Handheld patient monitoring systems have become an increasingly popular tool for healthcare professionals in recent years. These devices provide a convenient way for healthcare professionals to monitor a patient's vital signs, enabling them to quickly detect any changes in the patient's condition and take appropriate action. In this article, we will explore what handheld patient monitoring systems are, how they work, and the benefits they offer.
What is an Handheld Patient Monitor?
Handheld patient monitoring systems are portable devices that provide real-time monitoring of a patient's vital signs, including blood pressure, heart rate, respiratory rate, and oxygen saturation levels. These devices are typically small and lightweight, making them easy to carry around and use in a variety of settings.
Benefits & specifications of Handheld Patient Monitoring Systems
Handheld patient monitoring systems offer several benefits over traditional monitoring methods. Firstly, they enable real-time monitoring of a patient's vital signs, allowing healthcare professionals to quickly identify any changes in the patient's condition. This can be especially important in settings where patients require close monitoring, such as in postoperative care or during transport between facilities.
Secondly, handheld patient monitoring systems can be used in a variety of settings, making them a versatile tool for healthcare professionals. These devices can be used in hospitals, clinics, and even in the patient's home, enabling healthcare professionals to monitor patients in a variety of settings.
Finally, handheld patient monitoring systems can improve patient outcomes. By providing healthcare professionals with real-time information on a patient's condition, they can quickly identify any changes and take appropriate action. This can lead to faster diagnosis and treatment, which can improve patient outcomes and reduce the risk of complications.
Ø SPECIFICATIONS:
Ø SPO2
o Range: 0~100%
o Accuracy: ±2%(70%~100%)Undefined (<70%)
o Resolution: 1%
Ø AwRR (Air Way Respiratory Rate)
o Range: 0~150 rpm
o Accuracy: ±1 rpm(0~70rpm)Undefined(within other ranges)
o Resolution: 1 rpm
Ø PR
o Range: 25~250 bpm
o Accuracy: ±2 bpm or ±2% (whichever is greater)
o Resolution: 1 bpm
Ø EtCO2
o Range : 0~20vol%
o Accuracy : 0~12 vol%:±(0.2vol%+2%of reading)
o 12~20vol%:±(0.2vol%+6%of reading)
o Resolution: 1mmHg
Ø TEMP
o Range: 0-50°C
o Accuracy: ±0.1°C
o Resolution: 0.1
Ø ECG
o ECG Range : 0.15~5.5mV
o ECG Resolution : 2.36uV/LSB
o HR Range : 15~300bpm(adult)
o 15~350bpm(child/neonate)
o HR Accuracy : ±1bpm or±1% (whichever is greater)
Ø NIBP
o Pressure Range 0~300 mmHg
o Pressure Accuracy ±2 mmHg or ±1% of reading (take the larger value)
o Resolution 1 mmHg
o SYS Range Adult: 40-270 mmHg Pediatric: 40-200 mmHg Neonate: 40-130 mmHg
o DIA Range Adult: 10-210 mmHg Pediatric: 10-162 mmHg Neonate: 10-90 mmHg
o Mean Range Adult: 20-230 mmHg Pediatric: 20-170 mmHg Neonate: 20-100 mmHg
o Accuracy The mean deviation<±5 mmHg. The standard deviation< 8mmHg
Conclusion
Handheld patient monitoring systems have become an increasingly popular tool for healthcare professionals in recent years. These devices offer real-time monitoring of a patient's vital signs, can be used in a variety of settings, and can improve patient outcomes. As technology continues to advance, we can expect to see even more sophisticated handheld patient monitoring systems in the future.