Air or gas embolism

An air or gas embolism is a bubble that becomes trapped in a blood vessel and blocks it.

Air or gas embolism in scuba divers

It can happen if a scuba diver:

Air can escape from the lungs into the blood vessels (arterial gas embolism) or nitrogen bubbles can form in the blood vessels (decompression sickness or "the bends").

Air or gas embolisms can cause serious and potentially fatal conditions, such as a stroke or heart attack.

Call 999 and ask for an ambulance if you or someone you're with feels unwell after scuba diving and you suspect an air or gas embolism.

Symptoms of an air or gas embolism after diving

Symptoms of an air or gas embolism after diving include:

You may not have these symptoms immediately. They can develop within 10 to 20 minutes or sometimes even longer after surfacing. Do not ignore these symptoms – get medical help immediately.

Getting medical help

Call 999 and ask for an ambulance if you or someone you're with feels unwell after scuba diving.

A diver with a suspected air or gas embolism should be transferred to an A&E department as soon as possible.

They should be laid down flat and given 100% oxygen until they reach hospital. Once stabilised, they'll be taken to a pressurised room called a hyperbaric chamber, either at the hospital or at another location.

Why diving can lead to an air or gas embolism

If a diver surfaces too quickly, nitrogen bubbles can form in their tissues and bloodstream. This is often referred to as decompression sickness or "the bends".

Surfacing too quickly or holding your breath while you swim to the surface can cause the air in your lungs to expand. This may rupture lung tissue (pulmonary barotrauma), which can lead to gas bubbles being released into the arterial circulation (arterial gas embolism).

In some divers, underlying conditions can increase the chance of decompression sickness. These should be discussed with a doctor who specialises in diving medicine.

If the gas bubble blocks an artery, it can cut off the blood supply to a particular area of the body.

The seriousness of the blockage depends on which part of the body is affected, the size of the gas bubble and the amount of inert gases (unreactive gases) within the diver's tissues.

An air or gas embolism can cause different problems depending on where the blockage is:

These conditions are very serious and can be fatal, particularly if the air embolism is not treated quickly.

Treating an air or gas embolism caused by diving

After a diver with an air or gas embolism has received emergency medical attention and their condition has stabilised, they'll be transferred to a hyperbaric chamber.

A person lying on a bed inside a hyperbaric chamber. They're wearing a mask and a clinician is attending to them.
A person being treated in a hyperbaric chamber

They'll need to lie in the hyperbaric chamber for several hours, breathing a mixture of gases and oxygen in a pressurised environment. The high pressure restores normal blood flow and oxygen to the body's tissues, and reduces the size of the air bubbles in the body.

In cases of decompression sickness, the pressure forces the bubbles of nitrogen to dissolve into the bloodstream.

The pressure in the chamber is then gradually reduced to allow the gases to leave the body, mimicking slowly surfacing from a dive.

Depending on the severity of symptoms, treatment may need to be continued for several days.

Preventing an air or gas embolism while diving

To reduce your risk of getting an air or gas embolism when diving you should:

The British Sub-Aqua Club (BSAC) has more information about diving safety

Other causes of air or gas embolisms

Although uncommon, it's possible to get an air or gas embolism during surgery, some medical procedures, and when ascending to a high altitude.

In hospitals and health centres, care should be taken to prevent air embolisms by:

Air embolisms caused by surgery, anaesthesia or other medical procedures can be difficult to treat. Treatment is usually needed to support the heart, blood vessels and lungs.

For example, fluids may be used to treat a fall in blood pressure, and oxygen may be given to correct reduced oxygen levels. Treatment in a hyperbaric chamber is occasionally needed in these cases.

Page last reviewed: 16 December 2020
Next review due: 16 December 2023