Incremental threshold loading: a standard protocol and establishment of a reference range in naive normal subjects.

Incremental threshold loading (ITL) has been proposed as a test of inspiratory muscle strength and endurance. To date, however, there has been no standardized protocol for an ITL test, and no reference range, with different investigators using a variety of different pressure increments in small numbers of subjects. We developed an ITL test using the weighted plunger (WP) principle, which uses standard increments of pressure. In our protocol subjects inspire through the WP generating an initial threshold opening pressure of 10 cmH2O. This pressure is raised at 2 min intervals in increments of 5 cmH2O until they fail to lift the plunger on two consecutive attempted breaths. Sixty healthy volunteers (30 males and 30 females) aged 20-80 yrs performed the ITL test. Twelve subjects (six females and six males) performed the test twice to assess reproducibility and repeatability. Using stepwise multiple linear regression, we regressed the maximum threshold pressure sustained for a full 2 min (Pmax) against age, height, weight and static maximum inspiratory mouth pressure (MIP). Pmax was significantly related to age but not to either height or weight, the regression equation for males was Pmax (cmH2O)=103.8 - (1.0 x age in years), and for females was Pmax (cmH2O)=93.7 - (1.0 x age in years). The within-subject standard deviation for those repeating the ITL test was 5.4 cmH2O. Incremental threshold loading is a simple technique with good reproducibility, which most naive subjects can use without difficulty. By using standard pressure increments and performing the test in a large number of naive subjects, we have established a reference range that should be applicable wherever similar pressure increments are used.

[1]  A. Cowley,et al.  Evaluation of the THRESHOLD trainer for inspiratory muscle endurance training: comparison with the weighted plunger method. , 1996, The European respiratory journal.

[2]  D. Altman,et al.  Measurement error. , 1996, BMJ.

[3]  D. Hillman,et al.  A threshold loading device for testing of inspiratory muscle performance. , 1995, The European respiratory journal.

[4]  D. Hillman,et al.  Ventilatory responses to inspiratory threshold loading and role of muscle fatigue in task failure. , 1994, Journal of applied physiology.

[5]  F. Fanfulla,et al.  Reference values of maximal respiratory mouth pressures: a population-based study. , 1992, The American review of respiratory disease.

[6]  M. Fairbarn,et al.  Comparison of two-minute incremental threshold loading and maximal loading as measures of respiratory muscle endurance. , 1989, Chest.

[7]  R. Cherniack,et al.  Efficiency of the respiratory muscles in healthy individuals. , 1989, The American review of respiratory disease.

[8]  M. Fairbarn,et al.  The effect of breathing frequency on inspiratory muscle endurance during incremental threshold loading. , 1989, Chest.

[9]  R. Pardy,et al.  Measurement of inspiratory muscle performance with incremental threshold loading. , 2015, The American review of respiratory disease.

[10]  D. Leith,et al.  Pressure-flow effects on endurance of inspiratory muscles. , 1986, Journal of applied physiology.

[11]  J. Moxham,et al.  The maximal sniff in the assessment of diaphragm function in man. , 1985, Clinical science.

[12]  A. Grassino,et al.  Effect of pressure and timing of contraction on human diaphragm fatigue. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.

[13]  T. Keens,et al.  Measuring ventilatory muscle endurance in humans as sustainable inspiratory pressure. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.

[14]  P. Macklem,et al.  Diaphragmatic fatigue in man. , 1977, Journal of applied physiology: respiratory, environmental and exercise physiology.

[15]  S. Freedman Sustained maximum voluntary ventilation. , 1970, Respiration physiology.

[16]  L. F. Black,et al.  Maximal respiratory pressures: normal values and relationship to age and sex. , 2015 .

[17]  J. Mead,et al.  IMPROVED TECHNIQUE FOR ESTIMATING PLEURAL PRESSURE FROM ESOPHAGEAL BALLOONS. , 1964, Journal of applied physiology.