Adults are aware of the fact that their heart rate can be monitored, and sometimes this is necessary. Most also know how to measure their pulse in the conventional way by finding it in various parts of the body. Less commonly known is the meaning of oximetry, which is the way to determine how much oxygen the blood contains. Equipment has been designed to measure oxygen levels, such as the wrist pulse oximeter.
Oximeters are equipment with various designs, and mostly they are found in large health institutions, such as hospitals. Nurses and doctors will use them in the critical care units and in the emergency department of the facility; and possibly in other areas as well. However, people also need the device outside of a hospital, and this is why they have been created in the form of a wristwatch. They will be needed when someone is in danger of their oxygen levels falling below an acceptable range.
Oximeters in the form of wristwatches are compact, but effective. They work in a similar way to those used at hospitals. Conveniently, they can remember data for up to eighty hours, at which time they will need to be cleared in order to be used again. The data can either be saved elsewhere, or removed from the device. These special oximeters are considered as safe to use by the FDA.
Oximeters for home use are most often purchased by persons who need to keep a constant track of their oxygenation percentage. This could be necessary during times of rest, or because they suffer from asthma. The device works with a probe that does not penetrate the skin, and that normally fits over someone's finger. It shines red and infrared light.
The light that is shined onto the skin is mostly absorbed by tissue, but some is not, and it is this small amount of light that is used to show the level of oxygen in the blood, or the hemoglobin levels. An individual in good health will be expected to get a reading of between 95% and 98%. It will rarely be at 100%. However, for some people it could be normal that the percentage is anything down to 90% as well. Below this percentage, the patient may be having trouble breathing.
Oximeters give quite accurate readings, but there are certain things that cause unreliable readings. There must be a strong pulse rate in order for the device to work. Patients who have an irregular heartbeat will not be able to get an accurate reading. A patient will also struggle if they have a very weak heart rate.
The patient who requires the test should also not be moving around, as motion could cause the device to give an unreliable response. The light is disturbed by movement. The device should not be used around other very bright lights, as this could effect its own light. One reading is often not sufficient to determine an accurate level of oxygen.
Computer programs will need to be purchased along with the wrist pulse oximeter, but they are easy to find. The long battery life and the fact that they can be used even whilst wearing nail polish are additional advantages. They will also have a guarantee of quality.
Oximeters are equipment with various designs, and mostly they are found in large health institutions, such as hospitals. Nurses and doctors will use them in the critical care units and in the emergency department of the facility; and possibly in other areas as well. However, people also need the device outside of a hospital, and this is why they have been created in the form of a wristwatch. They will be needed when someone is in danger of their oxygen levels falling below an acceptable range.
Oximeters in the form of wristwatches are compact, but effective. They work in a similar way to those used at hospitals. Conveniently, they can remember data for up to eighty hours, at which time they will need to be cleared in order to be used again. The data can either be saved elsewhere, or removed from the device. These special oximeters are considered as safe to use by the FDA.
Oximeters for home use are most often purchased by persons who need to keep a constant track of their oxygenation percentage. This could be necessary during times of rest, or because they suffer from asthma. The device works with a probe that does not penetrate the skin, and that normally fits over someone's finger. It shines red and infrared light.
The light that is shined onto the skin is mostly absorbed by tissue, but some is not, and it is this small amount of light that is used to show the level of oxygen in the blood, or the hemoglobin levels. An individual in good health will be expected to get a reading of between 95% and 98%. It will rarely be at 100%. However, for some people it could be normal that the percentage is anything down to 90% as well. Below this percentage, the patient may be having trouble breathing.
Oximeters give quite accurate readings, but there are certain things that cause unreliable readings. There must be a strong pulse rate in order for the device to work. Patients who have an irregular heartbeat will not be able to get an accurate reading. A patient will also struggle if they have a very weak heart rate.
The patient who requires the test should also not be moving around, as motion could cause the device to give an unreliable response. The light is disturbed by movement. The device should not be used around other very bright lights, as this could effect its own light. One reading is often not sufficient to determine an accurate level of oxygen.
Computer programs will need to be purchased along with the wrist pulse oximeter, but they are easy to find. The long battery life and the fact that they can be used even whilst wearing nail polish are additional advantages. They will also have a guarantee of quality.
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