Traditionally, oxygen saturation was measured invasely by drawing samples of blood. Oxygen saturation is simply the measure of the level of oxyhaemoglobing in the blood. The measure is especially important as it alerts on the level of blood oxygenation. The traditional means of measurement was inefficient as it was unable to equip clinicians with real time measurements. This ineffectiveness prompted the innovation of wrist pulse oximeters.
A pulse oximeter merely implies a device which non-invasively determines the blood oxygenation in arteries and the pulse rate. The method enhances clinic officials to ascertain the oxygen saturation, particularly in patients that are unconscious, sedated, unaesthetic and unable to control own oxygen supply. It prevents irreversible tissue supply and is widely applied in hospitals, surgical rooms, and medical clinics and in homes.
Their medical application ranges from people with chronic obstructive pulmonary disease (COPD) to patients suffering from asthma, emphysema and other such diseases and conditions. As a preventive device, it is used by pilots and mountain climbers of high altitudes to guard against hypoxia. Athletes, while training in higher altitudes, utilize wrist Oximeters because the oxygen level decline can increase the red blood cells and thus increasing his endurance.
Wrist oximeters offer a wide range of benefits. The device is relatively mobile and do not need an external source of power. They are simply attached to the wrist, making them more portable for the user that requires continued monitoring. In addition, they are lightweight and do not have long cable that could otherwise be caught or tangled when in use.
Their simplicity makes them easy to operate. To operate such simple equipment, one does not employ a lot of technical know-how and expertise. The only part that demands for some minor technical know how is in transferring the data. Taking readings from the screen is also quite simple as a result of their big display. This is completely contrary to the other Oximeters, such as finger based which have small displays and views of saturation levels.
In terms of affordability, the wrist based meters are fairly priced. Their mid-prices make them relatively cheap compared to their handheld and finger counterparts. Also, they can be applied by virtually all age groups, both adults and pediatric. Selecting a particular device depends on the size of your finger and your unit ability to withstand various sizes and types.
Record and data storage is also part of its application. This measuring gadget is fitted with storage memory capable of keeping the data. It can also be programmed to give readings at the set time limits to provide a reading of oxygen saturation.
However, they also have their own setbacks when compared with other applications. For example, the equipment lacks alarm. Their use is primarily for sleep screening, and that is why alarms are not employed. When alarm service is required, handheld and tabletop Oximeters are preferred. Though the instrument offers spot checks, it is not the most ideal when the primary need is spot checking.
A pulse oximeter merely implies a device which non-invasively determines the blood oxygenation in arteries and the pulse rate. The method enhances clinic officials to ascertain the oxygen saturation, particularly in patients that are unconscious, sedated, unaesthetic and unable to control own oxygen supply. It prevents irreversible tissue supply and is widely applied in hospitals, surgical rooms, and medical clinics and in homes.
Their medical application ranges from people with chronic obstructive pulmonary disease (COPD) to patients suffering from asthma, emphysema and other such diseases and conditions. As a preventive device, it is used by pilots and mountain climbers of high altitudes to guard against hypoxia. Athletes, while training in higher altitudes, utilize wrist Oximeters because the oxygen level decline can increase the red blood cells and thus increasing his endurance.
Wrist oximeters offer a wide range of benefits. The device is relatively mobile and do not need an external source of power. They are simply attached to the wrist, making them more portable for the user that requires continued monitoring. In addition, they are lightweight and do not have long cable that could otherwise be caught or tangled when in use.
Their simplicity makes them easy to operate. To operate such simple equipment, one does not employ a lot of technical know-how and expertise. The only part that demands for some minor technical know how is in transferring the data. Taking readings from the screen is also quite simple as a result of their big display. This is completely contrary to the other Oximeters, such as finger based which have small displays and views of saturation levels.
In terms of affordability, the wrist based meters are fairly priced. Their mid-prices make them relatively cheap compared to their handheld and finger counterparts. Also, they can be applied by virtually all age groups, both adults and pediatric. Selecting a particular device depends on the size of your finger and your unit ability to withstand various sizes and types.
Record and data storage is also part of its application. This measuring gadget is fitted with storage memory capable of keeping the data. It can also be programmed to give readings at the set time limits to provide a reading of oxygen saturation.
However, they also have their own setbacks when compared with other applications. For example, the equipment lacks alarm. Their use is primarily for sleep screening, and that is why alarms are not employed. When alarm service is required, handheld and tabletop Oximeters are preferred. Though the instrument offers spot checks, it is not the most ideal when the primary need is spot checking.
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