Bedside tip: How to use the expiratory time constant

Author: Dr. med. Jean-Michel Arnal, Senior Intensivist, Hopital Sainte Musse, Toulon, France, Reviewer: Paul Garbarini, David Grooms

The expiratory time constant (RCEXP) is a dynamic measurement of respiratory mechanics measured breath-by-breath on all Hamilton Medical ventilators.

RCEXP is reliable in both passive and spontaneously breathing patients, assuming expiration is passive. It may also be used during NIV, provided there are no unintentional leaks.

As RCEXP is the product of compliance and resistance, this single variable can provide us with an assessment of the overall respiratory mechanics. It is very useful for diagnosing the lung condition and its severity, optimizing the ventilator settings, monitoring prone positioning, and understanding certain respiratory events.

Expiratory time constant for diagnosing the lung condition

In a mechanically ventilated patient with a normal lung, RCEXP is normally between 0.5 and 0.7 s. However, it is important to check that compliance and resistance values are also within a normal range, because a mixed lung condition combining decreased compliance and increased resistance may result in a pseudo-normal RCEXP

Typical respiratory mechanics for a normal-lung patient (green border indicates normal resistance and compliance referenced to height)








An expiratory time constant shorter than 0.5 s indicates a decrease in compliance, either due to the lung or the chest wall. In ARDS patients, RCEXP is typically in the range of 0.4 to 0.6 s. It is shorter in patients with more severe ARDS, indicating low compliance and a small volume of aerated lung. In patients with lung fibrosis or chest-wall stiffness such as kyphoscoliosis, RCEXP is usually very short and ranges from 0.15 to 0.25 s.

Typical respiratory mechanics monitoring for an ARDS patient







An expiratory time constant of longer than 0.7 s indicates increased resistance, which may be associated with increased compliance in the case of COPD patients with lung emphysema. A long RCEXP is typical in COPD and asthmatic patients. In patients with severe bronchospasm, RCEXP can be as long as 3 s. If the patient is not COPD or asthmatic, a long RCEXP may indicate incorrect positioning or kinking of the endotracheal tube.

Typical respiratory mechanics monitoring for a COPD patient







Expiratory time constant for optimizing ventilator settings

Patients with a short RCEXP are at risk of ventilator-induced lung injuries and should be closely monitored for tidal volume, driving pressure, and plateau pressure. In contrast, patients with a long RCEXP are at risk of dynamic hyperinflation, so intrinsic PEEP should be measured regularly.

In pressure-support and ASV® modes, expiratory trigger sensitivity (ETS) is an important setting for optimizing patient-ventilator synchronization. ETS represents the percentage of the maximum inspiratory flow at which the mechanical breath ends. A high percentage results in a short mechanical breath and vice versa. This setting can be optimized according to the respiratory mechanics. As an initial approach, ETS may be adjusted based on RCEXP as follows:

Normal RCEXP ETS = 25%–40%
Short RCEXP ETS = 5%–25%
Long RCEXP ETS = 40%–70%


Expiratory time constant for monitoring prone positioning

The effect of prone positioning on respiratory mechanics can be assessed using the trend of RCEXP and compliance. If prone positioning is associated with lung recruitment, it is indicated by an increase in compliance and RCEXP. If RCEXP increases with no change to compliance, the clinician should check for incorrect positioning or kinking of the endotracheal tube.

The image below displays an example of respiratory mechanics trends in the supine and prone position. The cursor indicates the start of the prone-position session. After prone positioning, RCEXP and compliance both increase, indicating lung recruitment.

Respiratory mechanics trends in the supine and prone position











Expiratory time constant for understanding respiratory events

A sudden event leading to desaturation and/or an increase in airway pressure needs a rapid diagnosis. Looking at trends for RCEXP will help us to understand whether the event is related to a rapid change in respiratory mechanics. An increase in RCEXP indicates one of the following: an endotracheal tube obstruction or malpositioning, a patient biting the endotracheal tube, an excess of secretions, or a bronchospasm. Conversely, a decrease in RCEXP indicates a pneumothorax, pleural effusion, or atelectasis. Sudden desaturation without a change in RCEXP indicates a drop in cardiac output or a severe pulmonary embolism.


  • Arnal JM, Garnero A, Saoli M, Chatburn RL (2018). Parameters for Simulation of Adult Patients During Mechanical Ventilation. Respir Care (in press)

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Date of Printing: 23.04.2021
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