Volume Control- Continuous Mandatory
Ventilation with a “Set-point” targeting scheme (VC-CMV(s)) is likely the most
utilized mode of mechanical ventilation in adult patients in North America.
This is due to a few a reasons:
1. VC-CMV is a standard mode on almost every
intensive care ventilator and anesthesia delivery system.
2. VC-CMV is one of the first modes of mechanical
ventilation.
3. VC-CMV is easy to understand in both theory
and operation.
4. VC-CMV is the standard of care when
ventilating patients with Acute Respiratory Distress Syndrome (ARDS) and Acute
Lung Injury (ALI).
5. VC-CMV is the standard of care for adult
patients intraoperatively.
The key advantage of VC-CMV(s) is the
safety and simplicity of the set-point targeting scheme. The operator can
manually set all parameters of the volume/flow waveform and adjust the minimum
minute ventilation parameters (relating to frequency and tidal volume). “One
can quickly trouble-shoot a patient’s situation, so during a change the
operator can diagnose the problem and intervene rapidly”. [1]
When one sees a mode of ventilation
labeled “Volume Control”, “VC”, “Volume A/C”, or “CMV” it affirms that the
breathing pattern delivered to the patient will consist of a constant tidal
volume and inspiratory flow waveform (fig.
1)
 |
| Figure 1. Volume Control Ventilation Breath Pattern. |
 |
| Figure 2. Volume and Flow waveform remains constant even-though compliance decreased to 25, compared to Figure 1. |
regardless of changes in a patient’s respiratory system mechanics and/or
inspiratory drive (fig. 2) [2]. Conversely,
due to no industry standard for ventilator mode taxonomy and medical device
manufacturers marketing schemes the actual breath delivered to the patient does
not resemble the predicted breath pattern and may result in a tidal volume much
larger than the expected preset value.
How does this happen?
