- Iron Lung
- CPAP and Others
What is mechanical ventilation?
Mechanical ventilation is a treatment to help a person breathe when they find it difficult or are unable to breathe on their own. A mechanical ventilator pushes airflow into the patient’s lungs to help them breathe.
Mechanical ventilation may be
Does mechanical ventilation treat COVID-19 coronavirus?
A COVID-19 infection can cause fluids and mucus in the lungs that block oxygenation of lung tissue. Mechanical ventilation can help support COVID-19 patients breathing until their immune system and treatment can clear the infection and proper lung function is restored.
What are the different types of mechanical ventilation?
Mechanical ventilation first came into use in 1929. The two types of mechanical ventilation are
- Positive-pressure ventilation: pushes the air into the lungs.
- Negative-pressure ventilation: sucks the air into the lungs by making the chest expand and contract.
The early ventilators were negative-pressure ventilators. Negative pressure ventilation is very little in use now.
Positive-pressure ventilators were developed in the early 1950s to treat polio patients with respiratory paralysis. These ventilators blow the air into the patient’s lungs through a tube. They may be invasive or noninvasive.
- Endotracheal intubation: the tube is inserted into the patient’s airway (trachea) through the mouth or nose.
- Tracheostomy: the tube is inserted through a hole made into the airway.
Noninvasive mechanical ventilators come with masks and can be used at home. The three kinds are
- Continuous positive airway pressure (CPAP): delivers constant and steady air pressure.
- Autotitrating (adjustable) positive airway pressure (APAP): changes air pressure according to the breathing pattern.
- Bilevel positive airway pressure (BiPAP): delivers air with different pressures for inhalation and exhalation.
How does a mechanical ventilator work?
The iron lung of the past forces the chest cavity to expand and contract by adjusting the air pressure inside a chamber that envelops the body up to the neck, . A vacuum pump creates a negative pressure in the iron lung’s chamber which makes the patient’s chest expand, drawing air in. When the negative pressure releases, the patient’s chest recoils, and air pushes out.
The negative pressure created in the chamber affected the stomach and heart as well, which was a problem with the iron lung. The iron lung ventilator also curtailed the patient’s mobility and made caregiving difficult.
Cuirass, developed later, is a small form-fitted shell with a bladder, strapped to a patient’s chest. Cuirass applies negative pressure to stimulate the chest to expand and contract. Cuirass is used in very few situations today. It is a suitable option for patients with neuromuscular disorders, but it cannot be used for patients lying down.
Currently positive pressure ventilation is the common form of mechanical ventilation in hospitals. The positive-pressure ventilators push the air into the patient’s airway. The ventilator continually blows and stops in regular preset cycles enabling the lungs to receive oxygen and expel carbon dioxide. Positive-pressure ventilators may be
- Volume-controlled: delivers a preset volume of air into the patient’s trachea even if it entails high airway pressure. When the flow is stopped the chest recoils and expels the air out.
- Pressure-controlled: delivers air till the airway pressure limit is reached and the valve opens to expel air. The volume of air delivered may vary depending on the airway resistance and lung capacity.
- Dual control: these combine the advantages of volume control and pressure control and deliver airflow based on the requirement and response of the patient.
Why is a mechanical ventilator used?
The mechanical ventilator does the work of a patient’s breathing so their body can rest and recover. Mechanical ventilators are used:
- As short-term respiratory assistance in surgeries
- For longer periods in critically ill patients
- At home by people who have difficulty breathing normally
In the last two decades several new modes of mechanical ventilation have emerged with the merging of ventilator and computer technologies. This has increasingly helped doctors meet individual requirements in mechanical ventilation.