Pulse oximetry is a measurement method used on patients to monitor O2 saturation in blood. This monitoring is done using a recording pulse oximeter. The gadget monitors and records any changes in the degree of oxygen concentration in blood cells and alerts the doctor. Notification can be in form of a sound and only happens when the level falls too low. Early medical intervention can therefore be done following the alerts.
The working of these devices bases on the principle of spectrophotometry. This principle depends on how the red and infrared lights are absorbed by oxygen-filled and deoxygenated blood cells in the body. These absorption rates are taken by the device and then processed by the main machine to give new readings after every 0.5 or 1 second. This high frequency at which readings are generated ensures high accuracy in the device.
The gadget comprises of two light emitting diodes that emit infrared and red radiations. When in use, the diodes must be placed directly opposite to their respective detectors. The detectors and the diodes should then be separated by 5-10 mm of tissue. This is why an oximeter must be placed on an organ with thin tissues like an earlobe or fingertip. Sensors of the device are made into clips or wraps. Recent studies show that oxygen saturation inside the body cannot be measured effectively through earlobes.
These devices are very useful in any setting where the amount of oxygen saturation within the body needs to be known at all times. Such settings include emergency units, intensive care, operation rooms, and in recovery and treatment wards in hospitals. Patients are advised to keep calm or minimize major movements in order to ensure accuracy of the readings. Devices with recording capability are better because they maintain a history of all values taken over a given period.
Besides gauging level of O2 concentration in blood, oximeters have many other applications. First, oximetry can be an alternative or replacement for blood gas analysis unless if acid-base state or PaCO2 is required. This technique is also simpler to perform, less painful, and costs less in comparison to several others. The level of accuracy is also higher especially if a patient is conscious. Recorded values set standards and are useful in determining variations.
Oximeters also prevent wastage of oxygen supplied to patients by keeping usage only to required levels. Intrapartum fetal monitoring and neonatal care are the other areas of usage. Use in neonatal care and intrapartum fetal monitoring are not developed and standardized fully but soon they will. First aid in modern ambulances is provided by these devices. GP kits are progressively getting equipped with oximeters.
In primary care, oximetry finds use in diagnosing and managing exacerbation of chronic obstructive pulmonary disease in a location. It also helps in grading the level of seriousness of an asthma attack. An asthma attack is considered life-threatening is the level of saturation falls at or below 92 percent. Severity of bronchiolitis in children is also assessed and medically cared for through this method.
The capability of recording oximeters to record readings raises their prices above those of other models. Costs are dictated by the number of additional functionalities in the gadget. Purchases may be made from shops that sell medical apparatus.
The working of these devices bases on the principle of spectrophotometry. This principle depends on how the red and infrared lights are absorbed by oxygen-filled and deoxygenated blood cells in the body. These absorption rates are taken by the device and then processed by the main machine to give new readings after every 0.5 or 1 second. This high frequency at which readings are generated ensures high accuracy in the device.
The gadget comprises of two light emitting diodes that emit infrared and red radiations. When in use, the diodes must be placed directly opposite to their respective detectors. The detectors and the diodes should then be separated by 5-10 mm of tissue. This is why an oximeter must be placed on an organ with thin tissues like an earlobe or fingertip. Sensors of the device are made into clips or wraps. Recent studies show that oxygen saturation inside the body cannot be measured effectively through earlobes.
These devices are very useful in any setting where the amount of oxygen saturation within the body needs to be known at all times. Such settings include emergency units, intensive care, operation rooms, and in recovery and treatment wards in hospitals. Patients are advised to keep calm or minimize major movements in order to ensure accuracy of the readings. Devices with recording capability are better because they maintain a history of all values taken over a given period.
Besides gauging level of O2 concentration in blood, oximeters have many other applications. First, oximetry can be an alternative or replacement for blood gas analysis unless if acid-base state or PaCO2 is required. This technique is also simpler to perform, less painful, and costs less in comparison to several others. The level of accuracy is also higher especially if a patient is conscious. Recorded values set standards and are useful in determining variations.
Oximeters also prevent wastage of oxygen supplied to patients by keeping usage only to required levels. Intrapartum fetal monitoring and neonatal care are the other areas of usage. Use in neonatal care and intrapartum fetal monitoring are not developed and standardized fully but soon they will. First aid in modern ambulances is provided by these devices. GP kits are progressively getting equipped with oximeters.
In primary care, oximetry finds use in diagnosing and managing exacerbation of chronic obstructive pulmonary disease in a location. It also helps in grading the level of seriousness of an asthma attack. An asthma attack is considered life-threatening is the level of saturation falls at or below 92 percent. Severity of bronchiolitis in children is also assessed and medically cared for through this method.
The capability of recording oximeters to record readings raises their prices above those of other models. Costs are dictated by the number of additional functionalities in the gadget. Purchases may be made from shops that sell medical apparatus.
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