Is Snoring Anything To Worry About?

By biotechinasia – January 18, 2017
Obstruction_ventilation_apnée_sommeilThe noise of snoring is due to vibration, fluttering and open/closing of soft structures in the upper airway (including the tongue and soft palate). OSA = obstructive sleep apnoea. Credits to Habib M’henni / Wikimedia Commons

There’s nothing quite like the sound of snoring as the ultimate sleep interrupter.

But snoring can be more than just a frustration to those in your vicinity. Sometimes snoring is linked to more serious health problems, such as obstructive sleep apnoea. An emerging line of research suggests snoring may directly contribute to cardiovascular health problems.

How does snoring occur?

When we go to sleep, the muscles of the upper airway relax, causing it to become “floppy” and partially collapse. This occurs to some extent in all of us.

However, in some people the airway is excessively narrowed, particularly at the level of the tongue and soft palate/uvula (the visible structure you see hanging at the back of the throat). As we breathe in, we produce suction pressures to draw air into the lungs. This further narrows the airway (similar to when sucking too hard on a straw) and can cause upper airway tissues such as the soft palate to vibrate or flutter, like a flag in the wind. This movement creates the noise of snoring.

Rapid opening and closing of the airway – such as the base of the tongue banging against the back of the throat – also contributes to snoring.

What can trigger snoring?

If you don’t normally snore, alcohol is a key trigger as it blocks your nose and can relax airway muscles. If you already snore, alcohol is likely to make your snoring a lot louder!

Being overweight increases fat around the neck, compressing and narrowing the throat. But thin people do snore too, and many who are overweight do not.

A blocked nose – due to a cold, allergies, polyps or anatomical abnormality – creates the need for greater suction pressures to draw air into the lungs when breathing, which further narrow the airway. Mouth opening often occurs when the nose is blocked during sleep, which itself can cause snoring (via airway anatomy and pressure changes).

Sleeping on your back contributes to collapse of the airway, as gravity pushes the tongue and soft palate towards the back of the throat.

Enlarged tonsils narrow the airway, and are a primary cause of snoring in children.

Smoking can irritate the membrane that lines the nose and throat, causing fluid build-up (oedema) that narrows the airways.

Excessive sleepiness following sleep deprivation can enhance airway floppiness the next time you sleep.

Pregnancy often triggers snoring in the second and third trimester as a result of physiological changes that narrow the upper airway.

Burden of snoring for well-being

Snoring can create a dry mouth, sore throat or headache, and can leave you feeling tired.

It can place significant strains on personal relationships, particularly your bed partner, but also those sleeping in an adjacent room or even sometimes on the other side of the house!

Snoring forces many couples to sleep in separate bedrooms, disrupting intimate bonds. Snorers are often embarrassed to sleep among others, promoting anxiety and hindering their social relationships.

Sleep disruption caused by snoring can make you and others cranky and irritable during the day, but also may lead to impaired memory and concentration and obesity and reduced immunity.

Snoring even has the potential to cause hearing loss for your bed partner. Given some snores reach over 80 decibels (equivalent to the loudness of a jack hammer, motorcycle or low flying jet), this idea is not so far-fetched.

Serious health consequences

Snoring can be a marker for obstructive sleep apnoea, a disorder where the upper airway repeatedly closes during sleep, and breathing stops for at least ten seconds at a time. Obstructions to breathing can sometimes last for more than a minute and occur over 100 times an hour, starving the body of oxygen and fragmenting sleep.

Obstructive sleep apnoea sufferers are often excessively sleepy and at greater risk of car and industrial accidents, cardiovascular disease – high blood pressure, heart attack, stroke – and reduced brain function, including poor memory and learning.

Over the last decade, some research suggests heavy snoring itself may be a direct cause of cardiovascular complications, particularly a condition known as carotid artery atherosclerosis.

The carotid artery is the main vessel supplying blood to the brain. When affected by atherosclerosis, fatty deposits known as plaques form in the wall of the artery. Over time these can cause the blood vessel to narrow and limit blood flow.

One study has shown that snoring vibrations are transmitted to the carotid artery, which can damage its wall and lead to the development of atherosclerosis. Subsequently, snoring may rupture a formed plaque, resulting in pieces of the plaque moving through the bloodstream and blocking small vessels in the brain. However, additional research is required to bring further clarity to this hypothesis.

In children, snoring is associated with behavioural issues and poorer academic performance.

Current snoring treatments

Given the multiple causes of snoring, there are numerous potential treatments available that work on some but not others.

Recommended lifestyle changes include:

  • avoiding alcohol before bed (minimises airway floppiness)
  • losing excess weight (reduces airway compression)
  • stopping smoking (reduces airway irritation and fluid accumulation)
  • avoiding sleep deprivation (minimises airway floppiness)

There are several medical treatments for snoring that require professional advice. If you snore regularly, it is highly recommended you see a sleep and respiratory doctor for diagnosis and to determine the right treatment for you.

For more information on all things sleep related, the Sleep Health Foundation offers some helpful fact sheets.

This article originally appeared on theconversation.com and was written by Jason Amatoury, Postdoctoral Research Fellow, Biomedical Engineer, Upper Airway Physiologist, Neuroscience Research Australia.