
Journal | Respiratory Care |
Volume | 56 |
Issue number | 6 |
Publication status | Published - 2012 |
Keywords
- respiratory muscle
- lung function
- maximum expiratory pressure