ventilator modes Flashcards
describe volume controlled ventilation (CMV or VCV)
- most common mode
- tidal volume is set and kept constant, delivered each breath
- rate can change minute ventilation
- gas delivered at a constant flow
- PiPs vary depending on number of factors (can result in barotrauma if get too high)
what are some indications of VCV?
-best for patients with no respiratory effort and little expected change in airway resistance and intra thoracic pressure
describe pressure controlled ventilation (PCV).
- tidal volume delivered is based on preset pressure target being reached
- mandatory rate and inspiration time are set
- inspiratory times are longer as the tidal volume delivered may take much of the ventilatory cycle
- tidal volume can vary breath to breath depending on airway resistance and other factors
- flow varies with each breath delivered
- *tidal volume set based on desired pressure not volume so that peak airway pressure is controlled
- expiration occurs when inspiratory time and airway pressure reached
what results from PCV?
- tidal volumes are NOT guaranteed, so increased tidal volumes (volutrauma) can result if a drop in PiP occurs (laparoscopy)
- since inspiratory time is longer, delivered volume can reach and recruit collapsed airways
what are some indications for PCV?
- useful when high PiPs are not appropriate
- LMAs, emphysema, neonates and children
- useful when low compliance is present (chest wont expand)
- laparoscopy, pregnancy, morbid obesity, ARDS, stiff chest, pulmonary fibrosis
when using PCV, and compliance changes from low to high, how will tidal volume change?
Vt will increase with compliance
what is volume guarantee (VG) with PCV?
VG allows to set Vt with PCV
describe pressure support ventilation (PSV)
- when flow decreases expiration begins
- only inspiratory pressure is set
- respiratory rate is determined by the patient
- used with IMV and SIMV modes of ventilation
- pressure support approx. 5-10 cmH2O will overcome the negative inspiratory pressure resistance of ETT, circuit and filters
- adjust pressure support based on desired Vt and whether acceptable levels of ETCO2 can be maintained
what is sensitivity trigger in PSV?
when pts. efforts reaches set inspiratory flow trigger (sensitivity based on L/min) the pressure support breath is initiated and delivered throughout the inspiration
- based on how much flow pulled across flow sensors; higher flow required means lower sensitivity
- *higher the sensitivity may detect any movement as breathing even physician stimulus, may need to lower sensitivity
what are some indications of PSV?
- designed to augment Vt in spontaneously breathing patients (increase ventilation)
- to decrease work of breathing and increase patient comfort (negative resistance of ETT, LMA, filters and circuit)
- weak inspiratory effort (deep level of anesthetic; residual muscle paralysis)
- helps to “breathe pt. back” to wake up
- obstructed airway breathing
describe synchronized intermittent mandatory ventilation (SIMV).
- synchronizes the patients efforts with ventilator
- senses negative pressure created by diaphragm then delivers full breath
- if pt. does not inspire within trigger window waiting time, vent delivers breath
- ensures sufficient mandatory breaths if pt. breathing efforts fall outside time frame of breath
- pt. breath does not compete with vent
what are the advantages of SIMV?
- functions as a “backup” vent when pts. own respiratory rate decreases
- allows spontaneous patients breaths
- ideal when spontaneous breathing pt. is too deep to maintain normocarbia
- more pt. control over their own ventilation
