CMS pulse oximeters are medical gadgets that help medical professionals determine, somewhat indirectly, if a patient is getting enough oxygen. The devices clip onto the finger, the earlobes or, in infants, a foot. What they actually measure is the amount of hemoglobin that is fully loaded up with oxygen. In most people, this figure should be at least 95% or more.
It isn't obvious how a non-invasive instrument can measure with any degree of accuracy something down to the molecular level. Without getting too technical, oximetry works on the principle that different substances absorb light differently. Two different wavelengths of light are passed through the patient and the instrument is able to determine the absorbance, and therefore the concentration, of oxygen in pulsating arterial blood.
While this is a decent method of measuring oxygen saturation, it gives no information about the actual level of oxygen in the blood. More accurate measurements of blood oxygen levels may be obtained by measuring arterial blood flow. The best method of doing this is by sticking a needle directly into an accessible artery.
They need a good reason to measure arterial oxygen levels because placing the needle into an artery is very painful to the patient. This is fine if the person is unconscious, as if they were under an anesthetic or unconscious. If they are awake and aware, it feels like someone is plunging a needle directly into bone.
A pulse oximeter may also be used for research purposes, for example, during sleeping studies. These investigations are performed when a patient is suspected to have a condition called sleep apnea. People with this type of disorder are unable to breathe, sometimes for dangerously long periods, while they are sleeping. This can result in stroke, heart attack or even death. At best, it can leave people foggy headed and tired the next day.
There are two main types of sleep apnea, obstructive and neurological. Obstructive sleep apnea (OSA) is the more common of the two and is also the easiest to treat. Therapies include surgery, continuous positive airway pressure (CPAP) or prescribing a device that the patient puts in their mouth when they go to bed that helps them to keep their airway open.
The other kind of sleep apnea, neurological or central sleep apnea, is rarer and more serious than OSA. Rather than being unable to breathe, your brain doesn't bother to try. This is usually associated with a serious underlying condition affecting the brain stem, which is the part of the brain that controls breathing. Central sleep apnea may manifest itself alone or alongside OSA.
The biggest risk factors for sleep apnea are being overweight, male gender or being over the age of 40. However, sleep apnea can happen to anybody. Some small babies can stop breathing for as long as 20 seconds, which is very disturbing for already anxious new parents. If a baby is discovered to be at risk for this condition, the parents can obtain an alarm that will alert them if and when this happens. CMS pulse oximeters are also available for use at home.
It isn't obvious how a non-invasive instrument can measure with any degree of accuracy something down to the molecular level. Without getting too technical, oximetry works on the principle that different substances absorb light differently. Two different wavelengths of light are passed through the patient and the instrument is able to determine the absorbance, and therefore the concentration, of oxygen in pulsating arterial blood.
While this is a decent method of measuring oxygen saturation, it gives no information about the actual level of oxygen in the blood. More accurate measurements of blood oxygen levels may be obtained by measuring arterial blood flow. The best method of doing this is by sticking a needle directly into an accessible artery.
They need a good reason to measure arterial oxygen levels because placing the needle into an artery is very painful to the patient. This is fine if the person is unconscious, as if they were under an anesthetic or unconscious. If they are awake and aware, it feels like someone is plunging a needle directly into bone.
A pulse oximeter may also be used for research purposes, for example, during sleeping studies. These investigations are performed when a patient is suspected to have a condition called sleep apnea. People with this type of disorder are unable to breathe, sometimes for dangerously long periods, while they are sleeping. This can result in stroke, heart attack or even death. At best, it can leave people foggy headed and tired the next day.
There are two main types of sleep apnea, obstructive and neurological. Obstructive sleep apnea (OSA) is the more common of the two and is also the easiest to treat. Therapies include surgery, continuous positive airway pressure (CPAP) or prescribing a device that the patient puts in their mouth when they go to bed that helps them to keep their airway open.
The other kind of sleep apnea, neurological or central sleep apnea, is rarer and more serious than OSA. Rather than being unable to breathe, your brain doesn't bother to try. This is usually associated with a serious underlying condition affecting the brain stem, which is the part of the brain that controls breathing. Central sleep apnea may manifest itself alone or alongside OSA.
The biggest risk factors for sleep apnea are being overweight, male gender or being over the age of 40. However, sleep apnea can happen to anybody. Some small babies can stop breathing for as long as 20 seconds, which is very disturbing for already anxious new parents. If a baby is discovered to be at risk for this condition, the parents can obtain an alarm that will alert them if and when this happens. CMS pulse oximeters are also available for use at home.
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