Paediatric Pulse Oximeter: A Lifesaving Device
- One of the most advanced technological innovations is the pediatric pulse oximeter.
- It measures oxygen saturation in the blood, making it an indispensable tool for medical personnel.
- The paediatric pulse oximeter is a non-invasive instrument that checks oxygen saturation in infants and children.
- It consists of a tiny probe attached to the toes, fingers, or ear to transmit sunlight through the skin’s surface.
- When the light is absorbed into the bloodstream, it calculates the amount of light absorbed by oxygenated or deoxygenated blood.
- It also provides precise results.
Features of Infant Pulse Oximeter
Pulse oximeters have many benefits for healthcare professionals and parents. Let us take a look at the benefits here.
Early detection of hypoxemia
- Hypoxemia refers to low oxygen levels in the blood, which can indicate various cardiac and respiratory conditions.
- With a pulse oximeter, healthcare professionals can detect hypoxemia by monitoring oxygen saturation in real-time.
- Healthcare professionals who use pulse-oximeters can quickly detect hypoxemia.
- convenient and portable paediatric pulse-oximeters provide a simple method of monitoring oxygen saturation
- without collecting blood samples from children’s toes, fingers, or ears for arterial blood gas analysis.
- They attach to fingers, toes, or ears!
- Pulse oximeters are lightweight, portable devices designed for various environments, including ambulances, hospitals, clinics, and at home.
- Their portability allows healthcare professionals to check oxygen saturation regardless of location continuously.
Peace of mind for parents
- A paediatric pulse-oximeter can provide unbeatable peace of mind.
- The device provides non-invasive monitoring, allowing parents to track their child’s oxygen saturation in real time and receive regular updates from them.
Easy to Read
- Paediatric pulse oximeters with primary displays have user-friendly interfaces and transparent displays with bright indicators that show oxygen saturation, pulse rate, and occasionally plethysmographic waveforms.
Can oxygen saturation be determined without a pulse-oximeter?
- Although pulse oximeter readings can provide accurate measurements, physical signs such as cyanosis or shortness of breath can be used to estimate oxygen saturation using symptoms such as cyanosis or shortness of breath.
Can a pulse oximeter be used for all fingers?
- In general, yes. Most pulse oximeters can be placed on any finger. However, index fingers are generally preferred.
How is a pulse oximeter used on the index finger?
- Before using a pulse oximeter on the index finger, ensure the finger is dry and clean before placing the probe on the fingertip,
- And then wait for the device display to show oxygen saturation.
What are the disadvantages of the pulse-oximeter?
- Pulse oximeters can be limited by problems such as poor peripheral circulation, nail polish interference, or even excessive movement that can affect the accuracy of the readings.
What are the standard measurement intervals for pulse oximeters?
- The acceptable oxygen saturation range for healthy people is usually between 95% and 100%.
Are there different types of probes for pulse-oximeters?
- Pulse oximeters offer different probe options to meet the varying needs of different patients, such as probes for the earlobe, finger and unique probes for children.
|SpO2||Measurement range: 70~99% Resolution: ±1%
Accuracy: ±2% on the stage of 80%~99%;
±3% on the stage of 70%~79%;
Below 70% no requirement
|PR: Measurement range||30BPM~240BPM
Accuracy: ±1BPM or ±1% (the larger one)
|PI index||Measurement scope:0~20 (optional)|
|Power||Rechargeable lithium battery|
|Power consumption||Below 30mA|
|Automatic power-off||The product shuts off by itself when no finger is in the product ≥8 seconds|
|Operation Environment||Operation Temperature:5℃~40℃
Storage Temperature: -10℃~40℃
Ambient Humidity:15%~80% on operation
10%~80% in storage
Air Pressure: 70kPa~106kPa