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Overview :
The
maximum inspiratory pressure is the highest atmospheric pressure developed
during inspiration against an occluded airway. The maximum expiratory pressure
is the highest pressure developed during expiration against an occluded
airway.
Maximal Inspiratory Pressure (cm H2O)
predicted
maximal inspiratory pressure, in cm of water for males 20 - 80 years old =
=
143 - (0.55 * (age in years))
predicted
maximal inspiratory pressure, in cm of water for males 20 - 54 years old =
=
129 - (0.13 * (age in years))
predicted
maximal inspiratory pressure, in cm of water for males 44 - 80 years old =
=
120 - (0.25 * (age in years))
predicted
maximal inspiratory pressure, in cm of water for females 20 - 86 years old =
=
104 - (0.51 * (age in years))
predicted
maximal inspiratory pressure, in cm of water for females 20 - 54 years old =
=
100 - (0.39 * (age in years))
predicted
maximal inspiratory pressure, in cm of water for females 55 - 86 years old =
=
122 - (0.79 * (age in years))
Maximal Expiratory Pressure (cm H2O)
predicted
maximal expiratory pressure, in cm of water for males 20 - 80 years old =
=
268 - (1.03 * (age in years))
predicted
maximal expiratory pressure, in cm of water for males 20 - 54 years old =
=
229 + (0.08 * (age in years))
predicted
maximal expiratory pressure, in cm of water for males 54 - 80 years old =
=
353 - (2.33 * (age in years))
predicted
maximal expiratory pressure, in cm of water for females 20 - 86 years old =
=
170 - (0.53 * (age in years))
predicted
maximal expiratory pressure, in cm of water for females 20 - 54 years old =
=
158 - (0.18 * (age in years))
predicted
maximal expiratory pressure, in cm of water for females 55 - 86 years old =
=
210 - (1.14 * (age in years))
|
|
maximal inspiratory
pressure |
maximal expiratory
pressure |
|
poor
effort |
decreased |
decreased |
|
fatigue |
decreased |
decreased |
|
neuromusclular
disease |
decreased |
decreased |
|
increased
lung volume |
decreased |
normal |
|
decreased
lung volume |
normal |
decreased |
|