Optimum Oxygen Level



Q:
What are the normal oxygen saturation levels by age?

For infants and children, the normal oxygen saturation level should range between 97% to 99%. For neonates and young infants, the normal oxygen saturation level should range between 93% to 100%. For adults less than 70 years of age, the normal oxygen saturation level should range between 96% to 98%. Normal arterial blood oxygen saturation levels in humans are 95–100 percent. If the level is below 90 percent, it is considered low and called hypoxemia. Arterial blood oxygen levels below 80 percent may compromise organ function, such as the brain and heart, and should be promptly addressed.

  • Normal Oxygen Level in Blood For most people, an oxygen level of 95-100% is considered to be normal. When the level of oxygen is within this range, it is considered to be optimum for smooth functioning of the cells. A level that is below 95% is a cause for concern and warrants an examination or testing by a medical personnel.
  • A normal arterial blood oxygen level typically falls between 75 and 100 mmHg. Your blood carbon dioxide level and pH - a measure of acidity or alkalinity - are usually measured along with the.
  • Scientific Proofs - Oxygen Levels Decreases During Apneas. Even the most recent studies (2012) demonstrates the link between sleep apnea and oxygen desaturation. That's why the oximeter is an important tool in clinical assessment. With a finger pulse oximeter you can monitor yourself to see how effective is CPAP (you'll learn how to do this bellow).

A:
For infants and children, the normal oxygen saturation level should range between 97% to 99%.

For neonates and young infants, the normal oxygen saturation level should range between 93% to 100%.

For adults less than 70 years of age, the normal oxygen saturation level should range between 96% to 98%.

For adults aged 70 and above, the normal oxygen saturation level should be greater than 94%.

Optimum Oxygen Level

Optimum Oxygen Level

* The Content is not intended to be a substitute for professional medical advice, diagnosis, or treatment. Always seek the advice of your physician or other qualified health provider with any questions you may have regarding a medical condition.

Sleep is an amazingly restorative time for our bodies. So much healthy, transformative change happens, even though we’re completely unaware of it. Many of these transformations, like cell renewal, tissue repair, and memory consolidation, can be attributed to the saturation level of oxygen in our bodies. A consistent oxygen supply is essential to these processes.

Sometimes, our sleep health is jeopardized by reduced oxygen levels. Thankfully, there are a lot of tools and techniques available to increase blood oxygen levels and maximize recovery during sleep.

The role of oxygen in each stage of sleep

When we are awake, our breathing patterns vary frequently. This is because we’re so busy doing other things that affect how we take air in. Normal activities like talking and exercising and other factors such as our posture and our emotions play a role in our daytime oxygen intake.

During our waking lives, our breathing patterns may change, but we’re always breathing. When we’re asleep, however, it can be a different story. As we slowly make the transition from being awake to the early stages of sleep, our breathing rate becomes slightly slower, very regular, and there is a slight dip in body temperature.

As we move into deeper phases of sleep, our heartbeat slightly slows down as our body relaxes further and brain activity patterns change. Growth hormone is produced, promoting tissue growth and repair. Extra oxygen is supplied to muscles as we enter REM sleep. Our brain activity starts to increase again, our eyes dart rapidly beneath our eyelids, and vivid dreams most commonly occur in this stage. Eventually, we journey out of REM sleep and awaken.

When oxygen gets interrupted

In a perfect world, consistent, uninterrupted breathing for the entire length of time we’re asleep would have us waking up feeling remarkably refreshed, and our bodies ready to function at their optimal capacities. However, this is not a reality for everyone.

Roughly 100 million people in the United States alone are sleep deprived, meaning the amount or quality of the sleep they get on any given night is not adequate. It is estimated that as many as 45 million people in the United States--and up to one billion worldwide--have sleep apnea, a condition where breathing stops periodically during sleep.

A lack of breath means a lack of oxygen, and this is exactly what happens when sleep apnea occurs.

What causes blood oxygen to be low?

There are a multitude of factors that can contribute to low blood oxygen levels.

In addition to sleep apnea, various diseases and medical conditions may impair the respiratory system in providing optimal oxygen amounts to the body. These conditions include chronic obstructive pulmonary disease (COPD), emphysema, asthma, anemia, and heart disease or heart failure.

How to increase your oxygen levels while sleeping

There are many ways for you to naturally boost your oxygen saturation, and many of them cost little to no money. Developing good habits during the day that promote a healthy intake of oxygen can often set you up for success when it’s time to fall asleep.

Here are a few strategies to increase blood oxygen levels while sleeping.

1. Practice taking deep breaths

Optimum Oxygen Level In Oximeter

Performing deep-breathing exercises can have a calming effect, but the benefits go far beyond a more relaxed mind--your blood oxygen levels can rise, too. Taking deeper breaths can also increase the amount of oxygen in the bloodstream. Bonus points for getting out in the fresh air, away from vehicle emissions.

What Are Optimum Oxygen Levels

2. Sleep on your side

Optimum Oxygen Level In Humans

Most people breathe better when they sleep on their side compared to any other position. The reason is amazingly simple: gravity. When we sleep on our backs, the weight of our bodies can press down on our airway or lungs, causing unnecessary obstructions. Side-sleeping has long been known to protect the airway from unwanted collapse and reduce snoring too.