Mechanical ventilator modes, types and settings

 A mechanical ventilator is a Positive or Negative pressure breathing device that can maintain ventilation and oxygen delivery for a prolonged period . Mechanical Ventilation may be required for a variety of reasons including :

  • the need to control the patient`s respiration during surgery or treatment of severe head injury
  • to oxygenate the blood when the patient`s ventilatory efforts are inadequate 
  • to rest the respiratory muscles .
ventilator modes

Indication for Mechanical Ventilation 

  • If a patient has a continues decrease in oxygenation (Pao2) or a persistant increase in  Paco2 and persistant acidosis ( decrease pH) ,  mechanical  ventilation may require. 
  • A patient with apnea i.e not reversible also require mechanical ventilation .
  • Conditions such as abdominal or thoracic surgery, neuromuscular disorders ,  drug overdose,multiple trauma , shock , multisystem failure ,coma and  inhalation injury all leads to respiratory failure and the need for mechanical ventilation 
  • Pao2  < 50mm Hg with Fio2 > 0.60
  • Pao2 > 50 mm Hg with pH < 7.25
  • Vital capacity <  2 times tidal volume 
  • Negative inspiratory force < 25 cm H2o
  • Respiratory rate > 35 / min 

Types of ventilators 

        There are generally 2 types of mechanical  ventilators  are used :
1. Negative pressure ventilators
2. Positive pressure ventilators 
     Positive pressure ventilators are commonly used 

1. Negative Pressure ventilators 

Negative pressure ventilators exert a negative pressure on the external chest . Decreasing the intra thoracic pressure during inspiration allows air to fill lungs and filling its volume  .
  • Negative pressure ventilators are mainly used in chronic respiratory failure associated with neuromuscular conditions such as poliomyelitis, muscular dystrophy  and mysthenia gravis .
  • They do not require intubation of the airway ,  they are specially adaptable for home use .

Types of Negative Pressure ventilators 

1. Iron lung ( Drinker respirator Tank ) 
2. Body Wrap ( Pneumowrap ) and Chest cuirass ( Tortoise shell ) 

1. Iron lung ( Drinker respirator Tank ) 

Iron Lung is negative pressure chamber used for ventilation . It was used extensiveky during polio epidemics an tha past and currently used for polio survivors and neuromuscular disorders .

2. Body Wrap ( Pneumowrap ) and Chest cuirass ( Tortoise shell ) 

Both these portable devices require rigid cage or shell to create negative pressure chamber around the thorax and abdomen .

2. Positive pressure ventilators 

Positive pressure ventilators inflate the lungs by exerting positive pressure on the airway . Endotracheal intubation or tracheostomy is necessary in most cases . 
    There are three types of positive pressure ventilators :
1. Pressure cycled ventilators 
2. Time cycled ventilators 
3. Volume cycled ventilators 

Pressure cycled ventilators 

  • The pressure cycled ventilators ends inspiration when preset pressure has been reached or the ventilators cycles on  delivers a flow of air until it reaches predetermined pressure then cycles off .
  • In adults, pressure cycled  ventilators are intended only for short term  use. The most common type is IPPB machine .

Time Cycled ventilators 

  • Time cycled ventilators terminate or control inspiration after a  preset time .
  • The volume of air the patient recieves is regulated by lentgh of inspiration and flow rate of the air 
  • Time cycled ventilators are used in newborns and infants .

Volume Cycled Ventilators 

  • Volume cycled ventilators are most common used ventilators
  • The volume  of air to be delivered with each inspiration  is preset. Once the preset volune is delivered to the patient , the ventilation cycles off  and exhalation occurs passively. 

Noninvasive positive pressure ventillation 

  • In this positive pressure ventilation can be given via facemask (NIV Mask ) that covers  nose and mouth 
  • This does not require intubation 
  • The most comfortable mode for the patient is pressure controlled ventilation with pressure support .
  • Bilevel positive airway pressure ( bi- PAP ) ventilation offers independent control of inspiratory and expiratory pressure while providing pressure support ventilation .
  • Bi- PAP  is most common used for patients who require ventilatory assistance at night such as with severe COPD or sleep apnea .

Ventilator Modes 

There are mainly 6 types of ventilator modes :
1. Controlled ventilation 
2. Assist/ Controlled Ventilation ( A/C )
3. Synchronized Intermittent Manditory Ventillation ( SIMV )
4. Positive End Expiratory Pressure ( PEEP )
5. Continues Positive airway pressure ( CPAP ) 
6. Pressure support ( PS ) 

Ventilator mode chart 

Modes of ventillation

Description

 Controlled ventilation

 

A Pre-set volume of air is delivered to the patient  under positive pressure with spontaneous patient respiratory  effort .

Assist/ Controlled Ventilation ( A/C )

 

A pre-set volume of air is delivered to the patient at a preset rate , but patient may trigger a ventlator breath with negative inspiratory efforts  

Synchronized Intermittent Manditory Ventillation ( SIMV )

 

A pre-set minimum  no. Of breath are synchronously delivered to the patient but the patient may also take spontaneous breath of varying volumes .

·         Note how inspiratory and expiratory pressure differ between spontaneous and ventilator breaths

Positive End Expiratory Pressure (PEEP )

 

Airway presure with varying levels of positive end expiratory presure ( PEEP )

·         Note that at end expiration , the airway is not allowed to return to zero

·         Positive pressure is exerted during the expiratory phase of ventilation  which improves oxygenation by enhancing gas exchange and preventing atelectesis

Continues Positive airway pressure (CPAP ) 

 

This ventilatory mode is used only with spontaneous ventilation .

·         The patient breaths spontaneously through the ventilation at an elevated baseline pressure through the breathing cycle

Pressure support (PS ) 

 

The patient breaths spontaneously with presure assistance to each spontaneous inspiration

 

Important terms : 

Tidal Volume :  Normal volume of air displaced b/w normal inhalation and exhalation 
Rate :  The no. of ventilators breaths delivered per minute 
Sighs :  The volume of air that are 1.5 to 2 times the set tidal volume , delivered 6 to 10 times per hour .
Fraction of inspired oxygen ( Fio2 ) : The oxygen concentration delivered to patient , determined by patient`s condition and ABG levels .